Cardiology News

A West Virginia medical center is being sued by a man who claims that the hospital lied about removing his appendix, a story in the West Virginia Record reports.

On Nov. 1, 2020, Dallas Settle went to Plateau Medical Center, Oak Hill, W.Va., complaining of pain that was later described in court documents as being “in his right mid-abdomen migrating to his right lower abdomen.” Following a CT scan, Mr. Settle was diagnosed with diverticulitis resulting in pneumoperitoneum, which is the presence of air or other gas in the abdominal cavity. The patient, it was decided, required surgery to correct the problem, but Plateau Medical Center didn’t have the staff to perform the procedure.

Mr. Settle was then transferred to another West Virginia hospital, Charleston Area Medical Center (CAMC). Here, he was evaluated by doctors in the facility’s General Division, who initiated treatment with IV fluids and opiate analgesics. He was then placed under the care of a trauma surgeon, who initially decided to treat the patient nonoperatively. If that approach failed, the surgeon believed, Mr. Settle would probably require a laparotomy, bowel resection, and ostomy.

Another surgical team performed an exploratory laparotomy the following day. The team determined that Mr. Settle was suffering from a ruptured appendicitis and allegedly performed an appendectomy. But Mr. Settle’s condition continued to deteriorate the following day.

Another CT scan followed. It revealed various problems – multiple fluid collections, an ileus, distended loops of the patient’s small bowel, a left renal cyst, subcentimeter mesenteric, and retroperitoneal adenopathy. Additional CT scans conducted 4 days later indicated other problems, including fluid collections in the patient’s right- and left-lower quadrants.

Over the next few days, doctors performed further exploratory laparotomies. Finally, on Nov. 22, Mr. Settle was transferred out of the intensive care unit in preparation for his discharge the following day.

His pain continued to worsen, however, and he was readmitted to CAMC a day later. At this point, an examination revealed that his surgical incisions had become infected.

Worse news was on the horizon. On Nov. 28, the trauma surgeon who had first agreed to treat Mr. Settle informed him that, despite claims to the contrary, his appendix hadn’t been removed.

Eventually, Mr. Settle was referred to the Cleveland Clinic, where at press time he was still being treated.

Mr. Settle has hired the firm Calwell Luce diTrapano to sue CAMC, accusing it of medical malpractice, medical negligence, and other lapses in the standard of care. In his complaint, he accused the hospital and its staff of breaching their duty of care “by negligently and improperly treating him” and by failing “to exercise the degree of care, skill, and learning required and expected of reasonable health care providers.”

His suit seeks not only compensatory damages and other relief but also punitive damages.

The content contained in this article is for informational purposes only and does not constitute legal advice. Reliance on any information provided in this article is solely at your own risk.

A version of this article originally appeared on Medscape.com.

A West Virginia medical center is being sued by a man who claims that the hospital lied about removing his appendix, a story in the West Virginia Record reports.

On Nov. 1, 2020, Dallas Settle went to Plateau Medical Center, Oak Hill, W.Va., complaining of pain that was later described in court documents as being “in his right mid-abdomen migrating to his right lower abdomen.” Following a CT scan, Mr. Settle was diagnosed with diverticulitis resulting in pneumoperitoneum, which is the presence of air or other gas in the abdominal cavity. The patient, it was decided, required surgery to correct the problem, but Plateau Medical Center didn’t have the staff to perform the procedure.

Mr. Settle was then transferred to another West Virginia hospital, Charleston Area Medical Center (CAMC). Here, he was evaluated by doctors in the facility’s General Division, who initiated treatment with IV fluids and opiate analgesics. He was then placed under the care of a trauma surgeon, who initially decided to treat the patient nonoperatively. If that approach failed, the surgeon believed, Mr. Settle would probably require a laparotomy, bowel resection, and ostomy.

Another surgical team performed an exploratory laparotomy the following day. The team determined that Mr. Settle was suffering from a ruptured appendicitis and allegedly performed an appendectomy. But Mr. Settle’s condition continued to deteriorate the following day.

Another CT scan followed. It revealed various problems – multiple fluid collections, an ileus, distended loops of the patient’s small bowel, a left renal cyst, subcentimeter mesenteric, and retroperitoneal adenopathy. Additional CT scans conducted 4 days later indicated other problems, including fluid collections in the patient’s right- and left-lower quadrants.

Over the next few days, doctors performed further exploratory laparotomies. Finally, on Nov. 22, Mr. Settle was transferred out of the intensive care unit in preparation for his discharge the following day.

His pain continued to worsen, however, and he was readmitted to CAMC a day later. At this point, an examination revealed that his surgical incisions had become infected.

Worse news was on the horizon. On Nov. 28, the trauma surgeon who had first agreed to treat Mr. Settle informed him that, despite claims to the contrary, his appendix hadn’t been removed.

Eventually, Mr. Settle was referred to the Cleveland Clinic, where at press time he was still being treated.

Mr. Settle has hired the firm Calwell Luce diTrapano to sue CAMC, accusing it of medical malpractice, medical negligence, and other lapses in the standard of care. In his complaint, he accused the hospital and its staff of breaching their duty of care “by negligently and improperly treating him” and by failing “to exercise the degree of care, skill, and learning required and expected of reasonable health care providers.”

His suit seeks not only compensatory damages and other relief but also punitive damages.

The content contained in this article is for informational purposes only and does not constitute legal advice. Reliance on any information provided in this article is solely at your own risk.

A version of this article originally appeared on Medscape.com.

A West Virginia medical center is being sued by a man who claims that the hospital lied about removing his appendix, a story in the West Virginia Record reports.

On Nov. 1, 2020, Dallas Settle went to Plateau Medical Center, Oak Hill, W.Va., complaining of pain that was later described in court documents as being “in his right mid-abdomen migrating to his right lower abdomen.” Following a CT scan, Mr. Settle was diagnosed with diverticulitis resulting in pneumoperitoneum, which is the presence of air or other gas in the abdominal cavity. The patient, it was decided, required surgery to correct the problem, but Plateau Medical Center didn’t have the staff to perform the procedure.

Mr. Settle was then transferred to another West Virginia hospital, Charleston Area Medical Center (CAMC). Here, he was evaluated by doctors in the facility’s General Division, who initiated treatment with IV fluids and opiate analgesics. He was then placed under the care of a trauma surgeon, who initially decided to treat the patient nonoperatively. If that approach failed, the surgeon believed, Mr. Settle would probably require a laparotomy, bowel resection, and ostomy.

Another surgical team performed an exploratory laparotomy the following day. The team determined that Mr. Settle was suffering from a ruptured appendicitis and allegedly performed an appendectomy. But Mr. Settle’s condition continued to deteriorate the following day.

Another CT scan followed. It revealed various problems – multiple fluid collections, an ileus, distended loops of the patient’s small bowel, a left renal cyst, subcentimeter mesenteric, and retroperitoneal adenopathy. Additional CT scans conducted 4 days later indicated other problems, including fluid collections in the patient’s right- and left-lower quadrants.

Over the next few days, doctors performed further exploratory laparotomies. Finally, on Nov. 22, Mr. Settle was transferred out of the intensive care unit in preparation for his discharge the following day.

His pain continued to worsen, however, and he was readmitted to CAMC a day later. At this point, an examination revealed that his surgical incisions had become infected.

Worse news was on the horizon. On Nov. 28, the trauma surgeon who had first agreed to treat Mr. Settle informed him that, despite claims to the contrary, his appendix hadn’t been removed.

Eventually, Mr. Settle was referred to the Cleveland Clinic, where at press time he was still being treated.

Mr. Settle has hired the firm Calwell Luce diTrapano to sue CAMC, accusing it of medical malpractice, medical negligence, and other lapses in the standard of care. In his complaint, he accused the hospital and its staff of breaching their duty of care “by negligently and improperly treating him” and by failing “to exercise the degree of care, skill, and learning required and expected of reasonable health care providers.”

His suit seeks not only compensatory damages and other relief but also punitive damages.

The content contained in this article is for informational purposes only and does not constitute legal advice. Reliance on any information provided in this article is solely at your own risk.

A version of this article originally appeared on Medscape.com.

Clinical cardiologist Heba Wassif, MD, MPH, knows the value of working with her fellow rheumatologists, surgeons, and other clinicians to establish a care plan for her patients with cardiac conditions and autoimmune diseases.

She is the cofounder of the Cleveland Clinic’s new cardio-rheumatology program, which places an emphasis on multidisciplinary care. In her role, Dr. Wassif closely follows her patients, and if she sees any inflammation or any other condition that requires the rheumatologist, she reaches out to her colleagues to adjust medications if needed.

Collaboration with a rheumatologist was important when a patient with valvular disease was prepping for surgery. The patient was on significant immunosuppressants and the surgery had to be timed appropriately, accounting for any decreases in her immunosuppression, explained Dr. Wassif, director of inpatient clinical cardiology at Cleveland Clinic in Ohio.

Cardio-rheumatology programs are “the newest child” in a series of cardiology offshoots focusing on different populations. Cardio-oncology and cardio-obstetrics took off about 6 years ago, with cardio-rheumatology clinics and interested physicians rising in number over the last several years, Dr. Wassif noted.

The relationship between cardiovascular diseases and rheumatologic conditions is certainly recognized more often, “which means more literature is being published to discuss the link,” according to Rekha Mankad, MD, a trailblazer of this model of care. She directs the Women’s Heart Clinic at Mayo Clinic in Rochester, Minn., which was one of the earliest adopters of a cardio-rheumatology clinic.

Challenges of treating cardiac, rheumatologic conditions

The rise in clinics addresses the longstanding connection between autoimmune disorders and cardiac conditions.

Cardiologists have known that there is an element of inflammation that contributes to atherosclerosis, said Dr. Wassif, who has researched this topic extensively. A recent study she led found a strong association between rheumatic immune-mediated inflammatory diseases (IMIDs) and high risk of acute coronary syndrome in Medicare patients.

“This particular population has a very clear increased risk for cardiovascular conditions, including valve disease and heart failure,” she emphasized.

Patients with rheumatoid arthritis and lupus have up to a twofold and eightfold higher risk of heart disease, respectively, noted Michael S. Garshick, MD, a cardiovascular disease specialist who directs the cardio-rheumatology program at NYU-Langone Health, in New York. Cardiologists “have really developed an understanding that the immune system can impact the heart, and that there’s a need for people to understand the nuance behind how the immune system can affect them and what to do about it,” Dr. Garshick said.

Courtesy Rob Lisak

‘Reading the tea leaves’

Each program has its own unique story. For the Cleveland Clinic, the concept of a cardio-rheumatology program began during the COVID-19 pandemic in 2020. Developing such a concept and gaining institutional acceptance is always a work in process, Dr. Wassif said. “It’s not that you decide one day that you’re going to build a center, and that center is going to come into fruition overnight. You first gauge interest within your division. Who are the individuals that are interested in this area?”

Cleveland Clinic’s center is seeking to build relations between medical disciplines while spotlighting the concept of cardio-rheumatology, said Dr. Wassif, who has been providing education within the clinic and at other health institutions to ensure that patients receive appropriate attention early.

NYU-Langone launched its program amid this heightened awareness that the immune system could affect atherosclerosis, “kind of reading of the tea leaves, so to speak,” Dr. Garshick said.

Several clinical trials served as a catalyst for this movement. “A lot of clinical cardiologists were never 100% convinced that targeting the immune system reduced cardiovascular disease,” he said. Then the CANTOS clinical trial came along and showed for the first time that a therapeutic monoclonal antibody targeting interleukin-1beta, a cytokine central to inflammatory response, could in fact reduce cardiovascular disease.

Trials like this, along with epidemiologic literature connecting the rheumatologic and the autoimmune conditions with cardiovascular disease, pushed this concept to the forefront, Dr. Garshick said.

The notion that a clinic could successfully address cardiac problems in patients with rheumatic diseases yielded promising returns at Women’s College Hospital in Toronto, according to a report presented at the 2018 American College of Rheumatology annual meeting. Researchers reported that patients with rheumatologic conditions who attended a cardio-rheumatology clinic at this center saw improvements in care. The clinic identified increased cardiovascular risk and early atherosclerosis, and 53.8% of patients altered their medications after being seen in the clinic.

A total of 39.7% and 32.1% received lipid lowering and antiplatelet therapies, respectively, and 14% received antihypertensive therapy. A small percentage were treated for heart failure or placed on lifelong anticoagulation therapy for atrial fibrillation, and one patient received a percutaneous coronary stent.
 

Ins and outs of the referral process

Initially designed for preventive cardiac risk assessment, Yale’s program evolved into a multidisciplinary, patient-centered approach for the management of complex cardiovascular conditions in patients with autoimmune rheumatologic diseases.

The program is open to anyone who carries a diagnosis of rheumatologic disease or has elevated inflammatory markers. “Every patient, regardless of the reason for the referral, receives a cardiovascular risk assessment,” Dr. Furman said.

Harold Shapiro

A personalized assessment to reduce cardiac risk

NYU-Langone’s program offers opportunities to educate patients about the link between cardiac and rheumatologic disease.

“Their rheumatologist or their dermatologist will say, ‘Hey, have you heard about the connection between psoriasis, psoriatic or rheumatoid arthritis, and heart disease and the risk of heart attack or stroke?’ ” Dr. Garshick said.

The patients will often say they know nothing about these connections and want to learn more about how to treat it.

“We’ll say, ‘we have someone here that can help you.’ They’ll send them to myself or other colleagues like me across the country. We’ll assess blood pressure, weight, lipids, hemoglobin A1c, and other serologic and oftentimes imaging biomarkers of cardiovascular risk.” The patients will receive a personalized assessment, listing things they can do to lower their risk, whether it’s diet, exercise, or lifestyle. “Many times it can involve medications to reduce heart disease risk,” said Dr. Garshick.

In some instances, a rheumatologist or dermatologist may be concerned about starting a patient on a specific medication for the disease such as a JAK inhibitor. “We’ll help assess their risk because there’s been a lot of literature out in the rheumatology world about the risk of JAK inhibitors and heart disease and blood clots,” said Dr. Garshick.

Dr. Garshick also sees patients with rheumatologic conditions who have a specific cardiovascular concern or complaint such as shortness of breath or chest pain. “We’ll work that up with a specific knowledge of the underlying immune condition and how that may impact their heart,” he said.
 

Advances in research

As they continue to see patients and devise specific care plans, developers of cardio-rheumatology programs have been supplementing their work with ongoing research.

Yale’s clinic is expanding this year to include a new attending physician, Attila Feher, MD, PhD, who has conducted research in autoimmunity and microcirculation using molecular imaging and multimodality imaging techniques. Prevalence of coronary microvascular dysfunction appears to be increased in this patient population, Dr. Furman said.

Dr. Wassif recently coauthored a paper that examined patients with underlying rheumatologic conditions who undergo valvular and aortic valve replacement. “To our surprise, there was really no difference between patients with autoimmune conditions and others with nonautoimmune conditions,” she said, adding that the study had its limitations.

Other work includes data on Medicare patients with ST- and non-ST-elevation myocardial infarctions who have an underlying autoimmune disorder. Dr. Wassif and her colleagues found that their long-term outcomes are worse than those of patients without these conditions. “It’s unclear if worse outcomes are related to complications of autoimmunity versus the extent of their underlying disease. This is a work in progress and certainly an area that is ripe for research.”

Dr. Garshick and other collaborators at NYU have been focusing on the endothelium, specifically platelet biology in patients with psoriasis, psoriatic arthritis, and lupus. “We’re about to start the same research with gout as well,” he said.

“The process we’re most interested in is understanding how these diseases impact the early stages of cholesterol. And the way we’re doing that is evaluating the vasculature, specifically the endothelium,” he said.

He has finished two clinical trials that evaluate how standard heart disease medications such as aspirin and statins impact or can potentially benefit patients with psoriasis and/or psoriatic arthritis. “We have a whole list of other trials in the pipeline with other institutions across the country.”

Through a grant, Dr. Mankad is assessing whether a PET scan could detect inflammation in the hearts of rheumatoid arthritis patients. “We’re looking to see if the reason these patients have heart failure later in life is because their heart muscle actually shows evidence of inflammation, even when they have no symptoms,” she explained.

Other tests such as echocardiogram and CT scans will be used to evaluate coronary disease in about 40-50 patients. The goal of using these multiple imaging tools is to find markers indicating that the heart is affected by rheumatoid arthritis, which may indicate a higher likelihood of developing heart failure, she said.
 

Clinics are popping up

Through these new clinics, some collaborations have emerged. Dr. Garshick works closely with Brigham and Women’s Hospital, which has a similar cardio-rheumatology program, run by Brittany Weber, MD, to exchange ideas, discuss challenging cases, and collaborate.

“There are a lot of clinics like us popping up across the country,” he observed. Every so often, he hears from other institutions that are interested in starting their own cardio-rheumatology programs. “They ask us: How do you start, what should we look for?”

It’s an education process for both patients and providers, Dr. Garshick emphasized. “I also think it’s a bandwidth issue. Many of our rheumatology and dermatology colleagues are acutely aware of the connection, but there may not be enough time at a clinic visit to really go in depth” with these dual conditions, he said.

NYU-Langone Health for the past several years has been holding a symposium to educate people on the cardio-rheumatology connection and treating inflammation in cardiovascular disease. This year’s symposium, held in conjunction with Brigham and Women’s Hospital, is scheduled for April 28. For more information, visit the course website: nyulmc.org/cvinflammationcme.

“What we’re trying to do is help [other institutions] get that bandwidth” to adequately help and serve these patients, he said.

Dr. Garshick has received consultant fees from Abbvie and Horizon therapeutics and an unrestricted research grant from Pfizer. No other sources had relevant financial disclosures.

Clinical cardiologist Heba Wassif, MD, MPH, knows the value of working with her fellow rheumatologists, surgeons, and other clinicians to establish a care plan for her patients with cardiac conditions and autoimmune diseases.

She is the cofounder of the Cleveland Clinic’s new cardio-rheumatology program, which places an emphasis on multidisciplinary care. In her role, Dr. Wassif closely follows her patients, and if she sees any inflammation or any other condition that requires the rheumatologist, she reaches out to her colleagues to adjust medications if needed.

Collaboration with a rheumatologist was important when a patient with valvular disease was prepping for surgery. The patient was on significant immunosuppressants and the surgery had to be timed appropriately, accounting for any decreases in her immunosuppression, explained Dr. Wassif, director of inpatient clinical cardiology at Cleveland Clinic in Ohio.

Cardio-rheumatology programs are “the newest child” in a series of cardiology offshoots focusing on different populations. Cardio-oncology and cardio-obstetrics took off about 6 years ago, with cardio-rheumatology clinics and interested physicians rising in number over the last several years, Dr. Wassif noted.

The relationship between cardiovascular diseases and rheumatologic conditions is certainly recognized more often, “which means more literature is being published to discuss the link,” according to Rekha Mankad, MD, a trailblazer of this model of care. She directs the Women’s Heart Clinic at Mayo Clinic in Rochester, Minn., which was one of the earliest adopters of a cardio-rheumatology clinic.

Challenges of treating cardiac, rheumatologic conditions

The rise in clinics addresses the longstanding connection between autoimmune disorders and cardiac conditions.

Cardiologists have known that there is an element of inflammation that contributes to atherosclerosis, said Dr. Wassif, who has researched this topic extensively. A recent study she led found a strong association between rheumatic immune-mediated inflammatory diseases (IMIDs) and high risk of acute coronary syndrome in Medicare patients.

“This particular population has a very clear increased risk for cardiovascular conditions, including valve disease and heart failure,” she emphasized.

Patients with rheumatoid arthritis and lupus have up to a twofold and eightfold higher risk of heart disease, respectively, noted Michael S. Garshick, MD, a cardiovascular disease specialist who directs the cardio-rheumatology program at NYU-Langone Health, in New York. Cardiologists “have really developed an understanding that the immune system can impact the heart, and that there’s a need for people to understand the nuance behind how the immune system can affect them and what to do about it,” Dr. Garshick said.

Courtesy Rob Lisak

‘Reading the tea leaves’

Each program has its own unique story. For the Cleveland Clinic, the concept of a cardio-rheumatology program began during the COVID-19 pandemic in 2020. Developing such a concept and gaining institutional acceptance is always a work in process, Dr. Wassif said. “It’s not that you decide one day that you’re going to build a center, and that center is going to come into fruition overnight. You first gauge interest within your division. Who are the individuals that are interested in this area?”

Cleveland Clinic’s center is seeking to build relations between medical disciplines while spotlighting the concept of cardio-rheumatology, said Dr. Wassif, who has been providing education within the clinic and at other health institutions to ensure that patients receive appropriate attention early.

NYU-Langone launched its program amid this heightened awareness that the immune system could affect atherosclerosis, “kind of reading of the tea leaves, so to speak,” Dr. Garshick said.

Several clinical trials served as a catalyst for this movement. “A lot of clinical cardiologists were never 100% convinced that targeting the immune system reduced cardiovascular disease,” he said. Then the CANTOS clinical trial came along and showed for the first time that a therapeutic monoclonal antibody targeting interleukin-1beta, a cytokine central to inflammatory response, could in fact reduce cardiovascular disease.

Trials like this, along with epidemiologic literature connecting the rheumatologic and the autoimmune conditions with cardiovascular disease, pushed this concept to the forefront, Dr. Garshick said.

The notion that a clinic could successfully address cardiac problems in patients with rheumatic diseases yielded promising returns at Women’s College Hospital in Toronto, according to a report presented at the 2018 American College of Rheumatology annual meeting. Researchers reported that patients with rheumatologic conditions who attended a cardio-rheumatology clinic at this center saw improvements in care. The clinic identified increased cardiovascular risk and early atherosclerosis, and 53.8% of patients altered their medications after being seen in the clinic.

A total of 39.7% and 32.1% received lipid lowering and antiplatelet therapies, respectively, and 14% received antihypertensive therapy. A small percentage were treated for heart failure or placed on lifelong anticoagulation therapy for atrial fibrillation, and one patient received a percutaneous coronary stent.
 

Ins and outs of the referral process

Initially designed for preventive cardiac risk assessment, Yale’s program evolved into a multidisciplinary, patient-centered approach for the management of complex cardiovascular conditions in patients with autoimmune rheumatologic diseases.

The program is open to anyone who carries a diagnosis of rheumatologic disease or has elevated inflammatory markers. “Every patient, regardless of the reason for the referral, receives a cardiovascular risk assessment,” Dr. Furman said.

Harold Shapiro

A personalized assessment to reduce cardiac risk

NYU-Langone’s program offers opportunities to educate patients about the link between cardiac and rheumatologic disease.

“Their rheumatologist or their dermatologist will say, ‘Hey, have you heard about the connection between psoriasis, psoriatic or rheumatoid arthritis, and heart disease and the risk of heart attack or stroke?’ ” Dr. Garshick said.

The patients will often say they know nothing about these connections and want to learn more about how to treat it.

“We’ll say, ‘we have someone here that can help you.’ They’ll send them to myself or other colleagues like me across the country. We’ll assess blood pressure, weight, lipids, hemoglobin A1c, and other serologic and oftentimes imaging biomarkers of cardiovascular risk.” The patients will receive a personalized assessment, listing things they can do to lower their risk, whether it’s diet, exercise, or lifestyle. “Many times it can involve medications to reduce heart disease risk,” said Dr. Garshick.

In some instances, a rheumatologist or dermatologist may be concerned about starting a patient on a specific medication for the disease such as a JAK inhibitor. “We’ll help assess their risk because there’s been a lot of literature out in the rheumatology world about the risk of JAK inhibitors and heart disease and blood clots,” said Dr. Garshick.

Dr. Garshick also sees patients with rheumatologic conditions who have a specific cardiovascular concern or complaint such as shortness of breath or chest pain. “We’ll work that up with a specific knowledge of the underlying immune condition and how that may impact their heart,” he said.
 

Advances in research

As they continue to see patients and devise specific care plans, developers of cardio-rheumatology programs have been supplementing their work with ongoing research.

Yale’s clinic is expanding this year to include a new attending physician, Attila Feher, MD, PhD, who has conducted research in autoimmunity and microcirculation using molecular imaging and multimodality imaging techniques. Prevalence of coronary microvascular dysfunction appears to be increased in this patient population, Dr. Furman said.

Dr. Wassif recently coauthored a paper that examined patients with underlying rheumatologic conditions who undergo valvular and aortic valve replacement. “To our surprise, there was really no difference between patients with autoimmune conditions and others with nonautoimmune conditions,” she said, adding that the study had its limitations.

Other work includes data on Medicare patients with ST- and non-ST-elevation myocardial infarctions who have an underlying autoimmune disorder. Dr. Wassif and her colleagues found that their long-term outcomes are worse than those of patients without these conditions. “It’s unclear if worse outcomes are related to complications of autoimmunity versus the extent of their underlying disease. This is a work in progress and certainly an area that is ripe for research.”

Dr. Garshick and other collaborators at NYU have been focusing on the endothelium, specifically platelet biology in patients with psoriasis, psoriatic arthritis, and lupus. “We’re about to start the same research with gout as well,” he said.

“The process we’re most interested in is understanding how these diseases impact the early stages of cholesterol. And the way we’re doing that is evaluating the vasculature, specifically the endothelium,” he said.

He has finished two clinical trials that evaluate how standard heart disease medications such as aspirin and statins impact or can potentially benefit patients with psoriasis and/or psoriatic arthritis. “We have a whole list of other trials in the pipeline with other institutions across the country.”

Through a grant, Dr. Mankad is assessing whether a PET scan could detect inflammation in the hearts of rheumatoid arthritis patients. “We’re looking to see if the reason these patients have heart failure later in life is because their heart muscle actually shows evidence of inflammation, even when they have no symptoms,” she explained.

Other tests such as echocardiogram and CT scans will be used to evaluate coronary disease in about 40-50 patients. The goal of using these multiple imaging tools is to find markers indicating that the heart is affected by rheumatoid arthritis, which may indicate a higher likelihood of developing heart failure, she said.
 

Clinics are popping up

Through these new clinics, some collaborations have emerged. Dr. Garshick works closely with Brigham and Women’s Hospital, which has a similar cardio-rheumatology program, run by Brittany Weber, MD, to exchange ideas, discuss challenging cases, and collaborate.

“There are a lot of clinics like us popping up across the country,” he observed. Every so often, he hears from other institutions that are interested in starting their own cardio-rheumatology programs. “They ask us: How do you start, what should we look for?”

It’s an education process for both patients and providers, Dr. Garshick emphasized. “I also think it’s a bandwidth issue. Many of our rheumatology and dermatology colleagues are acutely aware of the connection, but there may not be enough time at a clinic visit to really go in depth” with these dual conditions, he said.

NYU-Langone Health for the past several years has been holding a symposium to educate people on the cardio-rheumatology connection and treating inflammation in cardiovascular disease. This year’s symposium, held in conjunction with Brigham and Women’s Hospital, is scheduled for April 28. For more information, visit the course website: nyulmc.org/cvinflammationcme.

“What we’re trying to do is help [other institutions] get that bandwidth” to adequately help and serve these patients, he said.

Dr. Garshick has received consultant fees from Abbvie and Horizon therapeutics and an unrestricted research grant from Pfizer. No other sources had relevant financial disclosures.

Clinical cardiologist Heba Wassif, MD, MPH, knows the value of working with her fellow rheumatologists, surgeons, and other clinicians to establish a care plan for her patients with cardiac conditions and autoimmune diseases.

She is the cofounder of the Cleveland Clinic’s new cardio-rheumatology program, which places an emphasis on multidisciplinary care. In her role, Dr. Wassif closely follows her patients, and if she sees any inflammation or any other condition that requires the rheumatologist, she reaches out to her colleagues to adjust medications if needed.

Collaboration with a rheumatologist was important when a patient with valvular disease was prepping for surgery. The patient was on significant immunosuppressants and the surgery had to be timed appropriately, accounting for any decreases in her immunosuppression, explained Dr. Wassif, director of inpatient clinical cardiology at Cleveland Clinic in Ohio.

Cardio-rheumatology programs are “the newest child” in a series of cardiology offshoots focusing on different populations. Cardio-oncology and cardio-obstetrics took off about 6 years ago, with cardio-rheumatology clinics and interested physicians rising in number over the last several years, Dr. Wassif noted.

The relationship between cardiovascular diseases and rheumatologic conditions is certainly recognized more often, “which means more literature is being published to discuss the link,” according to Rekha Mankad, MD, a trailblazer of this model of care. She directs the Women’s Heart Clinic at Mayo Clinic in Rochester, Minn., which was one of the earliest adopters of a cardio-rheumatology clinic.

Challenges of treating cardiac, rheumatologic conditions

The rise in clinics addresses the longstanding connection between autoimmune disorders and cardiac conditions.

Cardiologists have known that there is an element of inflammation that contributes to atherosclerosis, said Dr. Wassif, who has researched this topic extensively. A recent study she led found a strong association between rheumatic immune-mediated inflammatory diseases (IMIDs) and high risk of acute coronary syndrome in Medicare patients.

“This particular population has a very clear increased risk for cardiovascular conditions, including valve disease and heart failure,” she emphasized.

Patients with rheumatoid arthritis and lupus have up to a twofold and eightfold higher risk of heart disease, respectively, noted Michael S. Garshick, MD, a cardiovascular disease specialist who directs the cardio-rheumatology program at NYU-Langone Health, in New York. Cardiologists “have really developed an understanding that the immune system can impact the heart, and that there’s a need for people to understand the nuance behind how the immune system can affect them and what to do about it,” Dr. Garshick said.

Courtesy Rob Lisak

‘Reading the tea leaves’

Each program has its own unique story. For the Cleveland Clinic, the concept of a cardio-rheumatology program began during the COVID-19 pandemic in 2020. Developing such a concept and gaining institutional acceptance is always a work in process, Dr. Wassif said. “It’s not that you decide one day that you’re going to build a center, and that center is going to come into fruition overnight. You first gauge interest within your division. Who are the individuals that are interested in this area?”

Cleveland Clinic’s center is seeking to build relations between medical disciplines while spotlighting the concept of cardio-rheumatology, said Dr. Wassif, who has been providing education within the clinic and at other health institutions to ensure that patients receive appropriate attention early.

NYU-Langone launched its program amid this heightened awareness that the immune system could affect atherosclerosis, “kind of reading of the tea leaves, so to speak,” Dr. Garshick said.

Several clinical trials served as a catalyst for this movement. “A lot of clinical cardiologists were never 100% convinced that targeting the immune system reduced cardiovascular disease,” he said. Then the CANTOS clinical trial came along and showed for the first time that a therapeutic monoclonal antibody targeting interleukin-1beta, a cytokine central to inflammatory response, could in fact reduce cardiovascular disease.

Trials like this, along with epidemiologic literature connecting the rheumatologic and the autoimmune conditions with cardiovascular disease, pushed this concept to the forefront, Dr. Garshick said.

The notion that a clinic could successfully address cardiac problems in patients with rheumatic diseases yielded promising returns at Women’s College Hospital in Toronto, according to a report presented at the 2018 American College of Rheumatology annual meeting. Researchers reported that patients with rheumatologic conditions who attended a cardio-rheumatology clinic at this center saw improvements in care. The clinic identified increased cardiovascular risk and early atherosclerosis, and 53.8% of patients altered their medications after being seen in the clinic.

A total of 39.7% and 32.1% received lipid lowering and antiplatelet therapies, respectively, and 14% received antihypertensive therapy. A small percentage were treated for heart failure or placed on lifelong anticoagulation therapy for atrial fibrillation, and one patient received a percutaneous coronary stent.
 

Ins and outs of the referral process

Initially designed for preventive cardiac risk assessment, Yale’s program evolved into a multidisciplinary, patient-centered approach for the management of complex cardiovascular conditions in patients with autoimmune rheumatologic diseases.

The program is open to anyone who carries a diagnosis of rheumatologic disease or has elevated inflammatory markers. “Every patient, regardless of the reason for the referral, receives a cardiovascular risk assessment,” Dr. Furman said.

Harold Shapiro

A personalized assessment to reduce cardiac risk

NYU-Langone’s program offers opportunities to educate patients about the link between cardiac and rheumatologic disease.

“Their rheumatologist or their dermatologist will say, ‘Hey, have you heard about the connection between psoriasis, psoriatic or rheumatoid arthritis, and heart disease and the risk of heart attack or stroke?’ ” Dr. Garshick said.

The patients will often say they know nothing about these connections and want to learn more about how to treat it.

“We’ll say, ‘we have someone here that can help you.’ They’ll send them to myself or other colleagues like me across the country. We’ll assess blood pressure, weight, lipids, hemoglobin A1c, and other serologic and oftentimes imaging biomarkers of cardiovascular risk.” The patients will receive a personalized assessment, listing things they can do to lower their risk, whether it’s diet, exercise, or lifestyle. “Many times it can involve medications to reduce heart disease risk,” said Dr. Garshick.

In some instances, a rheumatologist or dermatologist may be concerned about starting a patient on a specific medication for the disease such as a JAK inhibitor. “We’ll help assess their risk because there’s been a lot of literature out in the rheumatology world about the risk of JAK inhibitors and heart disease and blood clots,” said Dr. Garshick.

Dr. Garshick also sees patients with rheumatologic conditions who have a specific cardiovascular concern or complaint such as shortness of breath or chest pain. “We’ll work that up with a specific knowledge of the underlying immune condition and how that may impact their heart,” he said.
 

Advances in research

As they continue to see patients and devise specific care plans, developers of cardio-rheumatology programs have been supplementing their work with ongoing research.

Yale’s clinic is expanding this year to include a new attending physician, Attila Feher, MD, PhD, who has conducted research in autoimmunity and microcirculation using molecular imaging and multimodality imaging techniques. Prevalence of coronary microvascular dysfunction appears to be increased in this patient population, Dr. Furman said.

Dr. Wassif recently coauthored a paper that examined patients with underlying rheumatologic conditions who undergo valvular and aortic valve replacement. “To our surprise, there was really no difference between patients with autoimmune conditions and others with nonautoimmune conditions,” she said, adding that the study had its limitations.

Other work includes data on Medicare patients with ST- and non-ST-elevation myocardial infarctions who have an underlying autoimmune disorder. Dr. Wassif and her colleagues found that their long-term outcomes are worse than those of patients without these conditions. “It’s unclear if worse outcomes are related to complications of autoimmunity versus the extent of their underlying disease. This is a work in progress and certainly an area that is ripe for research.”

Dr. Garshick and other collaborators at NYU have been focusing on the endothelium, specifically platelet biology in patients with psoriasis, psoriatic arthritis, and lupus. “We’re about to start the same research with gout as well,” he said.

“The process we’re most interested in is understanding how these diseases impact the early stages of cholesterol. And the way we’re doing that is evaluating the vasculature, specifically the endothelium,” he said.

He has finished two clinical trials that evaluate how standard heart disease medications such as aspirin and statins impact or can potentially benefit patients with psoriasis and/or psoriatic arthritis. “We have a whole list of other trials in the pipeline with other institutions across the country.”

Through a grant, Dr. Mankad is assessing whether a PET scan could detect inflammation in the hearts of rheumatoid arthritis patients. “We’re looking to see if the reason these patients have heart failure later in life is because their heart muscle actually shows evidence of inflammation, even when they have no symptoms,” she explained.

Other tests such as echocardiogram and CT scans will be used to evaluate coronary disease in about 40-50 patients. The goal of using these multiple imaging tools is to find markers indicating that the heart is affected by rheumatoid arthritis, which may indicate a higher likelihood of developing heart failure, she said.
 

Clinics are popping up

Through these new clinics, some collaborations have emerged. Dr. Garshick works closely with Brigham and Women’s Hospital, which has a similar cardio-rheumatology program, run by Brittany Weber, MD, to exchange ideas, discuss challenging cases, and collaborate.

“There are a lot of clinics like us popping up across the country,” he observed. Every so often, he hears from other institutions that are interested in starting their own cardio-rheumatology programs. “They ask us: How do you start, what should we look for?”

It’s an education process for both patients and providers, Dr. Garshick emphasized. “I also think it’s a bandwidth issue. Many of our rheumatology and dermatology colleagues are acutely aware of the connection, but there may not be enough time at a clinic visit to really go in depth” with these dual conditions, he said.

NYU-Langone Health for the past several years has been holding a symposium to educate people on the cardio-rheumatology connection and treating inflammation in cardiovascular disease. This year’s symposium, held in conjunction with Brigham and Women’s Hospital, is scheduled for April 28. For more information, visit the course website: nyulmc.org/cvinflammationcme.

“What we’re trying to do is help [other institutions] get that bandwidth” to adequately help and serve these patients, he said.

Dr. Garshick has received consultant fees from Abbvie and Horizon therapeutics and an unrestricted research grant from Pfizer. No other sources had relevant financial disclosures.

This article discusses updates in geriatrics from studies published in 2022 to early 2023. The topics covered include vitamin D supplementation and incident fractures, the association of social isolation and dementia, and the release of lecanemab, the second disease-modifying therapy for mild Alzheimer dementia.

Vitamin D supplementation and incident fractures

Vitamin D supplementation is a commonly recommended intervention for bone health, but data to support its impact on reducing fracture risk has been variable.

A study in the New England Journal of Medicine by LeBoff and colleagues has garnered much attention since its publication in July 2022.¹ In the ancillary study of the Vitamin D and Omega-3-Trial (VITAL), the authors examined the impact of vitamin D supplementation versus placebo on incident fractures. The study found that vitamin D supplementation, as compared with placebo, led to no significant difference in the incidence of total, nonvertebral, and hip fractures in midlife and older adults over the 5-year period of follow-up.

The generalizability of these findings has been raised as a concern as the study does not describe adults at higher risk for fracture. The authors of the study specified in their conclusion that vitamin D supplementation does not reduce fracture risk in “generally healthy midlife and older adults who were not selected for vitamin D deficiency, low bone mass or osteoporosis.”

With a mean participant age of 67 and exclusion of participants with a history of cardiovascular disease, stroke, cirrhosis and other serious illnesses, the study does not reflect the multimorbid older adult population that geriatricians typically care for. Furthermore, efficacy of vitamin D supplementation on fracture risk may be the most impactful in those with osteoporosis and with severe vitamin D deficiency (defined by vitamin D 25[OH]D level less than 12 ng/mL).

In post hoc analyses, there was no significant difference in fracture risk in these subgroups, however the authors acknowledged that the findings may be limited by the small percentage of participants with severe vitamin D deficiency (2.4%) and osteoporosis included in the study (5%).
 

Lecanemab for mild cognitive impairment and early Alzheimer’s dementia

On Jan. 6, 2023, the Food and Drug Administration approved lecanemab, the second-ever disease-modifying treatment for Alzheimer’s dementia following the approval of aducanumab in 2021. Lecanemab is a monoclonal antibody targeting larger amyloid-beta oligomers, which has been shown in vitro to have higher affinity for amyloid-beta, compared with aducanumab. FDA approval followed shortly after the publication of the CLARITY-AD trial, which investigated the effect of lecanemab versus placebo on cognitive decline and burden of amyloid in adults with mild cognitive impairment and mild Alzheimer’s dementia. Over an 18-month period, the study found that participants who received lecanemab, compared with placebo, had a significantly smaller decline in cognition and function, and reduction in amyloid burden on PET CT.²

The clinical significance of these findings, however, is unclear. As noted by an editorial published in the Lancet in 2022, the difference in Clinical Dementia Rating-Sum of Boxes (CDR-SB) scale between the treatment and placebo groups was 0.45. On an 18-point scale, prior research has noted that a minimal clinically significance difference of 0.98 is necessary in those with mild cognitive impairment and 1.63 in mild Alzheimer dementia.³

Additionally, the CLARITY-AD trial reported that lecanemab resulted in infusion reactions in 26.4% of participants and brain edema (an amyloid-related imaging abnormality referred to as ARIA-E) in 12.6% of participants. This finding highlights concerns for safety and the need for close monitoring, as well as ongoing implications of economic feasibility and equitable access for all those who qualify for treatment.²

Social isolation and dementia risk

There is growing awareness of the impact of social isolation on health outcomes, particularly among older adults. Prior research has reported that one in four older adults are considered socially isolated and that social isolation increases risk of premature death, dementia, depression, and cardiovascular disease.⁴

A study by Huang and colleagues is the first nationally representative cohort study examining the association between social isolation and incident dementia for older adults in community dwelling settings. A cohort of 5,022 older adults participating in the National Health and Aging Trends Study was followed from 2011 to 2020. When adjusting for demographic and health factors, including race, level of education, and number of chronic health conditions, socially isolated adults had a greater risk of developing dementia, compared with adults who were not socially isolated (hazard ratio, 1.27; 95% confidence interval, 1.08-1.49). Potential mechanisms to explain this association include the increased risk of cardiovascular disease and depression in older adults who are socially isolated, thereby increasing dementia risk.

Decreased cognitive activity/engagement and access to resources such as caregiving and health care may also be linked to the increased risk of dementia in socially isolated older adults.⁵

Another observational cohort study from the National Health and Aging Trends Study investigated whether access and use of technology can lower the risk of social isolation. The study found that older adults who used email or text messaging had a lower risk of social isolation than older adults who did not use technology (incidence rate ratio, 0.64; 95% CI, 0.51-0.80).⁶ These findings highlight the importance of addressing social isolation as an important modifiable health risk factor, and the need for providing equitable access to technology in vulnerable populations as health intervention.

Dr. Mengru “Ruru” Wang is a geriatrician and internist at the University of Washington, Seattle. She practices full-spectrum medicine, seeing patients in primary care, nursing homes, and acute care. Dr. Wang has no disclosures related to this piece.

References

1. LeBoff MS et al. Supplemental vitamin D and incident fractures in midlife and older adults. N Engl J Med. 2022;387(4):299-30.

2. van Dyck CH et al. Lecanemab in early Alzheimer’s disease. N Engl J Med. 2023;388(1):9-21.

3. The Lancet. Lecanemab for Alzheimer’s disease: tempering hype and hope. Lancet. 2022; 400:1899.

4. National Academies of Sciences, Engineering, and Medicine. Social Isolation and Loneliness in Older Adults: Opportunities for the Health Care System. Washington, DC: 2020, The National Academies Press.

5. Huang, AR et al. Social isolation and 9-year dementia risk in community dwelling Medicare beneficiaries in the United States. J Am Geriatr Soc. 2023 Jan 11. doi: 10.1111/jgs18140.

6. Umoh ME etal. Impact of technology on social isolation: Longitudinal analysis from the National Health Aging Trends Study. J Am Geriatr Soc. 2022 Dec 15. doi 10.1111/jgs.18179.

This article discusses updates in geriatrics from studies published in 2022 to early 2023. The topics covered include vitamin D supplementation and incident fractures, the association of social isolation and dementia, and the release of lecanemab, the second disease-modifying therapy for mild Alzheimer dementia.

Vitamin D supplementation and incident fractures

Vitamin D supplementation is a commonly recommended intervention for bone health, but data to support its impact on reducing fracture risk has been variable.

A study in the New England Journal of Medicine by LeBoff and colleagues has garnered much attention since its publication in July 2022.¹ In the ancillary study of the Vitamin D and Omega-3-Trial (VITAL), the authors examined the impact of vitamin D supplementation versus placebo on incident fractures. The study found that vitamin D supplementation, as compared with placebo, led to no significant difference in the incidence of total, nonvertebral, and hip fractures in midlife and older adults over the 5-year period of follow-up.

The generalizability of these findings has been raised as a concern as the study does not describe adults at higher risk for fracture. The authors of the study specified in their conclusion that vitamin D supplementation does not reduce fracture risk in “generally healthy midlife and older adults who were not selected for vitamin D deficiency, low bone mass or osteoporosis.”

With a mean participant age of 67 and exclusion of participants with a history of cardiovascular disease, stroke, cirrhosis and other serious illnesses, the study does not reflect the multimorbid older adult population that geriatricians typically care for. Furthermore, efficacy of vitamin D supplementation on fracture risk may be the most impactful in those with osteoporosis and with severe vitamin D deficiency (defined by vitamin D 25[OH]D level less than 12 ng/mL).

In post hoc analyses, there was no significant difference in fracture risk in these subgroups, however the authors acknowledged that the findings may be limited by the small percentage of participants with severe vitamin D deficiency (2.4%) and osteoporosis included in the study (5%).
 

Lecanemab for mild cognitive impairment and early Alzheimer’s dementia

On Jan. 6, 2023, the Food and Drug Administration approved lecanemab, the second-ever disease-modifying treatment for Alzheimer’s dementia following the approval of aducanumab in 2021. Lecanemab is a monoclonal antibody targeting larger amyloid-beta oligomers, which has been shown in vitro to have higher affinity for amyloid-beta, compared with aducanumab. FDA approval followed shortly after the publication of the CLARITY-AD trial, which investigated the effect of lecanemab versus placebo on cognitive decline and burden of amyloid in adults with mild cognitive impairment and mild Alzheimer’s dementia. Over an 18-month period, the study found that participants who received lecanemab, compared with placebo, had a significantly smaller decline in cognition and function, and reduction in amyloid burden on PET CT.²

The clinical significance of these findings, however, is unclear. As noted by an editorial published in the Lancet in 2022, the difference in Clinical Dementia Rating-Sum of Boxes (CDR-SB) scale between the treatment and placebo groups was 0.45. On an 18-point scale, prior research has noted that a minimal clinically significance difference of 0.98 is necessary in those with mild cognitive impairment and 1.63 in mild Alzheimer dementia.³

Additionally, the CLARITY-AD trial reported that lecanemab resulted in infusion reactions in 26.4% of participants and brain edema (an amyloid-related imaging abnormality referred to as ARIA-E) in 12.6% of participants. This finding highlights concerns for safety and the need for close monitoring, as well as ongoing implications of economic feasibility and equitable access for all those who qualify for treatment.²

Social isolation and dementia risk

There is growing awareness of the impact of social isolation on health outcomes, particularly among older adults. Prior research has reported that one in four older adults are considered socially isolated and that social isolation increases risk of premature death, dementia, depression, and cardiovascular disease.⁴

A study by Huang and colleagues is the first nationally representative cohort study examining the association between social isolation and incident dementia for older adults in community dwelling settings. A cohort of 5,022 older adults participating in the National Health and Aging Trends Study was followed from 2011 to 2020. When adjusting for demographic and health factors, including race, level of education, and number of chronic health conditions, socially isolated adults had a greater risk of developing dementia, compared with adults who were not socially isolated (hazard ratio, 1.27; 95% confidence interval, 1.08-1.49). Potential mechanisms to explain this association include the increased risk of cardiovascular disease and depression in older adults who are socially isolated, thereby increasing dementia risk.

Decreased cognitive activity/engagement and access to resources such as caregiving and health care may also be linked to the increased risk of dementia in socially isolated older adults.⁵

Another observational cohort study from the National Health and Aging Trends Study investigated whether access and use of technology can lower the risk of social isolation. The study found that older adults who used email or text messaging had a lower risk of social isolation than older adults who did not use technology (incidence rate ratio, 0.64; 95% CI, 0.51-0.80).⁶ These findings highlight the importance of addressing social isolation as an important modifiable health risk factor, and the need for providing equitable access to technology in vulnerable populations as health intervention.

Dr. Mengru “Ruru” Wang is a geriatrician and internist at the University of Washington, Seattle. She practices full-spectrum medicine, seeing patients in primary care, nursing homes, and acute care. Dr. Wang has no disclosures related to this piece.

References

1. LeBoff MS et al. Supplemental vitamin D and incident fractures in midlife and older adults. N Engl J Med. 2022;387(4):299-30.

2. van Dyck CH et al. Lecanemab in early Alzheimer’s disease. N Engl J Med. 2023;388(1):9-21.

3. The Lancet. Lecanemab for Alzheimer’s disease: tempering hype and hope. Lancet. 2022; 400:1899.

4. National Academies of Sciences, Engineering, and Medicine. Social Isolation and Loneliness in Older Adults: Opportunities for the Health Care System. Washington, DC: 2020, The National Academies Press.

5. Huang, AR et al. Social isolation and 9-year dementia risk in community dwelling Medicare beneficiaries in the United States. J Am Geriatr Soc. 2023 Jan 11. doi: 10.1111/jgs18140.

6. Umoh ME etal. Impact of technology on social isolation: Longitudinal analysis from the National Health Aging Trends Study. J Am Geriatr Soc. 2022 Dec 15. doi 10.1111/jgs.18179.

This article discusses updates in geriatrics from studies published in 2022 to early 2023. The topics covered include vitamin D supplementation and incident fractures, the association of social isolation and dementia, and the release of lecanemab, the second disease-modifying therapy for mild Alzheimer dementia.

Vitamin D supplementation and incident fractures

Vitamin D supplementation is a commonly recommended intervention for bone health, but data to support its impact on reducing fracture risk has been variable.

A study in the New England Journal of Medicine by LeBoff and colleagues has garnered much attention since its publication in July 2022.¹ In the ancillary study of the Vitamin D and Omega-3-Trial (VITAL), the authors examined the impact of vitamin D supplementation versus placebo on incident fractures. The study found that vitamin D supplementation, as compared with placebo, led to no significant difference in the incidence of total, nonvertebral, and hip fractures in midlife and older adults over the 5-year period of follow-up.

The generalizability of these findings has been raised as a concern as the study does not describe adults at higher risk for fracture. The authors of the study specified in their conclusion that vitamin D supplementation does not reduce fracture risk in “generally healthy midlife and older adults who were not selected for vitamin D deficiency, low bone mass or osteoporosis.”

With a mean participant age of 67 and exclusion of participants with a history of cardiovascular disease, stroke, cirrhosis and other serious illnesses, the study does not reflect the multimorbid older adult population that geriatricians typically care for. Furthermore, efficacy of vitamin D supplementation on fracture risk may be the most impactful in those with osteoporosis and with severe vitamin D deficiency (defined by vitamin D 25[OH]D level less than 12 ng/mL).

In post hoc analyses, there was no significant difference in fracture risk in these subgroups, however the authors acknowledged that the findings may be limited by the small percentage of participants with severe vitamin D deficiency (2.4%) and osteoporosis included in the study (5%).
 

Lecanemab for mild cognitive impairment and early Alzheimer’s dementia

On Jan. 6, 2023, the Food and Drug Administration approved lecanemab, the second-ever disease-modifying treatment for Alzheimer’s dementia following the approval of aducanumab in 2021. Lecanemab is a monoclonal antibody targeting larger amyloid-beta oligomers, which has been shown in vitro to have higher affinity for amyloid-beta, compared with aducanumab. FDA approval followed shortly after the publication of the CLARITY-AD trial, which investigated the effect of lecanemab versus placebo on cognitive decline and burden of amyloid in adults with mild cognitive impairment and mild Alzheimer’s dementia. Over an 18-month period, the study found that participants who received lecanemab, compared with placebo, had a significantly smaller decline in cognition and function, and reduction in amyloid burden on PET CT.²

The clinical significance of these findings, however, is unclear. As noted by an editorial published in the Lancet in 2022, the difference in Clinical Dementia Rating-Sum of Boxes (CDR-SB) scale between the treatment and placebo groups was 0.45. On an 18-point scale, prior research has noted that a minimal clinically significance difference of 0.98 is necessary in those with mild cognitive impairment and 1.63 in mild Alzheimer dementia.³

Additionally, the CLARITY-AD trial reported that lecanemab resulted in infusion reactions in 26.4% of participants and brain edema (an amyloid-related imaging abnormality referred to as ARIA-E) in 12.6% of participants. This finding highlights concerns for safety and the need for close monitoring, as well as ongoing implications of economic feasibility and equitable access for all those who qualify for treatment.²

Social isolation and dementia risk

There is growing awareness of the impact of social isolation on health outcomes, particularly among older adults. Prior research has reported that one in four older adults are considered socially isolated and that social isolation increases risk of premature death, dementia, depression, and cardiovascular disease.⁴

A study by Huang and colleagues is the first nationally representative cohort study examining the association between social isolation and incident dementia for older adults in community dwelling settings. A cohort of 5,022 older adults participating in the National Health and Aging Trends Study was followed from 2011 to 2020. When adjusting for demographic and health factors, including race, level of education, and number of chronic health conditions, socially isolated adults had a greater risk of developing dementia, compared with adults who were not socially isolated (hazard ratio, 1.27; 95% confidence interval, 1.08-1.49). Potential mechanisms to explain this association include the increased risk of cardiovascular disease and depression in older adults who are socially isolated, thereby increasing dementia risk.

Decreased cognitive activity/engagement and access to resources such as caregiving and health care may also be linked to the increased risk of dementia in socially isolated older adults.⁵

Another observational cohort study from the National Health and Aging Trends Study investigated whether access and use of technology can lower the risk of social isolation. The study found that older adults who used email or text messaging had a lower risk of social isolation than older adults who did not use technology (incidence rate ratio, 0.64; 95% CI, 0.51-0.80).⁶ These findings highlight the importance of addressing social isolation as an important modifiable health risk factor, and the need for providing equitable access to technology in vulnerable populations as health intervention.

Dr. Mengru “Ruru” Wang is a geriatrician and internist at the University of Washington, Seattle. She practices full-spectrum medicine, seeing patients in primary care, nursing homes, and acute care. Dr. Wang has no disclosures related to this piece.

References

1. LeBoff MS et al. Supplemental vitamin D and incident fractures in midlife and older adults. N Engl J Med. 2022;387(4):299-30.

2. van Dyck CH et al. Lecanemab in early Alzheimer’s disease. N Engl J Med. 2023;388(1):9-21.

3. The Lancet. Lecanemab for Alzheimer’s disease: tempering hype and hope. Lancet. 2022; 400:1899.

4. National Academies of Sciences, Engineering, and Medicine. Social Isolation and Loneliness in Older Adults: Opportunities for the Health Care System. Washington, DC: 2020, The National Academies Press.

5. Huang, AR et al. Social isolation and 9-year dementia risk in community dwelling Medicare beneficiaries in the United States. J Am Geriatr Soc. 2023 Jan 11. doi: 10.1111/jgs18140.

6. Umoh ME etal. Impact of technology on social isolation: Longitudinal analysis from the National Health Aging Trends Study. J Am Geriatr Soc. 2022 Dec 15. doi 10.1111/jgs.18179.

This discussion was recorded on Jan. 9, 2023. This transcript has been edited for clarity.

Robert D. Glatter, MD: Welcome. I’m Dr. Robert D. Glatter, medical adviser for Medscape Emergency Medicine. Today, we have Dr. Paul E. Pepe, an emergency medicine physician based in Florida and a highly recognized expert in emergency medical services (EMS), critical care, sports and event medicine, and resuscitation. Also joining us is Dr. Michael S. (“Mick”) Malloy, an emergency medicine physician based in Ireland, also an expert in prehospital care, resuscitation, and sports and event medicine. Welcome, gentlemen.

Dr. Pepe: Thanks for having us here.

Dr. Glatter: We have a serious event to discuss today. We’re going to be talking about what happened to Damar Hamlin, the Buffalo Bills safety who went down suffering a cardiac arrest in front of millions of people. Although we don’t know the exact cause of the events that transpired, the goal of our discussion is to guide our audience through a systematic approach to evaluation and management of an athlete suffering blunt force chest and neck trauma, and then suffering a cardiac arrest. We do know, obviously, that Damar was successfully resuscitated, thanks to the medical staff and trainers.

Almost 50 years ago, Chuck Hughes, a Detroit Lions receiver, went down and died with just a minute to go in the game and, unfortunately, didn’t survive.

Paul, can you tell me your impressions after viewing the replay of the events that evening? What were the most likely causes of this syncopal event and the subsequent cardiac arrest?

Dr. Pepe: We don’t know anything specifically. It’s being kept private about what the events were. It’s a little bit complicated in a sense that he basically had an extended resuscitation in the hospital. My experience has been that most people that have ventricular fibrillation, from whatever cause, will most likely be waking up on the field if you get to them. I’ve had personal experience with that.

More importantly than when it starts, when someone goes down on the field, both Dr. Malloy and I take a broader view. We don’t get tunnel vision and think, “Oh, it was a traumatic event,” or “It was cardiac event,” and we just have our minds open. There are many things that could make you stop breathing on the field. It could be a neck or a severe head injury, and then any kind of other internal injury that occurs.

When I saw in the video that Damar Hamlin stood up, that made it a less likely to be a spinal injury. He seemed to be physically functioning, and then he suddenly collapsed. That went along with something that looks like a ventricular fibrillation or ventricular tachycardia type of event and made me think right away that it was commotio cordis. I’m not a Latin scholar, but commotio is like commotion. A literal translation might be an agitation of the heart. I was thinking that he probably got hit somewhere in the middle of the chest at the right moment where the heart is resetting in that repolarization phase, like an R-on-T phenomenon, and then caused this sudden ventricular dysrhythmia.

Most people associate it to that because we have a couple of dozen cases a year of people getting hockey pucks or a baseball hitting their chest, which is very common with adolescents. On the other hand, you can’t get it from a blunt injury like this, and it was too early for it to be, say, a direct cardiac contusion, unless there was a direct injury there. It just happened so quickly.

In Europe, they’ve had a large amount of experience with this same kind of problem before, even just from a direct shoulder hit, for example. Mick Malloy is the dean of the faculty of sports and exercise medicine at the Royal College of Surgeons in Ireland and has vast experience, and now he is the person overseeing the procedures for this. Mick, have you had those kinds of experiences as well?

Dr. Molloy: Yes. It’s something that has occurred over recent decades and has been more recognized. I note that in professional sports, it’s a very different thing because you’ve got such huge teams and teams trained to respond very quickly. And that’s the most important thing in this scenario – having a team that is well functioning as a high-class emergency response team ready to get out on to that field very quickly after the person collapses, getting the automated external defibrillator (AED) on, and then recognizing whether there needs to be a shock given or not. The machine will tell you all that.

In our scenario, we run courses called CARES (Care of the Athlete Resuscitation and Emergencies in Sport) to make sure that our team physicians and team physiotherapists and trainers are all speaking as one when an emergency arises.

I don’t worry so much about the professional sport. It’s more with the amateur sports and the kids sports that I get a bit more concerned because there isn’t the same level of medical care there. Having everybody trained in basic life support would be very important to reduce unnecessary deaths from these types of conditions.

As Paul mentioned, there is a very specific cardiac cause in some of these circumstances, where you get hit just at the wrong time and that hit occurs at a particular electrical point in time. It causes this ventricular fibrillation, and the only real treatment there is the defibrillator as quickly as possible.

Dr. Glatter: What you’re saying ultimately is an important part about rapid defibrillation, and at first, cardiopulmonary resuscitation (CPR). People are concerned about whether they should begin CPR. We’re talking about out-of-hospital cardiac arrest that is outside of a football stadium, for example. Some people are obsessed with taking a person’s pulse, and that’s been a point of contention. If someone is unconscious and not breathing, we should start CPR. Wouldn›t you agree? They will wake up quickly if you begin chest compressions if they’re not necessary.

Dr. Pepe: I tell people, just do it. You’re right, people will wake up and feel it if they don’t need it.

Getting back to Mick’s point of having things ready to go, for example, 8 years ago, we had a professional player on the bench who suddenly collapsed right there in front of the entire audience. We immediately did CPR, and we got the AED on. We shocked him and he was ready, willing, and able to get back on the bench again. It turns out he had underlying coronary artery disease, but we got him back right away.

I did an initial study where we placed an AED in a public place at the Chicago O’Hare Airport to see if the public would use these. Most cardiac arrests occur at home, of course, but in public places, that was a good place to try it. We had almost 10 cases the first year. What was fascinating was that we had almost no survivors over the previous decade, even though there were paramedics at the airport. When we put these out there, we had nine people go down that first year, and six people who had never operated an AED or seen one before knew to get one and use it. Every one of those people survived neurologically intact, and almost every person was waking up before traditional responders got there. That’s how effective this is, but you need to know where the AED is.

Dr. Glatter: How to turn it on, where it is, and how to operate it.

Dr. Pepe: That was the point: These rescuers saved lives in the first year, and it was tremendous. Two points I make about it are that one, you need to know where it is, and two, just go turn it on. It gives you the instructions to follow through; just be in the Nike mode, because it basically won’t hurt a person. It’s rare that there’s ever been any complication of that. The machine algorithms are so good.

Dr. Glatter: Mick, I want to turn to you about the European experience. Specifically in Denmark, we know that there’s a large public health initiative to have AEDs accessible. There have been studies showing that when the public is engaged, especially with studies looking at an app when access is available, survivability doubled in the past 10 years from having access to AEDs. What’s your experience in Ireland in terms of public access to defibrillators?

Dr. Molloy: We’ve got two different streams here. There was a big push to have more AEDs at all sports venues. That was great, but some of the sporting clubs put them inside the locked door. I said that there’s no point to that because nobody can access it. You need to have an external building and you need to leave it open. If somebody needs to use it, they need to know how to get it, open it, and get away, and not get in through a locked door to get access to a defibrillator. We have AEDs now in most stadiums and even in small rural areas, where you might have only 200 people turn up for a game.

From another public access side, if you dial in – in our scenario, it’s 112, not 911 –we have Community First Responder groups. In the rural areas, you have local people who’ve been trained in basic life support and community first response who have AEDs. They’ll have periods of the day where they come home from work as a teacher, a nurse, a policeman, or a fireman, and they turn on an app on their phone and say, “I’m available for the next 5 hours.” If there’s a cardiac arrest rung in within 5 miles of their community, they will drive directly there with the AED that they have. We’ve had numerous saves from that in the country because it could take 40 minutes to get an EMS vehicle there, and obviously, time is crucial in these scenarios. Our dispatchers will talk people through CPR, and then the community responders arrive with the AED. It has been a fantastic initiative.

Dr. Pepe: In many places, people have apps on their phones where they’re locked into the system, and it will go off and tell them there is something nearby and even GPS them into it, and it’s been fantastic.

The two points I want to make to responding to what we just heard Dean Malloy say is one, we always have a designated spot to have these in various places. If I’m at City Hall, we always have them near the red elevators on every floor and down at security. In all the public high schools, we always have one right below the clock where everybody can see it. We set it up in a very standardized form that anybody and everybody will know where it is at the time an event happens.

The other point he made about having the response teams is fantastic. I live in a large high rise and there are two complexes with many people here, and many are older, so there’s going to be a higher risk for having an event. In fact, we’ve just had one recently. The concept we developed here was a community emergency response team, where we sometimes have doctors, nurses, and paramedics who live here be on call and be responsible, or you could try to find an AED. More importantly, we made sure everybody here knew where they were and where to get them. We’ve got most of the people trained, and we’re doing more training in what actions to take during these periods of time when such events happen.

Dr. Glatter: Yes, it’s critical. I wanted to point out that we’ve looked at the use of drones, especially here in the United States. There have been some pilot studies looking at their utility in the setting of out-of-hospital cardiac arrest. I want to get both of your thoughts on this and the feasibility of this.

Dr. Molloy: In a rural area, it’s a fantastic idea. You’re going to get something there as the crow flies very quickly. You probably have to look at exactly in, say, a rural area like Ireland of 32,000 square kilometers, how many you›ll have to put, what kind of distances they can realistically cover, and make sure the batteries are charged. Certainly, that’s a very good initiative because with the AEDs, you can’t do anything wrong. You can’t give a shock unless a shock needs to be given. The machine directs you what to do, so somebody who has had no training can pick one of these out of the box and start to work with it quickly and confidently that they can’t do anything wrong.

It’s a great idea. It would be a little expensive potentially at the moment in getting the drones and having that volume of drones around. In the U.S., you have completely different air traffic than we have, and in cities, you have more helicopters flying around. We certainly wouldn’t have that in our cities because that could cause a challenge if you’ve got drones flying around as well. It’s about making it safe that nothing else can go wrong from a drone in somebody else’s flight path.

Dr. Pepe: In my experience, the earlier the intervention, the better the results. There is a limit here in terms of the drones if they just can’t get there soon enough. Having said that, we are so fortunate in the city of Seattle to have most citizens knowing CPR, and we’d get that person resuscitated because they were doing such a good job with the CPR up front.

That’s why you’re going to see the Buffalo Bills player survive neurologically intact – because he did get immediate treatment right then and there. In the future, we may even have some better devices that will actually even restore normal blood flow right then and there while you’re still in cardiac arrest. There are limitations in every case. But on the other hand, it’s exciting and it paid off in this case recently.

Dr. Molloy: Just a point of interest coming from this small little country over here. The first portable defibrillator was developed in Belfast, Ireland, in the back of a cardiac response car. Despite us being a tiny little country, we do have some advances ahead of the United States.
 

Dr. Pepe: That was a breakthrough. Dr. Frank Pantridge and John Geddes did this great work and that caught the imagination of everybody here. At first, they were just going out to give people oxygen and sedate them for their chest pain. It turned out that their defibrillators are what made the difference as they went out there. Absolutely, I have to acknowledge the folks in Ireland for giving us this. Many of the EMS systems got started because of the article they published in The Lancet back in 1967.

Dr. Glatter: I wanted to briefly talk about screening of the athletes at the high school/college level, but also at the professional level. Obviously, there are issues, including the risk for false-positives in terms of low incidence, but there are also false negatives, as the case with Christian Eriksen, who had a cardiac arrest in 2021 and who has been through extensive testing. We can debate the validity of such testing, but I wanted to get both of your takes on the utility of screening in such a population.

Dr. Molloy: That’s a very emotive subject. False-positives are difficult because you’re now saying to somebody that they can’t compete in your sport at a decent level. The difficult part is telling somebody that this is the end of their career.

The false-negative is a little bit more difficult. I don’t know Christian Eriksen and I’m not involved in his team in any way, but that is a one-point examination, and you’re dependent on the scale of the process interpreting the ECG, which is again only a couple of seconds and that particular arrhythmia may not have shown up on that.

Also, athletes, by nature of what they’re doing, are operating at 99% of efficiency on a frequent basis. They are at the peak of their physiologic fitness, and it does make them a little bit more prone to picking up viral illnesses from time to time. They may get a small viral myopericarditis, which causes a new arrhythmia that nobody knew about. They had the screening 2 or 3 years ago, and they now developed a new problem because of what they do, which just may not show up.

I was actually surprised that the gentleman came through it very well, which is fantastic. He wasn’t allowed to play football in the country where he was employed, and he has now moved to another country and is playing football with a defibrillator inserted. I don’t know what the rules are in American football where you can play with implantable defibrillators. I’m not so sure it’s a great idea to do that.

Dr. Pepe: One thing that we should bring up is that there are athletes with underlying cardiomyopathies or hypertrophies and things like that, but that was unlikely in this case. It’s possible, but it’s unlikely, because it would have manifested itself before. In terms of screening, I’ve met some very smart medical doctors who have run those tests, and they have been very encouraged even at the high school levels to have screenings done, whether it’s electrocardiography, echocardiography, and so on. I have to reiterate what Dr Malloy just said in that it may have its downsides as well. If you can pick up real obvious cases, I think that may be of value.

Dr. Glatter: I want to conclude and get some pearls and takeaways from each of you regarding the events that transpired and what our audience can really hold onto.

Dr. Molloy: Look at Formula One in the past 50 years. In Formula One, in the beginning it was a 2-minute job to change a tire. Now, they have this down where they’re measuring in fractions of a second and criticizing each other if one guy is 2.6 seconds and the other guy is 2.9 seconds. For me, that’s phenomenal. It takes me 25 minutes to change a tire.

We’ve looked at that from a resuscitation perspective, and we now do pit crew resuscitation before our events. We’ve planned our team and know who’s going to be occupying what role. After the events at the UEFA championships, we had a new rule brought in by UEFA where they handed me a new document saying, “This is what we would like you to do for resuscitation.” It was a three-man triangle, and I said, “No, we’re not going to do that here.” And they said, “Why, you have to; it’s our rule.”

I said, “No, our rule in Ireland is we have a six-person triangle. We’re not downing our standards because of what you have internationally. You’re covering games in some very low-resource environments, I know that. We have a particular standard here that we’re sticking to. We have a six-person group. We know what we’re all doing; we come very quickly to those downed players and get involved and we’ve had good outcomes, so we’re not going to change the standards.”

That’s the thing: You need to practice these things. The players don’t go out on the weekend and do a move for the very first time without practicing it hundreds of times. We need to look at it the same way as the medical team who are looking after that group of players and the crowd because we also look after the crowd.

A particular challenge in some of our stadiums is that the upper decks are so steep, and it’s very hard to get a patient onto a trolley and do CPR as you’re bringing them down to a zone to get them flat. We’ve had to come up with some innovative techniques to try and do that and accommodate that using some of the mechanical CPR devices. That’s the result you’ll only get from having practiced these events and trying to extricate patients. We want to check response times, so you have to practice your response team activity very frequently.

Dr. Pepe: There are two points made by Mick that I want to react to. One, the pit crew approach is critical in so many ways. We do the same thing in what we call the medical first attack, where we knew who the A, B, and C person would be. When we took it out to the NBA trainers, I recommended for them to have a similar approach so that if an event does happen right in the middle of prime time, they are coordinated.

The second point is that we do mass-gathering medicine. It’s not just the sportspeople on the field or the entertainers that we’re looking after; it is the people in the stands. We will see a cardiac arrest once a month. If you think about it, you might see a cardiac arrest occur in any community on a regular basis. Now you’ve got 100,000 people in one stadium, and something is bound to go wrong over those 3 or 4 hours where they are there and may have a critical emergency. Preparation for all of that is really important as well.

The final point is that on a day-to-day basis, most cardiac arrests do occur in the home. Granted, 80% of them are nonshockable cases, but the people who are more apt to survive are going to be the ones who have an electrical event. In fact, when we looked at our data years ago, we found that, of the cases of people with ventricular fibrillation that we resuscitated, half didn’t even have heart damage. Their enzymes were normal. It was a pure electrical event, and they were more resuscitable. They may have an underlying problem, but we can fix that once we get them back.

Everybody needs to know how to do bystander CPR, and second, we must make sure we have AEDs strategically placed, as I alluded to before. We also go out to other parts of the community and give them advice. All those things must be put in place, but more importantly, just get the training and make the training simple. It’s really a “just do it” philosophy, but make it simple.

For example, when I teach a course, I can do it in 15 minutes, and people retain it because I keep reiterating things like, “Okay, there’s one thing you need to know about choking: Pop the cork.” You give them a physiologic image of what’s happening. Everybody says, “I remember you saying to just do it, pop the cork.”

With AEDs, know where it is – that’s why we should have it in standardized places. Go get it, turn it on, and then follow the instructions. Also, the most important thing is making sure you’re doing quality compressions; and there are videos that can help you with that, as well as classes that you can take that will get you through it.

Dr. Glatter: Absolutely. The public still has the misconception that you need to do mouth-to-mouth resuscitation. The message has not permeated through society that you don’t need to do mouth-to-mouth. Hands-only CPR is the gold standard now.

Dr. Pepe: If people have a reversible cause like ventricular fibrillation, often they’re already gasping, which is better than a delivered breath, by the way. Most important, then, are the compressions to make sure you have oxygen going up to the brain, because you’re still theoretically loaded with oxygen in your bloodstream if you had a sudden cardiac arrest from a ventricular fibrillation.

Your points are well taken, and we found that we had better outcomes when we just gave instructions to do compressions only, and that became the standard. Mick, you’ve had some experiences with that as well.

Dr. Molloy: If we’re going to have a long-term benefit from all this, we have to start doing this in elementary school and teaching kids basic life support and some basic health messaging.

I remember trying to get this across to a teacher one day and the teacher saying, “But why would we teach young kids to resuscitate each other?” I said, “I think you forget that the only 60-year-old person in the room is you. You train them, and we train them. They’re the ones who are going to respond and keep you alive. That’s the way you should be looking at this.” That completely changed the mindset of whether we should be doing this for the kids or not.

Dr. Pepe: In fact, what we find is that that’s exactly who gets saved. I had case after case where the kids at the school had learned CPR and saved the teachers or the administrator at the high school or elementary school. It’s a fantastic point that you bring up, Dr. Malloy.

Dr. Glatter: One other brief thing we can interject here is that the team was excellent on field in that they evaluated Damar Hamlin in a primary survey sense of ABCs (i.e., airway, breathing, and circulation) for things like a tension pneumothorax. In the sense in which he was hit, there are reversible causes. Making sure he didn’t have a tension pneumothorax that caused the arrest, in my mind, was critical.

Dr. Pepe: We do the same thing on a day-to-day basis with a car wreck, because it could be that the person had ventricular fibrillation and then had the wreck. It’s not always trauma. That’s a fantastic point that you’re making. That’s exactly what I think happened, and that’s what we do.

Dr. Glatter: Well, thank you, gentlemen. This was an informative and helpful discussion for our audience. I appreciate your time and expertise.



Dr. Glatter, is an attending physician at Lenox Hill Hospital in New York City and assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York. He is an editorial adviser and hosts the Hot Topics in EM series on Medscape. He is also a medical contributor for Forbes.

Dr. Pepe is a professor of internal medicine, surgery, pediatrics, public health, and emergency medicine at University of Texas Health Science Center in Houston. He’s also a global coordinator of the U.S. Metropolitan Municipalities EMS Medical Directors (“Eagles”) Coalition.

Dr. Molloy works clinically as a consultant in emergency medicine in Wexford General Hospital, part of the Ireland East Hospital Group (IEHG). Internationally, he is a member of the Disaster Medicine Section of the European Society of Emergency Medicine (EUSEM) and has been appointed by the Irish Medical Organization (IMO) as one of two Irish delegates to serve on the European Board and Section of Emergency Medicine of the European Union of Medical Specialists (UEMS), having served for a number of years on its predecessor, the Multidisciplinary Joint Committee on Emergency Medicine.

A version of this article first appeared on Medscape.com.

This discussion was recorded on Jan. 9, 2023. This transcript has been edited for clarity.

Robert D. Glatter, MD: Welcome. I’m Dr. Robert D. Glatter, medical adviser for Medscape Emergency Medicine. Today, we have Dr. Paul E. Pepe, an emergency medicine physician based in Florida and a highly recognized expert in emergency medical services (EMS), critical care, sports and event medicine, and resuscitation. Also joining us is Dr. Michael S. (“Mick”) Malloy, an emergency medicine physician based in Ireland, also an expert in prehospital care, resuscitation, and sports and event medicine. Welcome, gentlemen.

Dr. Pepe: Thanks for having us here.

Dr. Glatter: We have a serious event to discuss today. We’re going to be talking about what happened to Damar Hamlin, the Buffalo Bills safety who went down suffering a cardiac arrest in front of millions of people. Although we don’t know the exact cause of the events that transpired, the goal of our discussion is to guide our audience through a systematic approach to evaluation and management of an athlete suffering blunt force chest and neck trauma, and then suffering a cardiac arrest. We do know, obviously, that Damar was successfully resuscitated, thanks to the medical staff and trainers.

Almost 50 years ago, Chuck Hughes, a Detroit Lions receiver, went down and died with just a minute to go in the game and, unfortunately, didn’t survive.

Paul, can you tell me your impressions after viewing the replay of the events that evening? What were the most likely causes of this syncopal event and the subsequent cardiac arrest?

Dr. Pepe: We don’t know anything specifically. It’s being kept private about what the events were. It’s a little bit complicated in a sense that he basically had an extended resuscitation in the hospital. My experience has been that most people that have ventricular fibrillation, from whatever cause, will most likely be waking up on the field if you get to them. I’ve had personal experience with that.

More importantly than when it starts, when someone goes down on the field, both Dr. Malloy and I take a broader view. We don’t get tunnel vision and think, “Oh, it was a traumatic event,” or “It was cardiac event,” and we just have our minds open. There are many things that could make you stop breathing on the field. It could be a neck or a severe head injury, and then any kind of other internal injury that occurs.

When I saw in the video that Damar Hamlin stood up, that made it a less likely to be a spinal injury. He seemed to be physically functioning, and then he suddenly collapsed. That went along with something that looks like a ventricular fibrillation or ventricular tachycardia type of event and made me think right away that it was commotio cordis. I’m not a Latin scholar, but commotio is like commotion. A literal translation might be an agitation of the heart. I was thinking that he probably got hit somewhere in the middle of the chest at the right moment where the heart is resetting in that repolarization phase, like an R-on-T phenomenon, and then caused this sudden ventricular dysrhythmia.

Most people associate it to that because we have a couple of dozen cases a year of people getting hockey pucks or a baseball hitting their chest, which is very common with adolescents. On the other hand, you can’t get it from a blunt injury like this, and it was too early for it to be, say, a direct cardiac contusion, unless there was a direct injury there. It just happened so quickly.

In Europe, they’ve had a large amount of experience with this same kind of problem before, even just from a direct shoulder hit, for example. Mick Malloy is the dean of the faculty of sports and exercise medicine at the Royal College of Surgeons in Ireland and has vast experience, and now he is the person overseeing the procedures for this. Mick, have you had those kinds of experiences as well?

Dr. Molloy: Yes. It’s something that has occurred over recent decades and has been more recognized. I note that in professional sports, it’s a very different thing because you’ve got such huge teams and teams trained to respond very quickly. And that’s the most important thing in this scenario – having a team that is well functioning as a high-class emergency response team ready to get out on to that field very quickly after the person collapses, getting the automated external defibrillator (AED) on, and then recognizing whether there needs to be a shock given or not. The machine will tell you all that.

In our scenario, we run courses called CARES (Care of the Athlete Resuscitation and Emergencies in Sport) to make sure that our team physicians and team physiotherapists and trainers are all speaking as one when an emergency arises.

I don’t worry so much about the professional sport. It’s more with the amateur sports and the kids sports that I get a bit more concerned because there isn’t the same level of medical care there. Having everybody trained in basic life support would be very important to reduce unnecessary deaths from these types of conditions.

As Paul mentioned, there is a very specific cardiac cause in some of these circumstances, where you get hit just at the wrong time and that hit occurs at a particular electrical point in time. It causes this ventricular fibrillation, and the only real treatment there is the defibrillator as quickly as possible.

Dr. Glatter: What you’re saying ultimately is an important part about rapid defibrillation, and at first, cardiopulmonary resuscitation (CPR). People are concerned about whether they should begin CPR. We’re talking about out-of-hospital cardiac arrest that is outside of a football stadium, for example. Some people are obsessed with taking a person’s pulse, and that’s been a point of contention. If someone is unconscious and not breathing, we should start CPR. Wouldn›t you agree? They will wake up quickly if you begin chest compressions if they’re not necessary.

Dr. Pepe: I tell people, just do it. You’re right, people will wake up and feel it if they don’t need it.

Getting back to Mick’s point of having things ready to go, for example, 8 years ago, we had a professional player on the bench who suddenly collapsed right there in front of the entire audience. We immediately did CPR, and we got the AED on. We shocked him and he was ready, willing, and able to get back on the bench again. It turns out he had underlying coronary artery disease, but we got him back right away.

I did an initial study where we placed an AED in a public place at the Chicago O’Hare Airport to see if the public would use these. Most cardiac arrests occur at home, of course, but in public places, that was a good place to try it. We had almost 10 cases the first year. What was fascinating was that we had almost no survivors over the previous decade, even though there were paramedics at the airport. When we put these out there, we had nine people go down that first year, and six people who had never operated an AED or seen one before knew to get one and use it. Every one of those people survived neurologically intact, and almost every person was waking up before traditional responders got there. That’s how effective this is, but you need to know where the AED is.

Dr. Glatter: How to turn it on, where it is, and how to operate it.

Dr. Pepe: That was the point: These rescuers saved lives in the first year, and it was tremendous. Two points I make about it are that one, you need to know where it is, and two, just go turn it on. It gives you the instructions to follow through; just be in the Nike mode, because it basically won’t hurt a person. It’s rare that there’s ever been any complication of that. The machine algorithms are so good.

Dr. Glatter: Mick, I want to turn to you about the European experience. Specifically in Denmark, we know that there’s a large public health initiative to have AEDs accessible. There have been studies showing that when the public is engaged, especially with studies looking at an app when access is available, survivability doubled in the past 10 years from having access to AEDs. What’s your experience in Ireland in terms of public access to defibrillators?

Dr. Molloy: We’ve got two different streams here. There was a big push to have more AEDs at all sports venues. That was great, but some of the sporting clubs put them inside the locked door. I said that there’s no point to that because nobody can access it. You need to have an external building and you need to leave it open. If somebody needs to use it, they need to know how to get it, open it, and get away, and not get in through a locked door to get access to a defibrillator. We have AEDs now in most stadiums and even in small rural areas, where you might have only 200 people turn up for a game.

From another public access side, if you dial in – in our scenario, it’s 112, not 911 –we have Community First Responder groups. In the rural areas, you have local people who’ve been trained in basic life support and community first response who have AEDs. They’ll have periods of the day where they come home from work as a teacher, a nurse, a policeman, or a fireman, and they turn on an app on their phone and say, “I’m available for the next 5 hours.” If there’s a cardiac arrest rung in within 5 miles of their community, they will drive directly there with the AED that they have. We’ve had numerous saves from that in the country because it could take 40 minutes to get an EMS vehicle there, and obviously, time is crucial in these scenarios. Our dispatchers will talk people through CPR, and then the community responders arrive with the AED. It has been a fantastic initiative.

Dr. Pepe: In many places, people have apps on their phones where they’re locked into the system, and it will go off and tell them there is something nearby and even GPS them into it, and it’s been fantastic.

The two points I want to make to responding to what we just heard Dean Malloy say is one, we always have a designated spot to have these in various places. If I’m at City Hall, we always have them near the red elevators on every floor and down at security. In all the public high schools, we always have one right below the clock where everybody can see it. We set it up in a very standardized form that anybody and everybody will know where it is at the time an event happens.

The other point he made about having the response teams is fantastic. I live in a large high rise and there are two complexes with many people here, and many are older, so there’s going to be a higher risk for having an event. In fact, we’ve just had one recently. The concept we developed here was a community emergency response team, where we sometimes have doctors, nurses, and paramedics who live here be on call and be responsible, or you could try to find an AED. More importantly, we made sure everybody here knew where they were and where to get them. We’ve got most of the people trained, and we’re doing more training in what actions to take during these periods of time when such events happen.

Dr. Glatter: Yes, it’s critical. I wanted to point out that we’ve looked at the use of drones, especially here in the United States. There have been some pilot studies looking at their utility in the setting of out-of-hospital cardiac arrest. I want to get both of your thoughts on this and the feasibility of this.

Dr. Molloy: In a rural area, it’s a fantastic idea. You’re going to get something there as the crow flies very quickly. You probably have to look at exactly in, say, a rural area like Ireland of 32,000 square kilometers, how many you›ll have to put, what kind of distances they can realistically cover, and make sure the batteries are charged. Certainly, that’s a very good initiative because with the AEDs, you can’t do anything wrong. You can’t give a shock unless a shock needs to be given. The machine directs you what to do, so somebody who has had no training can pick one of these out of the box and start to work with it quickly and confidently that they can’t do anything wrong.

It’s a great idea. It would be a little expensive potentially at the moment in getting the drones and having that volume of drones around. In the U.S., you have completely different air traffic than we have, and in cities, you have more helicopters flying around. We certainly wouldn’t have that in our cities because that could cause a challenge if you’ve got drones flying around as well. It’s about making it safe that nothing else can go wrong from a drone in somebody else’s flight path.

Dr. Pepe: In my experience, the earlier the intervention, the better the results. There is a limit here in terms of the drones if they just can’t get there soon enough. Having said that, we are so fortunate in the city of Seattle to have most citizens knowing CPR, and we’d get that person resuscitated because they were doing such a good job with the CPR up front.

That’s why you’re going to see the Buffalo Bills player survive neurologically intact – because he did get immediate treatment right then and there. In the future, we may even have some better devices that will actually even restore normal blood flow right then and there while you’re still in cardiac arrest. There are limitations in every case. But on the other hand, it’s exciting and it paid off in this case recently.

Dr. Molloy: Just a point of interest coming from this small little country over here. The first portable defibrillator was developed in Belfast, Ireland, in the back of a cardiac response car. Despite us being a tiny little country, we do have some advances ahead of the United States.
 

Dr. Pepe: That was a breakthrough. Dr. Frank Pantridge and John Geddes did this great work and that caught the imagination of everybody here. At first, they were just going out to give people oxygen and sedate them for their chest pain. It turned out that their defibrillators are what made the difference as they went out there. Absolutely, I have to acknowledge the folks in Ireland for giving us this. Many of the EMS systems got started because of the article they published in The Lancet back in 1967.

Dr. Glatter: I wanted to briefly talk about screening of the athletes at the high school/college level, but also at the professional level. Obviously, there are issues, including the risk for false-positives in terms of low incidence, but there are also false negatives, as the case with Christian Eriksen, who had a cardiac arrest in 2021 and who has been through extensive testing. We can debate the validity of such testing, but I wanted to get both of your takes on the utility of screening in such a population.

Dr. Molloy: That’s a very emotive subject. False-positives are difficult because you’re now saying to somebody that they can’t compete in your sport at a decent level. The difficult part is telling somebody that this is the end of their career.

The false-negative is a little bit more difficult. I don’t know Christian Eriksen and I’m not involved in his team in any way, but that is a one-point examination, and you’re dependent on the scale of the process interpreting the ECG, which is again only a couple of seconds and that particular arrhythmia may not have shown up on that.

Also, athletes, by nature of what they’re doing, are operating at 99% of efficiency on a frequent basis. They are at the peak of their physiologic fitness, and it does make them a little bit more prone to picking up viral illnesses from time to time. They may get a small viral myopericarditis, which causes a new arrhythmia that nobody knew about. They had the screening 2 or 3 years ago, and they now developed a new problem because of what they do, which just may not show up.

I was actually surprised that the gentleman came through it very well, which is fantastic. He wasn’t allowed to play football in the country where he was employed, and he has now moved to another country and is playing football with a defibrillator inserted. I don’t know what the rules are in American football where you can play with implantable defibrillators. I’m not so sure it’s a great idea to do that.

Dr. Pepe: One thing that we should bring up is that there are athletes with underlying cardiomyopathies or hypertrophies and things like that, but that was unlikely in this case. It’s possible, but it’s unlikely, because it would have manifested itself before. In terms of screening, I’ve met some very smart medical doctors who have run those tests, and they have been very encouraged even at the high school levels to have screenings done, whether it’s electrocardiography, echocardiography, and so on. I have to reiterate what Dr Malloy just said in that it may have its downsides as well. If you can pick up real obvious cases, I think that may be of value.

Dr. Glatter: I want to conclude and get some pearls and takeaways from each of you regarding the events that transpired and what our audience can really hold onto.

Dr. Molloy: Look at Formula One in the past 50 years. In Formula One, in the beginning it was a 2-minute job to change a tire. Now, they have this down where they’re measuring in fractions of a second and criticizing each other if one guy is 2.6 seconds and the other guy is 2.9 seconds. For me, that’s phenomenal. It takes me 25 minutes to change a tire.

We’ve looked at that from a resuscitation perspective, and we now do pit crew resuscitation before our events. We’ve planned our team and know who’s going to be occupying what role. After the events at the UEFA championships, we had a new rule brought in by UEFA where they handed me a new document saying, “This is what we would like you to do for resuscitation.” It was a three-man triangle, and I said, “No, we’re not going to do that here.” And they said, “Why, you have to; it’s our rule.”

I said, “No, our rule in Ireland is we have a six-person triangle. We’re not downing our standards because of what you have internationally. You’re covering games in some very low-resource environments, I know that. We have a particular standard here that we’re sticking to. We have a six-person group. We know what we’re all doing; we come very quickly to those downed players and get involved and we’ve had good outcomes, so we’re not going to change the standards.”

That’s the thing: You need to practice these things. The players don’t go out on the weekend and do a move for the very first time without practicing it hundreds of times. We need to look at it the same way as the medical team who are looking after that group of players and the crowd because we also look after the crowd.

A particular challenge in some of our stadiums is that the upper decks are so steep, and it’s very hard to get a patient onto a trolley and do CPR as you’re bringing them down to a zone to get them flat. We’ve had to come up with some innovative techniques to try and do that and accommodate that using some of the mechanical CPR devices. That’s the result you’ll only get from having practiced these events and trying to extricate patients. We want to check response times, so you have to practice your response team activity very frequently.

Dr. Pepe: There are two points made by Mick that I want to react to. One, the pit crew approach is critical in so many ways. We do the same thing in what we call the medical first attack, where we knew who the A, B, and C person would be. When we took it out to the NBA trainers, I recommended for them to have a similar approach so that if an event does happen right in the middle of prime time, they are coordinated.

The second point is that we do mass-gathering medicine. It’s not just the sportspeople on the field or the entertainers that we’re looking after; it is the people in the stands. We will see a cardiac arrest once a month. If you think about it, you might see a cardiac arrest occur in any community on a regular basis. Now you’ve got 100,000 people in one stadium, and something is bound to go wrong over those 3 or 4 hours where they are there and may have a critical emergency. Preparation for all of that is really important as well.

The final point is that on a day-to-day basis, most cardiac arrests do occur in the home. Granted, 80% of them are nonshockable cases, but the people who are more apt to survive are going to be the ones who have an electrical event. In fact, when we looked at our data years ago, we found that, of the cases of people with ventricular fibrillation that we resuscitated, half didn’t even have heart damage. Their enzymes were normal. It was a pure electrical event, and they were more resuscitable. They may have an underlying problem, but we can fix that once we get them back.

Everybody needs to know how to do bystander CPR, and second, we must make sure we have AEDs strategically placed, as I alluded to before. We also go out to other parts of the community and give them advice. All those things must be put in place, but more importantly, just get the training and make the training simple. It’s really a “just do it” philosophy, but make it simple.

For example, when I teach a course, I can do it in 15 minutes, and people retain it because I keep reiterating things like, “Okay, there’s one thing you need to know about choking: Pop the cork.” You give them a physiologic image of what’s happening. Everybody says, “I remember you saying to just do it, pop the cork.”

With AEDs, know where it is – that’s why we should have it in standardized places. Go get it, turn it on, and then follow the instructions. Also, the most important thing is making sure you’re doing quality compressions; and there are videos that can help you with that, as well as classes that you can take that will get you through it.

Dr. Glatter: Absolutely. The public still has the misconception that you need to do mouth-to-mouth resuscitation. The message has not permeated through society that you don’t need to do mouth-to-mouth. Hands-only CPR is the gold standard now.

Dr. Pepe: If people have a reversible cause like ventricular fibrillation, often they’re already gasping, which is better than a delivered breath, by the way. Most important, then, are the compressions to make sure you have oxygen going up to the brain, because you’re still theoretically loaded with oxygen in your bloodstream if you had a sudden cardiac arrest from a ventricular fibrillation.

Your points are well taken, and we found that we had better outcomes when we just gave instructions to do compressions only, and that became the standard. Mick, you’ve had some experiences with that as well.

Dr. Molloy: If we’re going to have a long-term benefit from all this, we have to start doing this in elementary school and teaching kids basic life support and some basic health messaging.

I remember trying to get this across to a teacher one day and the teacher saying, “But why would we teach young kids to resuscitate each other?” I said, “I think you forget that the only 60-year-old person in the room is you. You train them, and we train them. They’re the ones who are going to respond and keep you alive. That’s the way you should be looking at this.” That completely changed the mindset of whether we should be doing this for the kids or not.

Dr. Pepe: In fact, what we find is that that’s exactly who gets saved. I had case after case where the kids at the school had learned CPR and saved the teachers or the administrator at the high school or elementary school. It’s a fantastic point that you bring up, Dr. Malloy.

Dr. Glatter: One other brief thing we can interject here is that the team was excellent on field in that they evaluated Damar Hamlin in a primary survey sense of ABCs (i.e., airway, breathing, and circulation) for things like a tension pneumothorax. In the sense in which he was hit, there are reversible causes. Making sure he didn’t have a tension pneumothorax that caused the arrest, in my mind, was critical.

Dr. Pepe: We do the same thing on a day-to-day basis with a car wreck, because it could be that the person had ventricular fibrillation and then had the wreck. It’s not always trauma. That’s a fantastic point that you’re making. That’s exactly what I think happened, and that’s what we do.

Dr. Glatter: Well, thank you, gentlemen. This was an informative and helpful discussion for our audience. I appreciate your time and expertise.



Dr. Glatter, is an attending physician at Lenox Hill Hospital in New York City and assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York. He is an editorial adviser and hosts the Hot Topics in EM series on Medscape. He is also a medical contributor for Forbes.

Dr. Pepe is a professor of internal medicine, surgery, pediatrics, public health, and emergency medicine at University of Texas Health Science Center in Houston. He’s also a global coordinator of the U.S. Metropolitan Municipalities EMS Medical Directors (“Eagles”) Coalition.

Dr. Molloy works clinically as a consultant in emergency medicine in Wexford General Hospital, part of the Ireland East Hospital Group (IEHG). Internationally, he is a member of the Disaster Medicine Section of the European Society of Emergency Medicine (EUSEM) and has been appointed by the Irish Medical Organization (IMO) as one of two Irish delegates to serve on the European Board and Section of Emergency Medicine of the European Union of Medical Specialists (UEMS), having served for a number of years on its predecessor, the Multidisciplinary Joint Committee on Emergency Medicine.

A version of this article first appeared on Medscape.com.

This discussion was recorded on Jan. 9, 2023. This transcript has been edited for clarity.

Robert D. Glatter, MD: Welcome. I’m Dr. Robert D. Glatter, medical adviser for Medscape Emergency Medicine. Today, we have Dr. Paul E. Pepe, an emergency medicine physician based in Florida and a highly recognized expert in emergency medical services (EMS), critical care, sports and event medicine, and resuscitation. Also joining us is Dr. Michael S. (“Mick”) Malloy, an emergency medicine physician based in Ireland, also an expert in prehospital care, resuscitation, and sports and event medicine. Welcome, gentlemen.

Dr. Pepe: Thanks for having us here.

Dr. Glatter: We have a serious event to discuss today. We’re going to be talking about what happened to Damar Hamlin, the Buffalo Bills safety who went down suffering a cardiac arrest in front of millions of people. Although we don’t know the exact cause of the events that transpired, the goal of our discussion is to guide our audience through a systematic approach to evaluation and management of an athlete suffering blunt force chest and neck trauma, and then suffering a cardiac arrest. We do know, obviously, that Damar was successfully resuscitated, thanks to the medical staff and trainers.

Almost 50 years ago, Chuck Hughes, a Detroit Lions receiver, went down and died with just a minute to go in the game and, unfortunately, didn’t survive.

Paul, can you tell me your impressions after viewing the replay of the events that evening? What were the most likely causes of this syncopal event and the subsequent cardiac arrest?

Dr. Pepe: We don’t know anything specifically. It’s being kept private about what the events were. It’s a little bit complicated in a sense that he basically had an extended resuscitation in the hospital. My experience has been that most people that have ventricular fibrillation, from whatever cause, will most likely be waking up on the field if you get to them. I’ve had personal experience with that.

More importantly than when it starts, when someone goes down on the field, both Dr. Malloy and I take a broader view. We don’t get tunnel vision and think, “Oh, it was a traumatic event,” or “It was cardiac event,” and we just have our minds open. There are many things that could make you stop breathing on the field. It could be a neck or a severe head injury, and then any kind of other internal injury that occurs.

When I saw in the video that Damar Hamlin stood up, that made it a less likely to be a spinal injury. He seemed to be physically functioning, and then he suddenly collapsed. That went along with something that looks like a ventricular fibrillation or ventricular tachycardia type of event and made me think right away that it was commotio cordis. I’m not a Latin scholar, but commotio is like commotion. A literal translation might be an agitation of the heart. I was thinking that he probably got hit somewhere in the middle of the chest at the right moment where the heart is resetting in that repolarization phase, like an R-on-T phenomenon, and then caused this sudden ventricular dysrhythmia.

Most people associate it to that because we have a couple of dozen cases a year of people getting hockey pucks or a baseball hitting their chest, which is very common with adolescents. On the other hand, you can’t get it from a blunt injury like this, and it was too early for it to be, say, a direct cardiac contusion, unless there was a direct injury there. It just happened so quickly.

In Europe, they’ve had a large amount of experience with this same kind of problem before, even just from a direct shoulder hit, for example. Mick Malloy is the dean of the faculty of sports and exercise medicine at the Royal College of Surgeons in Ireland and has vast experience, and now he is the person overseeing the procedures for this. Mick, have you had those kinds of experiences as well?

Dr. Molloy: Yes. It’s something that has occurred over recent decades and has been more recognized. I note that in professional sports, it’s a very different thing because you’ve got such huge teams and teams trained to respond very quickly. And that’s the most important thing in this scenario – having a team that is well functioning as a high-class emergency response team ready to get out on to that field very quickly after the person collapses, getting the automated external defibrillator (AED) on, and then recognizing whether there needs to be a shock given or not. The machine will tell you all that.

In our scenario, we run courses called CARES (Care of the Athlete Resuscitation and Emergencies in Sport) to make sure that our team physicians and team physiotherapists and trainers are all speaking as one when an emergency arises.

I don’t worry so much about the professional sport. It’s more with the amateur sports and the kids sports that I get a bit more concerned because there isn’t the same level of medical care there. Having everybody trained in basic life support would be very important to reduce unnecessary deaths from these types of conditions.

As Paul mentioned, there is a very specific cardiac cause in some of these circumstances, where you get hit just at the wrong time and that hit occurs at a particular electrical point in time. It causes this ventricular fibrillation, and the only real treatment there is the defibrillator as quickly as possible.

Dr. Glatter: What you’re saying ultimately is an important part about rapid defibrillation, and at first, cardiopulmonary resuscitation (CPR). People are concerned about whether they should begin CPR. We’re talking about out-of-hospital cardiac arrest that is outside of a football stadium, for example. Some people are obsessed with taking a person’s pulse, and that’s been a point of contention. If someone is unconscious and not breathing, we should start CPR. Wouldn›t you agree? They will wake up quickly if you begin chest compressions if they’re not necessary.

Dr. Pepe: I tell people, just do it. You’re right, people will wake up and feel it if they don’t need it.

Getting back to Mick’s point of having things ready to go, for example, 8 years ago, we had a professional player on the bench who suddenly collapsed right there in front of the entire audience. We immediately did CPR, and we got the AED on. We shocked him and he was ready, willing, and able to get back on the bench again. It turns out he had underlying coronary artery disease, but we got him back right away.

I did an initial study where we placed an AED in a public place at the Chicago O’Hare Airport to see if the public would use these. Most cardiac arrests occur at home, of course, but in public places, that was a good place to try it. We had almost 10 cases the first year. What was fascinating was that we had almost no survivors over the previous decade, even though there were paramedics at the airport. When we put these out there, we had nine people go down that first year, and six people who had never operated an AED or seen one before knew to get one and use it. Every one of those people survived neurologically intact, and almost every person was waking up before traditional responders got there. That’s how effective this is, but you need to know where the AED is.

Dr. Glatter: How to turn it on, where it is, and how to operate it.

Dr. Pepe: That was the point: These rescuers saved lives in the first year, and it was tremendous. Two points I make about it are that one, you need to know where it is, and two, just go turn it on. It gives you the instructions to follow through; just be in the Nike mode, because it basically won’t hurt a person. It’s rare that there’s ever been any complication of that. The machine algorithms are so good.

Dr. Glatter: Mick, I want to turn to you about the European experience. Specifically in Denmark, we know that there’s a large public health initiative to have AEDs accessible. There have been studies showing that when the public is engaged, especially with studies looking at an app when access is available, survivability doubled in the past 10 years from having access to AEDs. What’s your experience in Ireland in terms of public access to defibrillators?

Dr. Molloy: We’ve got two different streams here. There was a big push to have more AEDs at all sports venues. That was great, but some of the sporting clubs put them inside the locked door. I said that there’s no point to that because nobody can access it. You need to have an external building and you need to leave it open. If somebody needs to use it, they need to know how to get it, open it, and get away, and not get in through a locked door to get access to a defibrillator. We have AEDs now in most stadiums and even in small rural areas, where you might have only 200 people turn up for a game.

From another public access side, if you dial in – in our scenario, it’s 112, not 911 –we have Community First Responder groups. In the rural areas, you have local people who’ve been trained in basic life support and community first response who have AEDs. They’ll have periods of the day where they come home from work as a teacher, a nurse, a policeman, or a fireman, and they turn on an app on their phone and say, “I’m available for the next 5 hours.” If there’s a cardiac arrest rung in within 5 miles of their community, they will drive directly there with the AED that they have. We’ve had numerous saves from that in the country because it could take 40 minutes to get an EMS vehicle there, and obviously, time is crucial in these scenarios. Our dispatchers will talk people through CPR, and then the community responders arrive with the AED. It has been a fantastic initiative.

Dr. Pepe: In many places, people have apps on their phones where they’re locked into the system, and it will go off and tell them there is something nearby and even GPS them into it, and it’s been fantastic.

The two points I want to make to responding to what we just heard Dean Malloy say is one, we always have a designated spot to have these in various places. If I’m at City Hall, we always have them near the red elevators on every floor and down at security. In all the public high schools, we always have one right below the clock where everybody can see it. We set it up in a very standardized form that anybody and everybody will know where it is at the time an event happens.

The other point he made about having the response teams is fantastic. I live in a large high rise and there are two complexes with many people here, and many are older, so there’s going to be a higher risk for having an event. In fact, we’ve just had one recently. The concept we developed here was a community emergency response team, where we sometimes have doctors, nurses, and paramedics who live here be on call and be responsible, or you could try to find an AED. More importantly, we made sure everybody here knew where they were and where to get them. We’ve got most of the people trained, and we’re doing more training in what actions to take during these periods of time when such events happen.

Dr. Glatter: Yes, it’s critical. I wanted to point out that we’ve looked at the use of drones, especially here in the United States. There have been some pilot studies looking at their utility in the setting of out-of-hospital cardiac arrest. I want to get both of your thoughts on this and the feasibility of this.

Dr. Molloy: In a rural area, it’s a fantastic idea. You’re going to get something there as the crow flies very quickly. You probably have to look at exactly in, say, a rural area like Ireland of 32,000 square kilometers, how many you›ll have to put, what kind of distances they can realistically cover, and make sure the batteries are charged. Certainly, that’s a very good initiative because with the AEDs, you can’t do anything wrong. You can’t give a shock unless a shock needs to be given. The machine directs you what to do, so somebody who has had no training can pick one of these out of the box and start to work with it quickly and confidently that they can’t do anything wrong.

It’s a great idea. It would be a little expensive potentially at the moment in getting the drones and having that volume of drones around. In the U.S., you have completely different air traffic than we have, and in cities, you have more helicopters flying around. We certainly wouldn’t have that in our cities because that could cause a challenge if you’ve got drones flying around as well. It’s about making it safe that nothing else can go wrong from a drone in somebody else’s flight path.

Dr. Pepe: In my experience, the earlier the intervention, the better the results. There is a limit here in terms of the drones if they just can’t get there soon enough. Having said that, we are so fortunate in the city of Seattle to have most citizens knowing CPR, and we’d get that person resuscitated because they were doing such a good job with the CPR up front.

That’s why you’re going to see the Buffalo Bills player survive neurologically intact – because he did get immediate treatment right then and there. In the future, we may even have some better devices that will actually even restore normal blood flow right then and there while you’re still in cardiac arrest. There are limitations in every case. But on the other hand, it’s exciting and it paid off in this case recently.

Dr. Molloy: Just a point of interest coming from this small little country over here. The first portable defibrillator was developed in Belfast, Ireland, in the back of a cardiac response car. Despite us being a tiny little country, we do have some advances ahead of the United States.
 

Dr. Pepe: That was a breakthrough. Dr. Frank Pantridge and John Geddes did this great work and that caught the imagination of everybody here. At first, they were just going out to give people oxygen and sedate them for their chest pain. It turned out that their defibrillators are what made the difference as they went out there. Absolutely, I have to acknowledge the folks in Ireland for giving us this. Many of the EMS systems got started because of the article they published in The Lancet back in 1967.

Dr. Glatter: I wanted to briefly talk about screening of the athletes at the high school/college level, but also at the professional level. Obviously, there are issues, including the risk for false-positives in terms of low incidence, but there are also false negatives, as the case with Christian Eriksen, who had a cardiac arrest in 2021 and who has been through extensive testing. We can debate the validity of such testing, but I wanted to get both of your takes on the utility of screening in such a population.

Dr. Molloy: That’s a very emotive subject. False-positives are difficult because you’re now saying to somebody that they can’t compete in your sport at a decent level. The difficult part is telling somebody that this is the end of their career.

The false-negative is a little bit more difficult. I don’t know Christian Eriksen and I’m not involved in his team in any way, but that is a one-point examination, and you’re dependent on the scale of the process interpreting the ECG, which is again only a couple of seconds and that particular arrhythmia may not have shown up on that.

Also, athletes, by nature of what they’re doing, are operating at 99% of efficiency on a frequent basis. They are at the peak of their physiologic fitness, and it does make them a little bit more prone to picking up viral illnesses from time to time. They may get a small viral myopericarditis, which causes a new arrhythmia that nobody knew about. They had the screening 2 or 3 years ago, and they now developed a new problem because of what they do, which just may not show up.

I was actually surprised that the gentleman came through it very well, which is fantastic. He wasn’t allowed to play football in the country where he was employed, and he has now moved to another country and is playing football with a defibrillator inserted. I don’t know what the rules are in American football where you can play with implantable defibrillators. I’m not so sure it’s a great idea to do that.

Dr. Pepe: One thing that we should bring up is that there are athletes with underlying cardiomyopathies or hypertrophies and things like that, but that was unlikely in this case. It’s possible, but it’s unlikely, because it would have manifested itself before. In terms of screening, I’ve met some very smart medical doctors who have run those tests, and they have been very encouraged even at the high school levels to have screenings done, whether it’s electrocardiography, echocardiography, and so on. I have to reiterate what Dr Malloy just said in that it may have its downsides as well. If you can pick up real obvious cases, I think that may be of value.

Dr. Glatter: I want to conclude and get some pearls and takeaways from each of you regarding the events that transpired and what our audience can really hold onto.

Dr. Molloy: Look at Formula One in the past 50 years. In Formula One, in the beginning it was a 2-minute job to change a tire. Now, they have this down where they’re measuring in fractions of a second and criticizing each other if one guy is 2.6 seconds and the other guy is 2.9 seconds. For me, that’s phenomenal. It takes me 25 minutes to change a tire.

We’ve looked at that from a resuscitation perspective, and we now do pit crew resuscitation before our events. We’ve planned our team and know who’s going to be occupying what role. After the events at the UEFA championships, we had a new rule brought in by UEFA where they handed me a new document saying, “This is what we would like you to do for resuscitation.” It was a three-man triangle, and I said, “No, we’re not going to do that here.” And they said, “Why, you have to; it’s our rule.”

I said, “No, our rule in Ireland is we have a six-person triangle. We’re not downing our standards because of what you have internationally. You’re covering games in some very low-resource environments, I know that. We have a particular standard here that we’re sticking to. We have a six-person group. We know what we’re all doing; we come very quickly to those downed players and get involved and we’ve had good outcomes, so we’re not going to change the standards.”

That’s the thing: You need to practice these things. The players don’t go out on the weekend and do a move for the very first time without practicing it hundreds of times. We need to look at it the same way as the medical team who are looking after that group of players and the crowd because we also look after the crowd.

A particular challenge in some of our stadiums is that the upper decks are so steep, and it’s very hard to get a patient onto a trolley and do CPR as you’re bringing them down to a zone to get them flat. We’ve had to come up with some innovative techniques to try and do that and accommodate that using some of the mechanical CPR devices. That’s the result you’ll only get from having practiced these events and trying to extricate patients. We want to check response times, so you have to practice your response team activity very frequently.

Dr. Pepe: There are two points made by Mick that I want to react to. One, the pit crew approach is critical in so many ways. We do the same thing in what we call the medical first attack, where we knew who the A, B, and C person would be. When we took it out to the NBA trainers, I recommended for them to have a similar approach so that if an event does happen right in the middle of prime time, they are coordinated.

The second point is that we do mass-gathering medicine. It’s not just the sportspeople on the field or the entertainers that we’re looking after; it is the people in the stands. We will see a cardiac arrest once a month. If you think about it, you might see a cardiac arrest occur in any community on a regular basis. Now you’ve got 100,000 people in one stadium, and something is bound to go wrong over those 3 or 4 hours where they are there and may have a critical emergency. Preparation for all of that is really important as well.

The final point is that on a day-to-day basis, most cardiac arrests do occur in the home. Granted, 80% of them are nonshockable cases, but the people who are more apt to survive are going to be the ones who have an electrical event. In fact, when we looked at our data years ago, we found that, of the cases of people with ventricular fibrillation that we resuscitated, half didn’t even have heart damage. Their enzymes were normal. It was a pure electrical event, and they were more resuscitable. They may have an underlying problem, but we can fix that once we get them back.

Everybody needs to know how to do bystander CPR, and second, we must make sure we have AEDs strategically placed, as I alluded to before. We also go out to other parts of the community and give them advice. All those things must be put in place, but more importantly, just get the training and make the training simple. It’s really a “just do it” philosophy, but make it simple.

For example, when I teach a course, I can do it in 15 minutes, and people retain it because I keep reiterating things like, “Okay, there’s one thing you need to know about choking: Pop the cork.” You give them a physiologic image of what’s happening. Everybody says, “I remember you saying to just do it, pop the cork.”

With AEDs, know where it is – that’s why we should have it in standardized places. Go get it, turn it on, and then follow the instructions. Also, the most important thing is making sure you’re doing quality compressions; and there are videos that can help you with that, as well as classes that you can take that will get you through it.

Dr. Glatter: Absolutely. The public still has the misconception that you need to do mouth-to-mouth resuscitation. The message has not permeated through society that you don’t need to do mouth-to-mouth. Hands-only CPR is the gold standard now.

Dr. Pepe: If people have a reversible cause like ventricular fibrillation, often they’re already gasping, which is better than a delivered breath, by the way. Most important, then, are the compressions to make sure you have oxygen going up to the brain, because you’re still theoretically loaded with oxygen in your bloodstream if you had a sudden cardiac arrest from a ventricular fibrillation.

Your points are well taken, and we found that we had better outcomes when we just gave instructions to do compressions only, and that became the standard. Mick, you’ve had some experiences with that as well.

Dr. Molloy: If we’re going to have a long-term benefit from all this, we have to start doing this in elementary school and teaching kids basic life support and some basic health messaging.

I remember trying to get this across to a teacher one day and the teacher saying, “But why would we teach young kids to resuscitate each other?” I said, “I think you forget that the only 60-year-old person in the room is you. You train them, and we train them. They’re the ones who are going to respond and keep you alive. That’s the way you should be looking at this.” That completely changed the mindset of whether we should be doing this for the kids or not.

Dr. Pepe: In fact, what we find is that that’s exactly who gets saved. I had case after case where the kids at the school had learned CPR and saved the teachers or the administrator at the high school or elementary school. It’s a fantastic point that you bring up, Dr. Malloy.

Dr. Glatter: One other brief thing we can interject here is that the team was excellent on field in that they evaluated Damar Hamlin in a primary survey sense of ABCs (i.e., airway, breathing, and circulation) for things like a tension pneumothorax. In the sense in which he was hit, there are reversible causes. Making sure he didn’t have a tension pneumothorax that caused the arrest, in my mind, was critical.

Dr. Pepe: We do the same thing on a day-to-day basis with a car wreck, because it could be that the person had ventricular fibrillation and then had the wreck. It’s not always trauma. That’s a fantastic point that you’re making. That’s exactly what I think happened, and that’s what we do.

Dr. Glatter: Well, thank you, gentlemen. This was an informative and helpful discussion for our audience. I appreciate your time and expertise.



Dr. Glatter, is an attending physician at Lenox Hill Hospital in New York City and assistant professor of emergency medicine at Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York. He is an editorial adviser and hosts the Hot Topics in EM series on Medscape. He is also a medical contributor for Forbes.

Dr. Pepe is a professor of internal medicine, surgery, pediatrics, public health, and emergency medicine at University of Texas Health Science Center in Houston. He’s also a global coordinator of the U.S. Metropolitan Municipalities EMS Medical Directors (“Eagles”) Coalition.

Dr. Molloy works clinically as a consultant in emergency medicine in Wexford General Hospital, part of the Ireland East Hospital Group (IEHG). Internationally, he is a member of the Disaster Medicine Section of the European Society of Emergency Medicine (EUSEM) and has been appointed by the Irish Medical Organization (IMO) as one of two Irish delegates to serve on the European Board and Section of Emergency Medicine of the European Union of Medical Specialists (UEMS), having served for a number of years on its predecessor, the Multidisciplinary Joint Committee on Emergency Medicine.

A version of this article first appeared on Medscape.com.

“When I walk in to see a patient, I always introduce myself with, ‘Hello, my name is Cyndy, I’m the PA working with the doctor today,’ ” says Cyndy Flores, a physician assistant (PA) in the emergency department at Vituity, Emeryville, Calif. “Sometimes, I can go through a complete history and physical, explain a treatment plan, and perform a procedure, and [the patient] will say, ‘Thank you, doctor.’ ”

“I always come back and say, ‘You’re very welcome, but my name is Cyndy, and I’m the PA.’ ”

Ms. Flores is used to patients calling her “doctor” when she greets them. She typically offers a quick correction and moves on with the appointment.

With 355,000 nurse practitioners (NPs) and 149,000 certified PAs practicing in the United States, it’s more common than ever for health care providers who don’t go by the title “doctor” to diagnose and treat patients.

A recent report, Evolving Scope of Practice, found that more than 70% of physicians were “somewhat satisfied to very satisfied” with patient treatment by PAs and NPs.

But for patients, having a health care team that includes physicians, NPs, and PAs can be confusing. Additionally, it creates a need for education about their correct titles and roles in patient care.

“It’s really important for patients to understand who is taking care of them,” Ms. Flores says.
 

Education starts in your practice

Educating patients about the roles of different providers on their health care team starts long before patients enter the exam room, Ms. Flores explains.

Some patients may not understand the difference, some may just forget because they’re used to calling all providers doctors, and others may find it awkward to use a provider’s first name or not know the respectful way to address an NP or a PA.

Practices can help by listing the names and biographies of the health care team on the clinic website. In addition, when patients call for an appointment, Ms. Flores believes front desk staff can reinforce that information. When offering appointments with a physician, NP, or PA, clearly use the practitioner’s title and reiterate it throughout the conversation. For example, “Would you like to see our nurse practitioner, Alice Smith, next week?” or “So, our physician assistant Mrs. Jones will see you Friday at 3 PM.”

The report also found that 76% of patients expressed a preference to see a physician over a PA, and 71% expressed a preference to see a physician over an NP, but offering appointments with nonphysician providers is part of the education process.

“Some families are super savvy and know the differences between nurse practitioners, physician assistants, and doctors, and ... there are families who don’t understand those titles, [and] we need to explain what they do in our practice,” adds Nicole Aaronson, MD, MBA, attending surgeon at Nemours Children’s Health of Delaware. Dr. Aaronson believes there’s an opportunity for educating patients when speaking about all the available providers they may see.

Hanging posters or using brochures in the clinic or hospital is another effective way to reinforce the roles of various providers on the care team. Include biographies and educational information on practice materials and video programs running in the waiting room. 

“Patients mean it [calling everyone doctor] as a way to respectfully address the nurse practitioner or physician assistant rather than meaning it as a denigration of the physician,” Dr. Aaronson says. “But everyone appreciates being called by the correct title.”

Helping patients understand the members of their care team and the correct titles to use for those health care professionals could also help patients feel more confident about their health care experience.

“Patients really like knowing that there are specialists in each of the areas taking care of them,” Ms. Flores says. “I think that conveys a feeling of trust in your provider.”
 

Not everyone is a doctor

Even when PAs and NPs remind patients of their roles and reinforce the use of their preferred names, there will still be patients who continue referring to their nonphysician provider as “doctor.”

“There’s a perception that anyone who walks into a room with a stethoscope is your doctor,” says Graig Straus, DNP, an NP and president and CEO of Rockland Urgent Care Family Health NP, P.C., West Haverstraw, N.Y. “You do get a little bit of burnout correcting people all the time.”

Dr. Straus, who earned his doctorate in nursing practice, notes that patients using the honorific with him aren’t incorrect, but he still educates them on his role within the health care team.

“NPs and PAs have a valuable role to play independently and in concert with the physician,” Dr. Aaronson says. This understanding is essential, as states consider expanding treatment abilities for NPs and PAs.

NPs have expanded treatment abilities or full practice authority in almost half the states, and 31% of the physicians surveyed agreed that NPs should have expanded treatment abilities.

An estimated 1 in 5 states characterizes the physician-PA relationship as collaborative, not supervisory, according to the American Academy of Physician Associates. At the same time, only 39% of physicians surveyed said they favored this trend.

“Patients need great quality care, and there are many different types of providers that can provide that care as part of the team,” Ms. Flores says. “When you have a team taking care of a patient, that patient [gets] the best care possible – and ... that’s why we went into medicine: to deliver high-quality, compassionate care to our patients, and we should all be in this together.”

When practices do their part explaining who is and isn’t a doctor and what each provider’s title and role is and what to call them, and everyone reinforces it, health care becomes not only more manageable for patients to traverse but easier to understand, leading to a better experience.

A version of this article first appeared on Medscape.com.

“When I walk in to see a patient, I always introduce myself with, ‘Hello, my name is Cyndy, I’m the PA working with the doctor today,’ ” says Cyndy Flores, a physician assistant (PA) in the emergency department at Vituity, Emeryville, Calif. “Sometimes, I can go through a complete history and physical, explain a treatment plan, and perform a procedure, and [the patient] will say, ‘Thank you, doctor.’ ”

“I always come back and say, ‘You’re very welcome, but my name is Cyndy, and I’m the PA.’ ”

Ms. Flores is used to patients calling her “doctor” when she greets them. She typically offers a quick correction and moves on with the appointment.

With 355,000 nurse practitioners (NPs) and 149,000 certified PAs practicing in the United States, it’s more common than ever for health care providers who don’t go by the title “doctor” to diagnose and treat patients.

A recent report, Evolving Scope of Practice, found that more than 70% of physicians were “somewhat satisfied to very satisfied” with patient treatment by PAs and NPs.

But for patients, having a health care team that includes physicians, NPs, and PAs can be confusing. Additionally, it creates a need for education about their correct titles and roles in patient care.

“It’s really important for patients to understand who is taking care of them,” Ms. Flores says.
 

Education starts in your practice

Educating patients about the roles of different providers on their health care team starts long before patients enter the exam room, Ms. Flores explains.

Some patients may not understand the difference, some may just forget because they’re used to calling all providers doctors, and others may find it awkward to use a provider’s first name or not know the respectful way to address an NP or a PA.

Practices can help by listing the names and biographies of the health care team on the clinic website. In addition, when patients call for an appointment, Ms. Flores believes front desk staff can reinforce that information. When offering appointments with a physician, NP, or PA, clearly use the practitioner’s title and reiterate it throughout the conversation. For example, “Would you like to see our nurse practitioner, Alice Smith, next week?” or “So, our physician assistant Mrs. Jones will see you Friday at 3 PM.”

The report also found that 76% of patients expressed a preference to see a physician over a PA, and 71% expressed a preference to see a physician over an NP, but offering appointments with nonphysician providers is part of the education process.

“Some families are super savvy and know the differences between nurse practitioners, physician assistants, and doctors, and ... there are families who don’t understand those titles, [and] we need to explain what they do in our practice,” adds Nicole Aaronson, MD, MBA, attending surgeon at Nemours Children’s Health of Delaware. Dr. Aaronson believes there’s an opportunity for educating patients when speaking about all the available providers they may see.

Hanging posters or using brochures in the clinic or hospital is another effective way to reinforce the roles of various providers on the care team. Include biographies and educational information on practice materials and video programs running in the waiting room. 

“Patients mean it [calling everyone doctor] as a way to respectfully address the nurse practitioner or physician assistant rather than meaning it as a denigration of the physician,” Dr. Aaronson says. “But everyone appreciates being called by the correct title.”

Helping patients understand the members of their care team and the correct titles to use for those health care professionals could also help patients feel more confident about their health care experience.

“Patients really like knowing that there are specialists in each of the areas taking care of them,” Ms. Flores says. “I think that conveys a feeling of trust in your provider.”
 

Not everyone is a doctor

Even when PAs and NPs remind patients of their roles and reinforce the use of their preferred names, there will still be patients who continue referring to their nonphysician provider as “doctor.”

“There’s a perception that anyone who walks into a room with a stethoscope is your doctor,” says Graig Straus, DNP, an NP and president and CEO of Rockland Urgent Care Family Health NP, P.C., West Haverstraw, N.Y. “You do get a little bit of burnout correcting people all the time.”

Dr. Straus, who earned his doctorate in nursing practice, notes that patients using the honorific with him aren’t incorrect, but he still educates them on his role within the health care team.

“NPs and PAs have a valuable role to play independently and in concert with the physician,” Dr. Aaronson says. This understanding is essential, as states consider expanding treatment abilities for NPs and PAs.

NPs have expanded treatment abilities or full practice authority in almost half the states, and 31% of the physicians surveyed agreed that NPs should have expanded treatment abilities.

An estimated 1 in 5 states characterizes the physician-PA relationship as collaborative, not supervisory, according to the American Academy of Physician Associates. At the same time, only 39% of physicians surveyed said they favored this trend.

“Patients need great quality care, and there are many different types of providers that can provide that care as part of the team,” Ms. Flores says. “When you have a team taking care of a patient, that patient [gets] the best care possible – and ... that’s why we went into medicine: to deliver high-quality, compassionate care to our patients, and we should all be in this together.”

When practices do their part explaining who is and isn’t a doctor and what each provider’s title and role is and what to call them, and everyone reinforces it, health care becomes not only more manageable for patients to traverse but easier to understand, leading to a better experience.

A version of this article first appeared on Medscape.com.

“When I walk in to see a patient, I always introduce myself with, ‘Hello, my name is Cyndy, I’m the PA working with the doctor today,’ ” says Cyndy Flores, a physician assistant (PA) in the emergency department at Vituity, Emeryville, Calif. “Sometimes, I can go through a complete history and physical, explain a treatment plan, and perform a procedure, and [the patient] will say, ‘Thank you, doctor.’ ”

“I always come back and say, ‘You’re very welcome, but my name is Cyndy, and I’m the PA.’ ”

Ms. Flores is used to patients calling her “doctor” when she greets them. She typically offers a quick correction and moves on with the appointment.

With 355,000 nurse practitioners (NPs) and 149,000 certified PAs practicing in the United States, it’s more common than ever for health care providers who don’t go by the title “doctor” to diagnose and treat patients.

A recent report, Evolving Scope of Practice, found that more than 70% of physicians were “somewhat satisfied to very satisfied” with patient treatment by PAs and NPs.

But for patients, having a health care team that includes physicians, NPs, and PAs can be confusing. Additionally, it creates a need for education about their correct titles and roles in patient care.

“It’s really important for patients to understand who is taking care of them,” Ms. Flores says.
 

Education starts in your practice

Educating patients about the roles of different providers on their health care team starts long before patients enter the exam room, Ms. Flores explains.

Some patients may not understand the difference, some may just forget because they’re used to calling all providers doctors, and others may find it awkward to use a provider’s first name or not know the respectful way to address an NP or a PA.

Practices can help by listing the names and biographies of the health care team on the clinic website. In addition, when patients call for an appointment, Ms. Flores believes front desk staff can reinforce that information. When offering appointments with a physician, NP, or PA, clearly use the practitioner’s title and reiterate it throughout the conversation. For example, “Would you like to see our nurse practitioner, Alice Smith, next week?” or “So, our physician assistant Mrs. Jones will see you Friday at 3 PM.”

The report also found that 76% of patients expressed a preference to see a physician over a PA, and 71% expressed a preference to see a physician over an NP, but offering appointments with nonphysician providers is part of the education process.

“Some families are super savvy and know the differences between nurse practitioners, physician assistants, and doctors, and ... there are families who don’t understand those titles, [and] we need to explain what they do in our practice,” adds Nicole Aaronson, MD, MBA, attending surgeon at Nemours Children’s Health of Delaware. Dr. Aaronson believes there’s an opportunity for educating patients when speaking about all the available providers they may see.

Hanging posters or using brochures in the clinic or hospital is another effective way to reinforce the roles of various providers on the care team. Include biographies and educational information on practice materials and video programs running in the waiting room. 

“Patients mean it [calling everyone doctor] as a way to respectfully address the nurse practitioner or physician assistant rather than meaning it as a denigration of the physician,” Dr. Aaronson says. “But everyone appreciates being called by the correct title.”

Helping patients understand the members of their care team and the correct titles to use for those health care professionals could also help patients feel more confident about their health care experience.

“Patients really like knowing that there are specialists in each of the areas taking care of them,” Ms. Flores says. “I think that conveys a feeling of trust in your provider.”
 

Not everyone is a doctor

Even when PAs and NPs remind patients of their roles and reinforce the use of their preferred names, there will still be patients who continue referring to their nonphysician provider as “doctor.”

“There’s a perception that anyone who walks into a room with a stethoscope is your doctor,” says Graig Straus, DNP, an NP and president and CEO of Rockland Urgent Care Family Health NP, P.C., West Haverstraw, N.Y. “You do get a little bit of burnout correcting people all the time.”

Dr. Straus, who earned his doctorate in nursing practice, notes that patients using the honorific with him aren’t incorrect, but he still educates them on his role within the health care team.

“NPs and PAs have a valuable role to play independently and in concert with the physician,” Dr. Aaronson says. This understanding is essential, as states consider expanding treatment abilities for NPs and PAs.

NPs have expanded treatment abilities or full practice authority in almost half the states, and 31% of the physicians surveyed agreed that NPs should have expanded treatment abilities.

An estimated 1 in 5 states characterizes the physician-PA relationship as collaborative, not supervisory, according to the American Academy of Physician Associates. At the same time, only 39% of physicians surveyed said they favored this trend.

“Patients need great quality care, and there are many different types of providers that can provide that care as part of the team,” Ms. Flores says. “When you have a team taking care of a patient, that patient [gets] the best care possible – and ... that’s why we went into medicine: to deliver high-quality, compassionate care to our patients, and we should all be in this together.”

When practices do their part explaining who is and isn’t a doctor and what each provider’s title and role is and what to call them, and everyone reinforces it, health care becomes not only more manageable for patients to traverse but easier to understand, leading to a better experience.

A version of this article first appeared on Medscape.com.

The number of daily meals, but not the timing between first and last daily meals, was significantly associated with weight changes over a 6-year period, in a prospective study of more than 500 adults.

Some studies suggest that timing food intake – through time-restricted eating or intermittent fasting – can promote weight loss, but these strategies have yielded similar weight loss to eating throughout the day in randomized trials, and population-based studies of meal intervals and weight changes are needed, Di Zhao, PhD, of Johns Hopkins University, Baltimore, and colleagues wrote.

hayatikayha/Getty Images

“Obesity is an epidemic,” corresponding author Wendy Bennett, MD, also of Johns Hopkins University, said in an interview. “We are interested in identifying ways to prevent weight gain over time and reduce obesity risk, since telling people to ‘just eat less’ doesn’t always work.”

In a study published in the Journal of the American Heart Association, the researchers recruited 1,017 adults who were patients at one of three health systems; of these, complete data were available for 547 individuals.

The participants downloaded an app called Daily24 to record the timing of their meals and sleep for at least 1 day. The researchers used electronic medical records to obtain information on weight and comorbidities of the participants for up to 10 years before study enrollment through 10 months after enrollment.

The mean age of the participants was 51.1 years, 78% were women, and 78% were White; the mean body mass index was 30.8 kg/m².

The mean interval from first to last meal was 11.5 hours, and this was not associated with change in weight. The mean times from waking up to the first meal and the time from the last meal to sleeping were 1.6 hours and 4.0 hours, respectively, and these were not associated with weight changes over the follow-up period, the researchers wrote. Sleep duration (mean of 7.5 hours) also was not associated with weight change over time.

However, the total daily number of large and medium-sized meals was associated with weight gain over time, while those who reported more smaller meals showed weight loss. A daily increase of one large, medium, or small meal was associated with an average annual weight change of 0.69 kg, 0.97 kg, and –0.30 kg, respectively.

 

Benefits of time-restricted eating remain unclear

“Animal studies have shown benefits for time restricted feeding, but there are still questions about whether or not it helps prevent weight gain or promotes weight loss in humans,” Dr. Bennett said in an interview.

As for the current study findings, “we were not surprised; humans are more complicated than animals, and we have complicated behaviors, especially with eating,” she said.

“We showed that windows of eating (eating for longer periods of time or less in a day) was not associated with weight change over time among patients from three health systems,” said Dr. Bennett. “The main implication is that restricting your window of eating, such as eating over less time, or having more fasting time, may not reduce weight gain over time, while eating fewer large meals is associated with less weight gain over time.”

The findings were limited by several factors including the exclusion of many younger and less educated individuals, the short follow-up period, and lack of information on weight loss intention at baseline, the researchers noted. Other limitations included the inability to evaluate time-restricted eating or fasting, and the inclusion of individuals currently seeking care, which may limit generalizability.

However, the results were strengthened by the repeated measures of weight, detailed information on obesity risk factors, and real-time assessment of eating behaviors. The results do not support time-restricted eating as a long-term weight-loss strategy, and more studies are needed with a longer follow-up period, the researchers concluded.

However, there may be a role for time restricted eating as a method of total calorie control, Dr. Bennett said.

“Other studies do show that people might be able to use time-restricted eating or intermittent fasting to help them reduce their caloric intake and thus lose weight, so it can still be a helpful weight loss tool for some people who can adhere to it,” she said.

The study was supported by a grant from the American Heart Association to Johns Hopkins University. Dr. Bennett had no financial conflicts to disclose.
 

The number of daily meals, but not the timing between first and last daily meals, was significantly associated with weight changes over a 6-year period, in a prospective study of more than 500 adults.

Some studies suggest that timing food intake – through time-restricted eating or intermittent fasting – can promote weight loss, but these strategies have yielded similar weight loss to eating throughout the day in randomized trials, and population-based studies of meal intervals and weight changes are needed, Di Zhao, PhD, of Johns Hopkins University, Baltimore, and colleagues wrote.

hayatikayha/Getty Images

“Obesity is an epidemic,” corresponding author Wendy Bennett, MD, also of Johns Hopkins University, said in an interview. “We are interested in identifying ways to prevent weight gain over time and reduce obesity risk, since telling people to ‘just eat less’ doesn’t always work.”

In a study published in the Journal of the American Heart Association, the researchers recruited 1,017 adults who were patients at one of three health systems; of these, complete data were available for 547 individuals.

The participants downloaded an app called Daily24 to record the timing of their meals and sleep for at least 1 day. The researchers used electronic medical records to obtain information on weight and comorbidities of the participants for up to 10 years before study enrollment through 10 months after enrollment.

The mean age of the participants was 51.1 years, 78% were women, and 78% were White; the mean body mass index was 30.8 kg/m².

The mean interval from first to last meal was 11.5 hours, and this was not associated with change in weight. The mean times from waking up to the first meal and the time from the last meal to sleeping were 1.6 hours and 4.0 hours, respectively, and these were not associated with weight changes over the follow-up period, the researchers wrote. Sleep duration (mean of 7.5 hours) also was not associated with weight change over time.

However, the total daily number of large and medium-sized meals was associated with weight gain over time, while those who reported more smaller meals showed weight loss. A daily increase of one large, medium, or small meal was associated with an average annual weight change of 0.69 kg, 0.97 kg, and –0.30 kg, respectively.

 

Benefits of time-restricted eating remain unclear

“Animal studies have shown benefits for time restricted feeding, but there are still questions about whether or not it helps prevent weight gain or promotes weight loss in humans,” Dr. Bennett said in an interview.

As for the current study findings, “we were not surprised; humans are more complicated than animals, and we have complicated behaviors, especially with eating,” she said.

“We showed that windows of eating (eating for longer periods of time or less in a day) was not associated with weight change over time among patients from three health systems,” said Dr. Bennett. “The main implication is that restricting your window of eating, such as eating over less time, or having more fasting time, may not reduce weight gain over time, while eating fewer large meals is associated with less weight gain over time.”

The findings were limited by several factors including the exclusion of many younger and less educated individuals, the short follow-up period, and lack of information on weight loss intention at baseline, the researchers noted. Other limitations included the inability to evaluate time-restricted eating or fasting, and the inclusion of individuals currently seeking care, which may limit generalizability.

However, the results were strengthened by the repeated measures of weight, detailed information on obesity risk factors, and real-time assessment of eating behaviors. The results do not support time-restricted eating as a long-term weight-loss strategy, and more studies are needed with a longer follow-up period, the researchers concluded.

However, there may be a role for time restricted eating as a method of total calorie control, Dr. Bennett said.

“Other studies do show that people might be able to use time-restricted eating or intermittent fasting to help them reduce their caloric intake and thus lose weight, so it can still be a helpful weight loss tool for some people who can adhere to it,” she said.

The study was supported by a grant from the American Heart Association to Johns Hopkins University. Dr. Bennett had no financial conflicts to disclose.
 

The number of daily meals, but not the timing between first and last daily meals, was significantly associated with weight changes over a 6-year period, in a prospective study of more than 500 adults.

Some studies suggest that timing food intake – through time-restricted eating or intermittent fasting – can promote weight loss, but these strategies have yielded similar weight loss to eating throughout the day in randomized trials, and population-based studies of meal intervals and weight changes are needed, Di Zhao, PhD, of Johns Hopkins University, Baltimore, and colleagues wrote.

hayatikayha/Getty Images

“Obesity is an epidemic,” corresponding author Wendy Bennett, MD, also of Johns Hopkins University, said in an interview. “We are interested in identifying ways to prevent weight gain over time and reduce obesity risk, since telling people to ‘just eat less’ doesn’t always work.”

In a study published in the Journal of the American Heart Association, the researchers recruited 1,017 adults who were patients at one of three health systems; of these, complete data were available for 547 individuals.

The participants downloaded an app called Daily24 to record the timing of their meals and sleep for at least 1 day. The researchers used electronic medical records to obtain information on weight and comorbidities of the participants for up to 10 years before study enrollment through 10 months after enrollment.

The mean age of the participants was 51.1 years, 78% were women, and 78% were White; the mean body mass index was 30.8 kg/m².

The mean interval from first to last meal was 11.5 hours, and this was not associated with change in weight. The mean times from waking up to the first meal and the time from the last meal to sleeping were 1.6 hours and 4.0 hours, respectively, and these were not associated with weight changes over the follow-up period, the researchers wrote. Sleep duration (mean of 7.5 hours) also was not associated with weight change over time.

However, the total daily number of large and medium-sized meals was associated with weight gain over time, while those who reported more smaller meals showed weight loss. A daily increase of one large, medium, or small meal was associated with an average annual weight change of 0.69 kg, 0.97 kg, and –0.30 kg, respectively.

 

Benefits of time-restricted eating remain unclear

“Animal studies have shown benefits for time restricted feeding, but there are still questions about whether or not it helps prevent weight gain or promotes weight loss in humans,” Dr. Bennett said in an interview.

As for the current study findings, “we were not surprised; humans are more complicated than animals, and we have complicated behaviors, especially with eating,” she said.

“We showed that windows of eating (eating for longer periods of time or less in a day) was not associated with weight change over time among patients from three health systems,” said Dr. Bennett. “The main implication is that restricting your window of eating, such as eating over less time, or having more fasting time, may not reduce weight gain over time, while eating fewer large meals is associated with less weight gain over time.”

The findings were limited by several factors including the exclusion of many younger and less educated individuals, the short follow-up period, and lack of information on weight loss intention at baseline, the researchers noted. Other limitations included the inability to evaluate time-restricted eating or fasting, and the inclusion of individuals currently seeking care, which may limit generalizability.

However, the results were strengthened by the repeated measures of weight, detailed information on obesity risk factors, and real-time assessment of eating behaviors. The results do not support time-restricted eating as a long-term weight-loss strategy, and more studies are needed with a longer follow-up period, the researchers concluded.

However, there may be a role for time restricted eating as a method of total calorie control, Dr. Bennett said.

“Other studies do show that people might be able to use time-restricted eating or intermittent fasting to help them reduce their caloric intake and thus lose weight, so it can still be a helpful weight loss tool for some people who can adhere to it,” she said.

The study was supported by a grant from the American Heart Association to Johns Hopkins University. Dr. Bennett had no financial conflicts to disclose.
 

Eating in response to stress – known as emotional eating – was significantly associated with several markers of long-term cardiovascular damage, based on data from 1,109 individuals.

“We know diet plays a huge role in cardiovascular disease, but we have focused a lot of work on what you eat, not on what makes you eat” – the current study did exactly that, Martha Gulati, MD, who wasn’t involved in the study, said in an interview.

Courtesy Cedars-Sinai

“Emotional eaters consume food to satisfy their brains rather than their stomachs,” study investigator Nicolas Girerd, MD, of the National Institute of Health and Medical Research (INSERM) and a cardiologist at the University Hospital of Nancy (France), wrote in a press release accompanying the study.

Diet plays a role in the development of cardiovascular disease (CVD), but the impact of eating behavior on long-term cardiovascular health remains unclear, wrote Dr. Girerd and colleagues. Previous research has yielded three common psychological dimensions for eating behavior: emotional eating, restrained eating, and external eating.

Both emotional eating and restrained eating have been linked to cardiovascular disease risk, the researchers noted. “Because of previous findings, we hypothesized that [emotional and/or restrained dimensions of eating behavior] are positively associated with cardiovascular damages, as well as with CV risk factors, such as metabolic syndrome,” they wrote.

In a study published in the European Journal of Preventive Cardiology, the researchers reviewed data from 916 adults and 193 adolescents who were participants in the STANISLAS (Suivi Temporaire Annuel Non-Invasif de la Santé des Lorrains Assurés Sociaux), a longitudinal familial cohort in France. Cardiovascular data were collected at four medical visits as part of a full clinical examination between 1993 and 2016, with one visit every 5-10 years. Roughly one-third (31.0%) of the adults were overweight, 7.9% were obese, and 2.7% were underweight. The median age of the adults at the second visit was 44.7 years; the median age of the adolescent group was 15.2 years.

The primary outcome of cardiovascular damage was measured at the fourth visit. Eating behavior was assessed during the second visit using the Dutch Eating Behaviour Questionnaire (DEBQ), and participants were identified as emotional eaters, restrained eaters, or external eaters.

Among the adults, emotional eating was associated with a 38% increased risk of diastolic dysfunction (odds ratio, 1.38; P = .02), over an average follow-up of 13 years, and this association was mediated by stress in 32% of cases. Emotional eating also was positively linked with a higher carotid-femoral pulse-wave velocity (cfPWV-beta), indicative of increased arterial stiffness. However, none of the three dimensions of eating behavior was associated with cardiovascular damage among the adolescents. In addition, none of the eating-behavior dimensions was tied to metabolic syndrome in the adult group (this association was not measured in the adolescents).

Energy intake had no apparent impact on any associations between eating behavior and CVD measures, Dr. Girerd said in the press release. “We might expect that emotional eaters would consume high-calorie foods, which would in turn lead to cardiovascular problems, but this was not the case. One explanation is that we measured average calorie intake and emotional eaters may binge when stressed and then eat less at other times,” and that the resulting “yo-yo” pattern might negatively affect the heart and blood vessels more than stable food intake, he said.

The study findings were limited by several factors, including the observational design that prevented conclusions of causality, the researchers noted. Other limitations included the use of a nonvalidated scale to measure stress, the lack of data on physical activity, and the use of a mainly healthy population in a limited geographic area, which may limit generalizability, they said.

More research is needed in other contexts and larger cohorts, but the results were strengthened by the large study population and the complete data on eating behaviors and detailed health information, they wrote. The results support previous studies and suggest that patients with emotional eating behavior could benefit from emotion regulation skills training, including cognitive, behavioral, psychological, and interpersonal therapies used in other areas, and from pharmacological treatments, the researchers concluded.

The current study offers a unique and important perspective on the relationship between diet and cardiovascular disease, Dr. Gulati, director of preventive cardiology at the Smidt Heart Institute at Cedars-Sinai Medical Center, Los Angeles, told this news organization.

“Examining eating behavior and its relationship with cardiovascular effects in healthy individuals in this prospective way is quite interesting,” said Dr. Gulati, who was not involved in the study.

The researchers examined healthy people at baseline, inquired about their eating habits, and found that emotional eaters “have evidence of cardiovascular changes when compared with the other groups of eaters, after controlling for other risk factors that are associated with cardiovascular disease when following them for 13 years,” said Dr. Gulati, who was recently named Anita Dann Friedman Endowed Chair in Women’s Cardiovascular Medicine and Research at Cedars-Sinai. “This same finding wasn’t seen in adolescents, but this is probably because they are younger, and the effects aren’t seen. That is reassuring, because it means that the more we address eating behaviors, the more likely we are to reduce their effects to the heart,” she noted.

“This study is important because usually, as cardiologists or anyone in medicine, how we assess diet is by assessment of what food people eat; we don’t usually ask about what triggers them to eat,” Dr. Gulati said. “Eating behaviors based on their triggers ultimately affect food choice and food quantity, and help us understand weight changes during a lifetime,” she said.

“I think we don’t have the data to know that an eating behavior would be able to affect cardiac function,” said Dr. Gulati, “but I think we all might hypothesize that emotional eating may be associated with abnormal diastolic function simply through eating high-density food and weight gain.”

The current study did not show a relationship between eating behavior and metabolic syndrome, in contrast with prior studies, Dr. Gulati noted. However, “the authors report that the association between eating behaviors and diastolic dysfunction was mediated through the stress level,” Dr. Gulati said. “It is important to note that this European population was healthy at baseline, and also relatively healthy 13 years later, which makes these findings even more profound.”

Dr. Gulati said that she agrees with the study authors on the need to assess diet and eating behaviors when assessing cardiovascular risk in patient. “Diet assessment as part of prevention is central, but we should ask not only ‘what do you eat,’ but also ‘what makes you eat,’ ” she said.

More research is needed in other populations, Dr. Gulati added. The current study population was healthy at baseline and follow-up. Studies are needed in cohorts in the United States and in the developing world to see how the results might differ; as well as in rural America or in “food deserts” where food choices are limited.

Another research topic is the interplay between eating behaviors and social determinants of health, in terms of their effect on cardiovascular function, Dr. Gulati said, “and it will be valuable to follow this cohort further to see how these eating behaviors and these intermediate measures translate into cardiovascular outcomes.” Future studies should also examine whether the changes in cardiac function are reversible by interventions to modify eating behavior, particularly emotional eating, she said.

Supporters of the study included the Regional University Hospital Center of Nancy, the French Ministry of Solidarity and Health, and a public grant overseen by the French National Research Agency. The researchers had no financial conflicts to disclose.

Dr. Gulati, who serves on the editorial advisory board of MDedge Cardiology, had no financial conflicts to disclose.
 

Eating in response to stress – known as emotional eating – was significantly associated with several markers of long-term cardiovascular damage, based on data from 1,109 individuals.

“We know diet plays a huge role in cardiovascular disease, but we have focused a lot of work on what you eat, not on what makes you eat” – the current study did exactly that, Martha Gulati, MD, who wasn’t involved in the study, said in an interview.

Courtesy Cedars-Sinai

“Emotional eaters consume food to satisfy their brains rather than their stomachs,” study investigator Nicolas Girerd, MD, of the National Institute of Health and Medical Research (INSERM) and a cardiologist at the University Hospital of Nancy (France), wrote in a press release accompanying the study.

Diet plays a role in the development of cardiovascular disease (CVD), but the impact of eating behavior on long-term cardiovascular health remains unclear, wrote Dr. Girerd and colleagues. Previous research has yielded three common psychological dimensions for eating behavior: emotional eating, restrained eating, and external eating.

Both emotional eating and restrained eating have been linked to cardiovascular disease risk, the researchers noted. “Because of previous findings, we hypothesized that [emotional and/or restrained dimensions of eating behavior] are positively associated with cardiovascular damages, as well as with CV risk factors, such as metabolic syndrome,” they wrote.

In a study published in the European Journal of Preventive Cardiology, the researchers reviewed data from 916 adults and 193 adolescents who were participants in the STANISLAS (Suivi Temporaire Annuel Non-Invasif de la Santé des Lorrains Assurés Sociaux), a longitudinal familial cohort in France. Cardiovascular data were collected at four medical visits as part of a full clinical examination between 1993 and 2016, with one visit every 5-10 years. Roughly one-third (31.0%) of the adults were overweight, 7.9% were obese, and 2.7% were underweight. The median age of the adults at the second visit was 44.7 years; the median age of the adolescent group was 15.2 years.

The primary outcome of cardiovascular damage was measured at the fourth visit. Eating behavior was assessed during the second visit using the Dutch Eating Behaviour Questionnaire (DEBQ), and participants were identified as emotional eaters, restrained eaters, or external eaters.

Among the adults, emotional eating was associated with a 38% increased risk of diastolic dysfunction (odds ratio, 1.38; P = .02), over an average follow-up of 13 years, and this association was mediated by stress in 32% of cases. Emotional eating also was positively linked with a higher carotid-femoral pulse-wave velocity (cfPWV-beta), indicative of increased arterial stiffness. However, none of the three dimensions of eating behavior was associated with cardiovascular damage among the adolescents. In addition, none of the eating-behavior dimensions was tied to metabolic syndrome in the adult group (this association was not measured in the adolescents).

Energy intake had no apparent impact on any associations between eating behavior and CVD measures, Dr. Girerd said in the press release. “We might expect that emotional eaters would consume high-calorie foods, which would in turn lead to cardiovascular problems, but this was not the case. One explanation is that we measured average calorie intake and emotional eaters may binge when stressed and then eat less at other times,” and that the resulting “yo-yo” pattern might negatively affect the heart and blood vessels more than stable food intake, he said.

The study findings were limited by several factors, including the observational design that prevented conclusions of causality, the researchers noted. Other limitations included the use of a nonvalidated scale to measure stress, the lack of data on physical activity, and the use of a mainly healthy population in a limited geographic area, which may limit generalizability, they said.

More research is needed in other contexts and larger cohorts, but the results were strengthened by the large study population and the complete data on eating behaviors and detailed health information, they wrote. The results support previous studies and suggest that patients with emotional eating behavior could benefit from emotion regulation skills training, including cognitive, behavioral, psychological, and interpersonal therapies used in other areas, and from pharmacological treatments, the researchers concluded.

The current study offers a unique and important perspective on the relationship between diet and cardiovascular disease, Dr. Gulati, director of preventive cardiology at the Smidt Heart Institute at Cedars-Sinai Medical Center, Los Angeles, told this news organization.

“Examining eating behavior and its relationship with cardiovascular effects in healthy individuals in this prospective way is quite interesting,” said Dr. Gulati, who was not involved in the study.

The researchers examined healthy people at baseline, inquired about their eating habits, and found that emotional eaters “have evidence of cardiovascular changes when compared with the other groups of eaters, after controlling for other risk factors that are associated with cardiovascular disease when following them for 13 years,” said Dr. Gulati, who was recently named Anita Dann Friedman Endowed Chair in Women’s Cardiovascular Medicine and Research at Cedars-Sinai. “This same finding wasn’t seen in adolescents, but this is probably because they are younger, and the effects aren’t seen. That is reassuring, because it means that the more we address eating behaviors, the more likely we are to reduce their effects to the heart,” she noted.

“This study is important because usually, as cardiologists or anyone in medicine, how we assess diet is by assessment of what food people eat; we don’t usually ask about what triggers them to eat,” Dr. Gulati said. “Eating behaviors based on their triggers ultimately affect food choice and food quantity, and help us understand weight changes during a lifetime,” she said.

“I think we don’t have the data to know that an eating behavior would be able to affect cardiac function,” said Dr. Gulati, “but I think we all might hypothesize that emotional eating may be associated with abnormal diastolic function simply through eating high-density food and weight gain.”

The current study did not show a relationship between eating behavior and metabolic syndrome, in contrast with prior studies, Dr. Gulati noted. However, “the authors report that the association between eating behaviors and diastolic dysfunction was mediated through the stress level,” Dr. Gulati said. “It is important to note that this European population was healthy at baseline, and also relatively healthy 13 years later, which makes these findings even more profound.”

Dr. Gulati said that she agrees with the study authors on the need to assess diet and eating behaviors when assessing cardiovascular risk in patient. “Diet assessment as part of prevention is central, but we should ask not only ‘what do you eat,’ but also ‘what makes you eat,’ ” she said.

More research is needed in other populations, Dr. Gulati added. The current study population was healthy at baseline and follow-up. Studies are needed in cohorts in the United States and in the developing world to see how the results might differ; as well as in rural America or in “food deserts” where food choices are limited.

Another research topic is the interplay between eating behaviors and social determinants of health, in terms of their effect on cardiovascular function, Dr. Gulati said, “and it will be valuable to follow this cohort further to see how these eating behaviors and these intermediate measures translate into cardiovascular outcomes.” Future studies should also examine whether the changes in cardiac function are reversible by interventions to modify eating behavior, particularly emotional eating, she said.

Supporters of the study included the Regional University Hospital Center of Nancy, the French Ministry of Solidarity and Health, and a public grant overseen by the French National Research Agency. The researchers had no financial conflicts to disclose.

Dr. Gulati, who serves on the editorial advisory board of MDedge Cardiology, had no financial conflicts to disclose.
 

Eating in response to stress – known as emotional eating – was significantly associated with several markers of long-term cardiovascular damage, based on data from 1,109 individuals.

“We know diet plays a huge role in cardiovascular disease, but we have focused a lot of work on what you eat, not on what makes you eat” – the current study did exactly that, Martha Gulati, MD, who wasn’t involved in the study, said in an interview.

Courtesy Cedars-Sinai

“Emotional eaters consume food to satisfy their brains rather than their stomachs,” study investigator Nicolas Girerd, MD, of the National Institute of Health and Medical Research (INSERM) and a cardiologist at the University Hospital of Nancy (France), wrote in a press release accompanying the study.

Diet plays a role in the development of cardiovascular disease (CVD), but the impact of eating behavior on long-term cardiovascular health remains unclear, wrote Dr. Girerd and colleagues. Previous research has yielded three common psychological dimensions for eating behavior: emotional eating, restrained eating, and external eating.

Both emotional eating and restrained eating have been linked to cardiovascular disease risk, the researchers noted. “Because of previous findings, we hypothesized that [emotional and/or restrained dimensions of eating behavior] are positively associated with cardiovascular damages, as well as with CV risk factors, such as metabolic syndrome,” they wrote.

In a study published in the European Journal of Preventive Cardiology, the researchers reviewed data from 916 adults and 193 adolescents who were participants in the STANISLAS (Suivi Temporaire Annuel Non-Invasif de la Santé des Lorrains Assurés Sociaux), a longitudinal familial cohort in France. Cardiovascular data were collected at four medical visits as part of a full clinical examination between 1993 and 2016, with one visit every 5-10 years. Roughly one-third (31.0%) of the adults were overweight, 7.9% were obese, and 2.7% were underweight. The median age of the adults at the second visit was 44.7 years; the median age of the adolescent group was 15.2 years.

The primary outcome of cardiovascular damage was measured at the fourth visit. Eating behavior was assessed during the second visit using the Dutch Eating Behaviour Questionnaire (DEBQ), and participants were identified as emotional eaters, restrained eaters, or external eaters.

Among the adults, emotional eating was associated with a 38% increased risk of diastolic dysfunction (odds ratio, 1.38; P = .02), over an average follow-up of 13 years, and this association was mediated by stress in 32% of cases. Emotional eating also was positively linked with a higher carotid-femoral pulse-wave velocity (cfPWV-beta), indicative of increased arterial stiffness. However, none of the three dimensions of eating behavior was associated with cardiovascular damage among the adolescents. In addition, none of the eating-behavior dimensions was tied to metabolic syndrome in the adult group (this association was not measured in the adolescents).

Energy intake had no apparent impact on any associations between eating behavior and CVD measures, Dr. Girerd said in the press release. “We might expect that emotional eaters would consume high-calorie foods, which would in turn lead to cardiovascular problems, but this was not the case. One explanation is that we measured average calorie intake and emotional eaters may binge when stressed and then eat less at other times,” and that the resulting “yo-yo” pattern might negatively affect the heart and blood vessels more than stable food intake, he said.

The study findings were limited by several factors, including the observational design that prevented conclusions of causality, the researchers noted. Other limitations included the use of a nonvalidated scale to measure stress, the lack of data on physical activity, and the use of a mainly healthy population in a limited geographic area, which may limit generalizability, they said.

More research is needed in other contexts and larger cohorts, but the results were strengthened by the large study population and the complete data on eating behaviors and detailed health information, they wrote. The results support previous studies and suggest that patients with emotional eating behavior could benefit from emotion regulation skills training, including cognitive, behavioral, psychological, and interpersonal therapies used in other areas, and from pharmacological treatments, the researchers concluded.

The current study offers a unique and important perspective on the relationship between diet and cardiovascular disease, Dr. Gulati, director of preventive cardiology at the Smidt Heart Institute at Cedars-Sinai Medical Center, Los Angeles, told this news organization.

“Examining eating behavior and its relationship with cardiovascular effects in healthy individuals in this prospective way is quite interesting,” said Dr. Gulati, who was not involved in the study.

The researchers examined healthy people at baseline, inquired about their eating habits, and found that emotional eaters “have evidence of cardiovascular changes when compared with the other groups of eaters, after controlling for other risk factors that are associated with cardiovascular disease when following them for 13 years,” said Dr. Gulati, who was recently named Anita Dann Friedman Endowed Chair in Women’s Cardiovascular Medicine and Research at Cedars-Sinai. “This same finding wasn’t seen in adolescents, but this is probably because they are younger, and the effects aren’t seen. That is reassuring, because it means that the more we address eating behaviors, the more likely we are to reduce their effects to the heart,” she noted.

“This study is important because usually, as cardiologists or anyone in medicine, how we assess diet is by assessment of what food people eat; we don’t usually ask about what triggers them to eat,” Dr. Gulati said. “Eating behaviors based on their triggers ultimately affect food choice and food quantity, and help us understand weight changes during a lifetime,” she said.

“I think we don’t have the data to know that an eating behavior would be able to affect cardiac function,” said Dr. Gulati, “but I think we all might hypothesize that emotional eating may be associated with abnormal diastolic function simply through eating high-density food and weight gain.”

The current study did not show a relationship between eating behavior and metabolic syndrome, in contrast with prior studies, Dr. Gulati noted. However, “the authors report that the association between eating behaviors and diastolic dysfunction was mediated through the stress level,” Dr. Gulati said. “It is important to note that this European population was healthy at baseline, and also relatively healthy 13 years later, which makes these findings even more profound.”

Dr. Gulati said that she agrees with the study authors on the need to assess diet and eating behaviors when assessing cardiovascular risk in patient. “Diet assessment as part of prevention is central, but we should ask not only ‘what do you eat,’ but also ‘what makes you eat,’ ” she said.

More research is needed in other populations, Dr. Gulati added. The current study population was healthy at baseline and follow-up. Studies are needed in cohorts in the United States and in the developing world to see how the results might differ; as well as in rural America or in “food deserts” where food choices are limited.

Another research topic is the interplay between eating behaviors and social determinants of health, in terms of their effect on cardiovascular function, Dr. Gulati said, “and it will be valuable to follow this cohort further to see how these eating behaviors and these intermediate measures translate into cardiovascular outcomes.” Future studies should also examine whether the changes in cardiac function are reversible by interventions to modify eating behavior, particularly emotional eating, she said.

Supporters of the study included the Regional University Hospital Center of Nancy, the French Ministry of Solidarity and Health, and a public grant overseen by the French National Research Agency. The researchers had no financial conflicts to disclose.

Dr. Gulati, who serves on the editorial advisory board of MDedge Cardiology, had no financial conflicts to disclose.
 

If Willarda Edwards, MD, MBA, had won her 2022 campaign for president-elect of the American Medical Association (AMA), she would have been the second Black woman to head the group.

The AMA, however, accused her of vote trading. Now, the Baltimore internist and AMA trustee has sued the organization for defamation and conspiracy.

The lawsuit sheds light on the power dynamics of a politically potent organization that has more than 271,000 members and holds assets of $1.2 billion. The AMA president is one of the most visible figures in American medicine.

“The AMA impugned Dr. Edwards with these false charges, which destroyed her candidacy and irreparably damaged her reputation,” according to the complaint, which was filed Nov. 9, 2022, in Baltimore County Circuit Court. The case was later moved to federal court.

The AMA “previously rejected our attempt to resolve this matter without litigation,” Dr. Edwards’ attorney, Timothy Maloney, told this news organization. An AMA spokesman said the organization had no comment on Dr. Edwards’ suit.

Dr. Edwards is a past president of the National Medical Association, MedChi, the Baltimore City Medical Society, the Monumental City Medical Society, and the Sickle Cell Disease Association of America. She joined the AMA in 1994 and has served as a trustee since 2016.

As chair of the AMA Task Force on Health Equity, “she helped lead the way in consensus building and driving action that in 2019 resulted in the AMA House of Delegates establishing the AMA Center on Health Equity,” according to her AMA bio page.
 

‘Quid pro quo’ alleged

In June 2022, Dr. Edwards was one of three individuals running to be AMA president-elect.

According to Dr. Edwards’ complaint, she was “incorrectly advised by colleagues” that Virginia urologist William Reha, MD, had decided not to seek the AMA vice-speakership in 2023. This was important because both Dr. Edwards and Dr. Reha were in the Southeastern delegation. It could be in Dr. Edwards’ favor if Dr. Reha was not running, as it would mean one less leadership candidate from the same region.

Dr. Edwards called Dr. Reha on June 6 to discuss the matter. When they talked, Dr. Reha allegedly recorded the call without Dr. Edwards’ knowledge or permission – a felony in Maryland – and also steered her toward discussions about how his decision could benefit her campaign, according to the complaint.

The suit alleges that Dr. Reha’s questions were “clearly calculated to draw some statements by Dr. Edwards that he could use later to thwart her candidacy and to benefit her opponent.”

On June 10, at the AMA’s House of Delegates meeting in Chicago, Dr. Edwards was taken aside and questioned by members of the AMA’s Election Campaign Committee, according to the complaint. They accused her of “vote trading” but did not provide any evidence or a copy of a complaint they said had been filed against her, the suit said.

Dr. Edwards was given no opportunity to produce her own evidence or rebut the accusations, the suit alleges.

Just before the delegates started formal business on June 13, House Speaker Bruce Scott, MD, read a statement to the assembly saying that a complaint of a possible campaign violation had been filed against Dr. Edwards.

Dr. Scott told the delegates that “committee members interviewed the complainant and multiple other individuals said to have knowledge of the circumstances. In addition to conducting multiple interviews, the committee reviewed evidence that was deemed credible and corroborated that a campaign violation did in fact occur,” according to the complaint.

The supposed violation: A “quid pro quo” in which an unnamed delegation would support Dr. Edwards’ current candidacy, and the Southeastern delegation would support a future candidate from that other unnamed delegation.

Dr. Edwards was given a short opportunity to speak, in which she denied any violations.

According to a news report, Dr. Edwards said, “I’ve been in the House of Delegates for 30 years, and you know me as a process person – a person who truly believes in the process and trying to follow the complexities of our election campaign.”

The lawsuit alleges that “this defamatory conduct was repeated the next day to more than 600 delegates just minutes prior to the casting of votes, when Dr Scott repeated these allegations.”

Dr. Edwards lost the election.
 

AMA: Nothing more to add

The suit alleges that neither the Election Campaign Committee nor the AMA itself has made any accusers or complaints available to Dr. Edwards and that it has not provided any audio or written evidence of her alleged violation.

In July, the AMA’s Southeastern delegation told its membership, “We continue to maintain that Willarda was ‘set up’ ... The whole affair lacked any reasonable semblance of due process.”

The delegation has filed a counter claim against the AMA seeking “to address this lack of due process as well as the reputational harm” to the delegation.

The AMA said that it has nothing it can produce. “The Speaker of the House presented a verbal report to the attending delegates,” said a spokesman. “The Speaker’s report remains the only remarks from an AMA officer, and no additional remarks can be expected at this time.”

He added that there “is no official transcript of the Speaker’s report.”

A version of this article first appeared on Medscape.com.

If Willarda Edwards, MD, MBA, had won her 2022 campaign for president-elect of the American Medical Association (AMA), she would have been the second Black woman to head the group.

The AMA, however, accused her of vote trading. Now, the Baltimore internist and AMA trustee has sued the organization for defamation and conspiracy.

The lawsuit sheds light on the power dynamics of a politically potent organization that has more than 271,000 members and holds assets of $1.2 billion. The AMA president is one of the most visible figures in American medicine.

“The AMA impugned Dr. Edwards with these false charges, which destroyed her candidacy and irreparably damaged her reputation,” according to the complaint, which was filed Nov. 9, 2022, in Baltimore County Circuit Court. The case was later moved to federal court.

The AMA “previously rejected our attempt to resolve this matter without litigation,” Dr. Edwards’ attorney, Timothy Maloney, told this news organization. An AMA spokesman said the organization had no comment on Dr. Edwards’ suit.

Dr. Edwards is a past president of the National Medical Association, MedChi, the Baltimore City Medical Society, the Monumental City Medical Society, and the Sickle Cell Disease Association of America. She joined the AMA in 1994 and has served as a trustee since 2016.

As chair of the AMA Task Force on Health Equity, “she helped lead the way in consensus building and driving action that in 2019 resulted in the AMA House of Delegates establishing the AMA Center on Health Equity,” according to her AMA bio page.
 

‘Quid pro quo’ alleged

In June 2022, Dr. Edwards was one of three individuals running to be AMA president-elect.

According to Dr. Edwards’ complaint, she was “incorrectly advised by colleagues” that Virginia urologist William Reha, MD, had decided not to seek the AMA vice-speakership in 2023. This was important because both Dr. Edwards and Dr. Reha were in the Southeastern delegation. It could be in Dr. Edwards’ favor if Dr. Reha was not running, as it would mean one less leadership candidate from the same region.

Dr. Edwards called Dr. Reha on June 6 to discuss the matter. When they talked, Dr. Reha allegedly recorded the call without Dr. Edwards’ knowledge or permission – a felony in Maryland – and also steered her toward discussions about how his decision could benefit her campaign, according to the complaint.

The suit alleges that Dr. Reha’s questions were “clearly calculated to draw some statements by Dr. Edwards that he could use later to thwart her candidacy and to benefit her opponent.”

On June 10, at the AMA’s House of Delegates meeting in Chicago, Dr. Edwards was taken aside and questioned by members of the AMA’s Election Campaign Committee, according to the complaint. They accused her of “vote trading” but did not provide any evidence or a copy of a complaint they said had been filed against her, the suit said.

Dr. Edwards was given no opportunity to produce her own evidence or rebut the accusations, the suit alleges.

Just before the delegates started formal business on June 13, House Speaker Bruce Scott, MD, read a statement to the assembly saying that a complaint of a possible campaign violation had been filed against Dr. Edwards.

Dr. Scott told the delegates that “committee members interviewed the complainant and multiple other individuals said to have knowledge of the circumstances. In addition to conducting multiple interviews, the committee reviewed evidence that was deemed credible and corroborated that a campaign violation did in fact occur,” according to the complaint.

The supposed violation: A “quid pro quo” in which an unnamed delegation would support Dr. Edwards’ current candidacy, and the Southeastern delegation would support a future candidate from that other unnamed delegation.

Dr. Edwards was given a short opportunity to speak, in which she denied any violations.

According to a news report, Dr. Edwards said, “I’ve been in the House of Delegates for 30 years, and you know me as a process person – a person who truly believes in the process and trying to follow the complexities of our election campaign.”

The lawsuit alleges that “this defamatory conduct was repeated the next day to more than 600 delegates just minutes prior to the casting of votes, when Dr Scott repeated these allegations.”

Dr. Edwards lost the election.
 

AMA: Nothing more to add

The suit alleges that neither the Election Campaign Committee nor the AMA itself has made any accusers or complaints available to Dr. Edwards and that it has not provided any audio or written evidence of her alleged violation.

In July, the AMA’s Southeastern delegation told its membership, “We continue to maintain that Willarda was ‘set up’ ... The whole affair lacked any reasonable semblance of due process.”

The delegation has filed a counter claim against the AMA seeking “to address this lack of due process as well as the reputational harm” to the delegation.

The AMA said that it has nothing it can produce. “The Speaker of the House presented a verbal report to the attending delegates,” said a spokesman. “The Speaker’s report remains the only remarks from an AMA officer, and no additional remarks can be expected at this time.”

He added that there “is no official transcript of the Speaker’s report.”

A version of this article first appeared on Medscape.com.

If Willarda Edwards, MD, MBA, had won her 2022 campaign for president-elect of the American Medical Association (AMA), she would have been the second Black woman to head the group.

The AMA, however, accused her of vote trading. Now, the Baltimore internist and AMA trustee has sued the organization for defamation and conspiracy.

The lawsuit sheds light on the power dynamics of a politically potent organization that has more than 271,000 members and holds assets of $1.2 billion. The AMA president is one of the most visible figures in American medicine.

“The AMA impugned Dr. Edwards with these false charges, which destroyed her candidacy and irreparably damaged her reputation,” according to the complaint, which was filed Nov. 9, 2022, in Baltimore County Circuit Court. The case was later moved to federal court.

The AMA “previously rejected our attempt to resolve this matter without litigation,” Dr. Edwards’ attorney, Timothy Maloney, told this news organization. An AMA spokesman said the organization had no comment on Dr. Edwards’ suit.

Dr. Edwards is a past president of the National Medical Association, MedChi, the Baltimore City Medical Society, the Monumental City Medical Society, and the Sickle Cell Disease Association of America. She joined the AMA in 1994 and has served as a trustee since 2016.

As chair of the AMA Task Force on Health Equity, “she helped lead the way in consensus building and driving action that in 2019 resulted in the AMA House of Delegates establishing the AMA Center on Health Equity,” according to her AMA bio page.
 

‘Quid pro quo’ alleged

In June 2022, Dr. Edwards was one of three individuals running to be AMA president-elect.

According to Dr. Edwards’ complaint, she was “incorrectly advised by colleagues” that Virginia urologist William Reha, MD, had decided not to seek the AMA vice-speakership in 2023. This was important because both Dr. Edwards and Dr. Reha were in the Southeastern delegation. It could be in Dr. Edwards’ favor if Dr. Reha was not running, as it would mean one less leadership candidate from the same region.

Dr. Edwards called Dr. Reha on June 6 to discuss the matter. When they talked, Dr. Reha allegedly recorded the call without Dr. Edwards’ knowledge or permission – a felony in Maryland – and also steered her toward discussions about how his decision could benefit her campaign, according to the complaint.

The suit alleges that Dr. Reha’s questions were “clearly calculated to draw some statements by Dr. Edwards that he could use later to thwart her candidacy and to benefit her opponent.”

On June 10, at the AMA’s House of Delegates meeting in Chicago, Dr. Edwards was taken aside and questioned by members of the AMA’s Election Campaign Committee, according to the complaint. They accused her of “vote trading” but did not provide any evidence or a copy of a complaint they said had been filed against her, the suit said.

Dr. Edwards was given no opportunity to produce her own evidence or rebut the accusations, the suit alleges.

Just before the delegates started formal business on June 13, House Speaker Bruce Scott, MD, read a statement to the assembly saying that a complaint of a possible campaign violation had been filed against Dr. Edwards.

Dr. Scott told the delegates that “committee members interviewed the complainant and multiple other individuals said to have knowledge of the circumstances. In addition to conducting multiple interviews, the committee reviewed evidence that was deemed credible and corroborated that a campaign violation did in fact occur,” according to the complaint.

The supposed violation: A “quid pro quo” in which an unnamed delegation would support Dr. Edwards’ current candidacy, and the Southeastern delegation would support a future candidate from that other unnamed delegation.

Dr. Edwards was given a short opportunity to speak, in which she denied any violations.

According to a news report, Dr. Edwards said, “I’ve been in the House of Delegates for 30 years, and you know me as a process person – a person who truly believes in the process and trying to follow the complexities of our election campaign.”

The lawsuit alleges that “this defamatory conduct was repeated the next day to more than 600 delegates just minutes prior to the casting of votes, when Dr Scott repeated these allegations.”

Dr. Edwards lost the election.
 

AMA: Nothing more to add

The suit alleges that neither the Election Campaign Committee nor the AMA itself has made any accusers or complaints available to Dr. Edwards and that it has not provided any audio or written evidence of her alleged violation.

In July, the AMA’s Southeastern delegation told its membership, “We continue to maintain that Willarda was ‘set up’ ... The whole affair lacked any reasonable semblance of due process.”

The delegation has filed a counter claim against the AMA seeking “to address this lack of due process as well as the reputational harm” to the delegation.

The AMA said that it has nothing it can produce. “The Speaker of the House presented a verbal report to the attending delegates,” said a spokesman. “The Speaker’s report remains the only remarks from an AMA officer, and no additional remarks can be expected at this time.”

He added that there “is no official transcript of the Speaker’s report.”

A version of this article first appeared on Medscape.com.

The same devices used to take selfies and type out tweets are being repurposed and commercialized for quick access to information needed for monitoring a patient’s health. A fingertip pressed against a phone’s camera lens can measure a heart rate. The microphone, kept by the bedside, can screen for sleep apnea. Even the speaker is being tapped, to monitor breathing using sonar technology.

In the best of this new world, the data is conveyed remotely to a medical professional for the convenience and comfort of the patient or, in some cases, to support a clinician without the need for costly hardware.

But using smartphones as diagnostic tools is a work in progress, experts say. Although doctors and their patients have found some real-world success in deploying the phone as a medical device, the overall potential remains unfulfilled and uncertain.

Smartphones come packed with sensors capable of monitoring a patient’s vital signs. They can help assess people for concussions, watch for atrial fibrillation, and conduct mental health wellness checks, to name the uses of a few nascent applications.

Companies and researchers eager to find medical applications for smartphone technology are tapping into modern phones’ built-in cameras and light sensors; microphones; accelerometers, which detect body movements; gyroscopes; and even speakers. The apps then use artificial intelligence software to analyze the collected sights and sounds to create an easy connection between patients and physicians. Earning potential and marketability are evidenced by the more than 350,000 digital health products available in app stores, according to a Grand View Research report.

“It’s very hard to put devices into the patient home or in the hospital, but everybody is just walking around with a cellphone that has a network connection,” said Dr. Andrew Gostine, CEO of the sensor network company Artisight. Most Americans own a smartphone, including more than 60% of people 65 and over, an increase from just 13% a decade ago, according the Pew Research Center. The COVID-19 pandemic has also pushed people to become more comfortable with virtual care.

Some of these products have sought FDA clearance to be marketed as a medical device. That way, if patients must pay to use the software, health insurers are more likely to cover at least part of the cost. Other products are designated as exempt from this regulatory process, placed in the same clinical classification as a Band-Aid. But how the agency handles AI and machine learning–based medical devices is still being adjusted to reflect software’s adaptive nature.

Ensuring accuracy and clinical validation is crucial to securing buy-in from health care providers. And many tools still need fine-tuning, said Eugene Yang, MD, a professor of medicine at the University of Washington, Seattle. Currently, Dr. Yang is testing contactless measurement of blood pressure, heart rate, and oxygen saturation gleaned remotely via Zoom camera footage of a patient’s face.

Judging these new technologies is difficult because they rely on algorithms built by machine learning and artificial intelligence to collect data, rather than the physical tools typically used in hospitals. So researchers cannot “compare apples to apples” with medical industry standards, Dr. Yang said. Failure to build in such assurances undermines the technology’s ultimate goals of easing costs and access because a doctor still must verify results.

“False positives and false negatives lead to more testing and more cost to the health care system,” he said.

Big tech companies like Google have heavily invested in researching this kind of technology, catering to clinicians and in-home caregivers, as well as consumers. Currently, in the Google Fit app, users can check their heart rate by placing their finger on the rear-facing camera lens or track their breathing rate using the front-facing camera.

“If you took the sensor out of the phone and out of a clinical device, they are probably the same thing,” said Shwetak Patel, director of health technologies at Google and a professor of electrical and computer engineering at the University of Washington.

Google’s research uses machine learning and computer vision, a field within AI based on information from visual inputs like videos or images. So instead of using a blood pressure cuff, for example, the algorithm can interpret slight visual changes to the body that serve as proxies and biosignals for a patient’s blood pressure, Mr. Patel said.

Google is also investigating the effectiveness of the built-in microphone for detecting heartbeats and murmurs and using the camera to preserve eyesight by screening for diabetic eye disease, according to information the company published last year.

The tech giant recently purchased Sound Life Sciences, a Seattle startup with an FDA-cleared sonar technology app. It uses a smart device’s speaker to bounce inaudible pulses off a patient’s body to identify movement and monitor breathing.

Binah.ai, based in Israel, is another company using the smartphone camera to calculate vital signs. Its software looks at the region around the eyes, where the skin is a bit thinner, and analyzes the light reflecting off blood vessels back to the lens. The company is wrapping up a U.S. clinical trial and marketing its wellness app directly to insurers and other health companies, said company spokesperson Mona Popilian-Yona.

The applications even reach into disciplines such as optometry and mental health:

• With the microphone, Canary Speech uses the same underlying technology as Amazon’s Alexa to analyze patients’ voices for mental health conditions. The software can integrate with telemedicine appointments and allow clinicians to screen for anxiety and depression using a library of vocal biomarkers and predictive analytics, said Henry O’Connell, the company’s CEO.
• Australia-based ResApp Health last year for its iPhone app that screens for moderate to severe obstructive sleep apnea by listening to breathing and snoring. SleepCheckRx, which will require a prescription, is minimally invasive compared with sleep studies currently used to diagnose sleep apnea. Those can cost thousands of dollars and require an array of tests.
• Brightlamp’s Reflex app is a clinical decision support tool for helping manage concussions and vision rehabilitation, among other things. Using an iPad’s or iPhone’s camera, the mobile app measures how a person’s pupils react to changes in light. Through machine learning analysis, the imagery gives practitioners data points for evaluating patients. Brightlamp sells directly to health care providers and is being used in more than 230 clinics. Clinicians pay a $400 standard annual fee per account, which is currently not covered by insurance. The Department of Defense has an ongoing clinical trial using Reflex.

In some cases, such as with the Reflex app, the data is processed directly on the phone – rather than in the cloud, Brightlamp CEO Kurtis Sluss said. By processing everything on the device, the app avoids running into privacy issues, as streaming data elsewhere requires patient consent.

But algorithms need to be trained and tested by collecting reams of data, and that is an ongoing process.

Researchers, for example, have found that some computer vision applications, like heart rate or blood pressure monitoring, can be less accurate for darker skin. Studies are underway to find better solutions.

Small algorithm glitches can also produce false alarms and frighten patients enough to keep widespread adoption out of reach. For example, Apple’s new car-crash detection feature, available on both the latest iPhone and Apple Watch, was set off when people were riding roller coasters and automatically dialed 911.

“We’re not there yet,” Dr. Yang said. “That’s the bottom line.”
 

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

The same devices used to take selfies and type out tweets are being repurposed and commercialized for quick access to information needed for monitoring a patient’s health. A fingertip pressed against a phone’s camera lens can measure a heart rate. The microphone, kept by the bedside, can screen for sleep apnea. Even the speaker is being tapped, to monitor breathing using sonar technology.

In the best of this new world, the data is conveyed remotely to a medical professional for the convenience and comfort of the patient or, in some cases, to support a clinician without the need for costly hardware.

But using smartphones as diagnostic tools is a work in progress, experts say. Although doctors and their patients have found some real-world success in deploying the phone as a medical device, the overall potential remains unfulfilled and uncertain.

Smartphones come packed with sensors capable of monitoring a patient’s vital signs. They can help assess people for concussions, watch for atrial fibrillation, and conduct mental health wellness checks, to name the uses of a few nascent applications.

Companies and researchers eager to find medical applications for smartphone technology are tapping into modern phones’ built-in cameras and light sensors; microphones; accelerometers, which detect body movements; gyroscopes; and even speakers. The apps then use artificial intelligence software to analyze the collected sights and sounds to create an easy connection between patients and physicians. Earning potential and marketability are evidenced by the more than 350,000 digital health products available in app stores, according to a Grand View Research report.

“It’s very hard to put devices into the patient home or in the hospital, but everybody is just walking around with a cellphone that has a network connection,” said Dr. Andrew Gostine, CEO of the sensor network company Artisight. Most Americans own a smartphone, including more than 60% of people 65 and over, an increase from just 13% a decade ago, according the Pew Research Center. The COVID-19 pandemic has also pushed people to become more comfortable with virtual care.

Some of these products have sought FDA clearance to be marketed as a medical device. That way, if patients must pay to use the software, health insurers are more likely to cover at least part of the cost. Other products are designated as exempt from this regulatory process, placed in the same clinical classification as a Band-Aid. But how the agency handles AI and machine learning–based medical devices is still being adjusted to reflect software’s adaptive nature.

Ensuring accuracy and clinical validation is crucial to securing buy-in from health care providers. And many tools still need fine-tuning, said Eugene Yang, MD, a professor of medicine at the University of Washington, Seattle. Currently, Dr. Yang is testing contactless measurement of blood pressure, heart rate, and oxygen saturation gleaned remotely via Zoom camera footage of a patient’s face.

Judging these new technologies is difficult because they rely on algorithms built by machine learning and artificial intelligence to collect data, rather than the physical tools typically used in hospitals. So researchers cannot “compare apples to apples” with medical industry standards, Dr. Yang said. Failure to build in such assurances undermines the technology’s ultimate goals of easing costs and access because a doctor still must verify results.

“False positives and false negatives lead to more testing and more cost to the health care system,” he said.

Big tech companies like Google have heavily invested in researching this kind of technology, catering to clinicians and in-home caregivers, as well as consumers. Currently, in the Google Fit app, users can check their heart rate by placing their finger on the rear-facing camera lens or track their breathing rate using the front-facing camera.

“If you took the sensor out of the phone and out of a clinical device, they are probably the same thing,” said Shwetak Patel, director of health technologies at Google and a professor of electrical and computer engineering at the University of Washington.

Google’s research uses machine learning and computer vision, a field within AI based on information from visual inputs like videos or images. So instead of using a blood pressure cuff, for example, the algorithm can interpret slight visual changes to the body that serve as proxies and biosignals for a patient’s blood pressure, Mr. Patel said.

Google is also investigating the effectiveness of the built-in microphone for detecting heartbeats and murmurs and using the camera to preserve eyesight by screening for diabetic eye disease, according to information the company published last year.

The tech giant recently purchased Sound Life Sciences, a Seattle startup with an FDA-cleared sonar technology app. It uses a smart device’s speaker to bounce inaudible pulses off a patient’s body to identify movement and monitor breathing.

Binah.ai, based in Israel, is another company using the smartphone camera to calculate vital signs. Its software looks at the region around the eyes, where the skin is a bit thinner, and analyzes the light reflecting off blood vessels back to the lens. The company is wrapping up a U.S. clinical trial and marketing its wellness app directly to insurers and other health companies, said company spokesperson Mona Popilian-Yona.

The applications even reach into disciplines such as optometry and mental health:

• With the microphone, Canary Speech uses the same underlying technology as Amazon’s Alexa to analyze patients’ voices for mental health conditions. The software can integrate with telemedicine appointments and allow clinicians to screen for anxiety and depression using a library of vocal biomarkers and predictive analytics, said Henry O’Connell, the company’s CEO.
• Australia-based ResApp Health last year for its iPhone app that screens for moderate to severe obstructive sleep apnea by listening to breathing and snoring. SleepCheckRx, which will require a prescription, is minimally invasive compared with sleep studies currently used to diagnose sleep apnea. Those can cost thousands of dollars and require an array of tests.
• Brightlamp’s Reflex app is a clinical decision support tool for helping manage concussions and vision rehabilitation, among other things. Using an iPad’s or iPhone’s camera, the mobile app measures how a person’s pupils react to changes in light. Through machine learning analysis, the imagery gives practitioners data points for evaluating patients. Brightlamp sells directly to health care providers and is being used in more than 230 clinics. Clinicians pay a $400 standard annual fee per account, which is currently not covered by insurance. The Department of Defense has an ongoing clinical trial using Reflex.

In some cases, such as with the Reflex app, the data is processed directly on the phone – rather than in the cloud, Brightlamp CEO Kurtis Sluss said. By processing everything on the device, the app avoids running into privacy issues, as streaming data elsewhere requires patient consent.

But algorithms need to be trained and tested by collecting reams of data, and that is an ongoing process.

Researchers, for example, have found that some computer vision applications, like heart rate or blood pressure monitoring, can be less accurate for darker skin. Studies are underway to find better solutions.

Small algorithm glitches can also produce false alarms and frighten patients enough to keep widespread adoption out of reach. For example, Apple’s new car-crash detection feature, available on both the latest iPhone and Apple Watch, was set off when people were riding roller coasters and automatically dialed 911.

“We’re not there yet,” Dr. Yang said. “That’s the bottom line.”
 

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

The same devices used to take selfies and type out tweets are being repurposed and commercialized for quick access to information needed for monitoring a patient’s health. A fingertip pressed against a phone’s camera lens can measure a heart rate. The microphone, kept by the bedside, can screen for sleep apnea. Even the speaker is being tapped, to monitor breathing using sonar technology.

In the best of this new world, the data is conveyed remotely to a medical professional for the convenience and comfort of the patient or, in some cases, to support a clinician without the need for costly hardware.

But using smartphones as diagnostic tools is a work in progress, experts say. Although doctors and their patients have found some real-world success in deploying the phone as a medical device, the overall potential remains unfulfilled and uncertain.

Smartphones come packed with sensors capable of monitoring a patient’s vital signs. They can help assess people for concussions, watch for atrial fibrillation, and conduct mental health wellness checks, to name the uses of a few nascent applications.

Companies and researchers eager to find medical applications for smartphone technology are tapping into modern phones’ built-in cameras and light sensors; microphones; accelerometers, which detect body movements; gyroscopes; and even speakers. The apps then use artificial intelligence software to analyze the collected sights and sounds to create an easy connection between patients and physicians. Earning potential and marketability are evidenced by the more than 350,000 digital health products available in app stores, according to a Grand View Research report.

“It’s very hard to put devices into the patient home or in the hospital, but everybody is just walking around with a cellphone that has a network connection,” said Dr. Andrew Gostine, CEO of the sensor network company Artisight. Most Americans own a smartphone, including more than 60% of people 65 and over, an increase from just 13% a decade ago, according the Pew Research Center. The COVID-19 pandemic has also pushed people to become more comfortable with virtual care.

Some of these products have sought FDA clearance to be marketed as a medical device. That way, if patients must pay to use the software, health insurers are more likely to cover at least part of the cost. Other products are designated as exempt from this regulatory process, placed in the same clinical classification as a Band-Aid. But how the agency handles AI and machine learning–based medical devices is still being adjusted to reflect software’s adaptive nature.

Ensuring accuracy and clinical validation is crucial to securing buy-in from health care providers. And many tools still need fine-tuning, said Eugene Yang, MD, a professor of medicine at the University of Washington, Seattle. Currently, Dr. Yang is testing contactless measurement of blood pressure, heart rate, and oxygen saturation gleaned remotely via Zoom camera footage of a patient’s face.

Judging these new technologies is difficult because they rely on algorithms built by machine learning and artificial intelligence to collect data, rather than the physical tools typically used in hospitals. So researchers cannot “compare apples to apples” with medical industry standards, Dr. Yang said. Failure to build in such assurances undermines the technology’s ultimate goals of easing costs and access because a doctor still must verify results.

“False positives and false negatives lead to more testing and more cost to the health care system,” he said.

Big tech companies like Google have heavily invested in researching this kind of technology, catering to clinicians and in-home caregivers, as well as consumers. Currently, in the Google Fit app, users can check their heart rate by placing their finger on the rear-facing camera lens or track their breathing rate using the front-facing camera.

“If you took the sensor out of the phone and out of a clinical device, they are probably the same thing,” said Shwetak Patel, director of health technologies at Google and a professor of electrical and computer engineering at the University of Washington.

Google’s research uses machine learning and computer vision, a field within AI based on information from visual inputs like videos or images. So instead of using a blood pressure cuff, for example, the algorithm can interpret slight visual changes to the body that serve as proxies and biosignals for a patient’s blood pressure, Mr. Patel said.

Google is also investigating the effectiveness of the built-in microphone for detecting heartbeats and murmurs and using the camera to preserve eyesight by screening for diabetic eye disease, according to information the company published last year.

The tech giant recently purchased Sound Life Sciences, a Seattle startup with an FDA-cleared sonar technology app. It uses a smart device’s speaker to bounce inaudible pulses off a patient’s body to identify movement and monitor breathing.

Binah.ai, based in Israel, is another company using the smartphone camera to calculate vital signs. Its software looks at the region around the eyes, where the skin is a bit thinner, and analyzes the light reflecting off blood vessels back to the lens. The company is wrapping up a U.S. clinical trial and marketing its wellness app directly to insurers and other health companies, said company spokesperson Mona Popilian-Yona.

The applications even reach into disciplines such as optometry and mental health:

• With the microphone, Canary Speech uses the same underlying technology as Amazon’s Alexa to analyze patients’ voices for mental health conditions. The software can integrate with telemedicine appointments and allow clinicians to screen for anxiety and depression using a library of vocal biomarkers and predictive analytics, said Henry O’Connell, the company’s CEO.
• Australia-based ResApp Health last year for its iPhone app that screens for moderate to severe obstructive sleep apnea by listening to breathing and snoring. SleepCheckRx, which will require a prescription, is minimally invasive compared with sleep studies currently used to diagnose sleep apnea. Those can cost thousands of dollars and require an array of tests.
• Brightlamp’s Reflex app is a clinical decision support tool for helping manage concussions and vision rehabilitation, among other things. Using an iPad’s or iPhone’s camera, the mobile app measures how a person’s pupils react to changes in light. Through machine learning analysis, the imagery gives practitioners data points for evaluating patients. Brightlamp sells directly to health care providers and is being used in more than 230 clinics. Clinicians pay a $400 standard annual fee per account, which is currently not covered by insurance. The Department of Defense has an ongoing clinical trial using Reflex.

In some cases, such as with the Reflex app, the data is processed directly on the phone – rather than in the cloud, Brightlamp CEO Kurtis Sluss said. By processing everything on the device, the app avoids running into privacy issues, as streaming data elsewhere requires patient consent.

But algorithms need to be trained and tested by collecting reams of data, and that is an ongoing process.

Researchers, for example, have found that some computer vision applications, like heart rate or blood pressure monitoring, can be less accurate for darker skin. Studies are underway to find better solutions.

Small algorithm glitches can also produce false alarms and frighten patients enough to keep widespread adoption out of reach. For example, Apple’s new car-crash detection feature, available on both the latest iPhone and Apple Watch, was set off when people were riding roller coasters and automatically dialed 911.

“We’re not there yet,” Dr. Yang said. “That’s the bottom line.”
 

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

A new study has identified differences in the brain present in patients with the cardiac disorder Takotsubo syndrome versus control scans, which may lead to new therapeutic targets.

Takotsubo syndrome is an acute heart failure cardiomyopathy mimicking an acute myocardial infarction in its presentation, but on investigation, no obstructive coronary disease is present. The syndrome, which mainly affects women, typically occurs in the aftermath of intense emotional or physical stress and has become known as “broken heart syndrome.”

The mechanism by which emotional processing in the context of stress leads to significant cardiac injury and acute left ventricular dysfunction is not understood. So, the current study examined both structural and functional effects in the brain in patients with Takotsubo syndrome to shed more light on the issue.

“The abnormalities in the thalamus-amygdala-insula and basal ganglia support the concept of involvement of higher-level function centers in Takotsubo syndrome, and interventions aimed at modulating these may be of benefit,” the authors conclude.

The study was published online in JACC: Heart Failure.

Lead author Hilal Khan, MB BCh, BAO, from the University of Aberdeen (Scotland), explained to this news organization that patients with Takotsubo syndrome have a substantial drop in heart function and show an apical ballooning of the heart.

It is a relatively newly defined condition and was first described in 1990 in Japan, and so named because the heart was thought to resemble the Takotsubo pot used by Japanese fishermen to trap octopus.

Although uncommon, the condition is not rare. Dr. Khan estimates that about 1 in 20 women with suspected MI turn out to have Takotsubo syndrome, with cases increasing in times of global stress such as in the recent pandemic.

While patients tend to recover in a few weeks and the pumping function of the heart usually returns to normal, there are some long-term cardiac complications including a reduction in global longitudinal strain, and patients have similar long-term outcomes as those with MI.  

“It is believed that these cardiac changes may be triggered by changes in the brain caused by emotional stress, so we wanted to look at this more closely,” Dr. Khan said.  

There have been a couple of studies published previously looking at brain changes in Takotsubo syndrome, but they haven’t reported patients in the acute stage of the condition and they haven’t compared the patients to controls, he noted.

For the current study, the researchers looked at brain scans for 25 acute Takotsubo patients and in 25 controls matched for age, gender, comorbidities, and medications. All the patients and controls were examined using the same MRI scanner in the same hospital.

“This is the largest structural and functional brain study of acute Takotsubo syndrome patients compared with matched control subjects,” Dr. Khan said.

The researchers looked at many different factors including brain volume in different regions, cortical thickness, small-vessel disease, and functional and structural connectivity to try and obtain a complete holistic view of the brain.

Key findings were that patients with Takotsubo syndrome had smaller brain volumes, compared with matched controls, driven by a reduction in brain surface area. In contrast, the insula and thalamus regions were larger.

“A reduction in brain volume could be caused by inflammation; this is often seen in depression,” Dr. Khan commented.  

The researchers also found that certain areas of the brain had a reduction in functional connectivity, particularly the thalamus – the central autonomic area of the brain, which regulates the autonomic nervous system – and also the insula region, which is also involved in the autonomic regulation of the heart.

They suggest that there may be a loss of parasympathetic inhibition in Takotsubo syndrome, which would fit the theory that Takotsubo brings with it a surge of catecholamines, which could injure the heart.

Reduced functional connectivity was also seen in parts of the basal ganglia, abnormalities of which have been associated with an increased risk of both arrhythmias, and in the amygdala, similar to patients with a tendency to catastrophize events.

The other observation was that there appeared to be an increase in structural connectivity in certain areas of the brain. 

“Structural pathways seem to be increased but functional connectivity was reduced, so while physical pathways are enhanced, they don’t seem to be doing anything,” Dr. Khan said. “We don’t know why this occurs, or if this has happened over time and made the brain and heart more vulnerable in some way.”

One possibility is that ,under a significant emotional stress, the brain may divert function from some areas to others to be able to cope, and that this results in reduced functioning in areas of the brain responsible for regulating the heart, Dr. Khan suggested.  

“We believe this study confirms that the brain is involved in Takotsubo syndrome, and we have identified markers in the brain that may be contributing to the condition,” he said.

The researchers are planning to further study these markers and whether it might be possible to modulate these changes with various interventions such as exercise or mindfulness.

“We believe there is some interface between the brain changes and the impact on the heart. We don’t think it is just the release of catecholamines that causes damage to the heart. We think there is something else happening as well,” Dr. Khan commented.  

It is also possible that the hearts of patients with Takotsubo syndrome are predisposed in some way and more vulnerable to this condition occurring. 

“It will be important to obtain a greater understanding of the triggers and identify people who may be vulnerable,” Dr. Khan noted. “Around 10% of individuals who experience Takotsubo syndrome will have a recurrence, so we need to try and develop preventative strategies to reduce this.”

He suggested that possible preventive or therapeutic approaches may involve interventions such as exercise or mindfulness.

This work was supported by National Health Service Grampian Endowment. The authors report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

A new study has identified differences in the brain present in patients with the cardiac disorder Takotsubo syndrome versus control scans, which may lead to new therapeutic targets.

Takotsubo syndrome is an acute heart failure cardiomyopathy mimicking an acute myocardial infarction in its presentation, but on investigation, no obstructive coronary disease is present. The syndrome, which mainly affects women, typically occurs in the aftermath of intense emotional or physical stress and has become known as “broken heart syndrome.”

The mechanism by which emotional processing in the context of stress leads to significant cardiac injury and acute left ventricular dysfunction is not understood. So, the current study examined both structural and functional effects in the brain in patients with Takotsubo syndrome to shed more light on the issue.

“The abnormalities in the thalamus-amygdala-insula and basal ganglia support the concept of involvement of higher-level function centers in Takotsubo syndrome, and interventions aimed at modulating these may be of benefit,” the authors conclude.

The study was published online in JACC: Heart Failure.

Lead author Hilal Khan, MB BCh, BAO, from the University of Aberdeen (Scotland), explained to this news organization that patients with Takotsubo syndrome have a substantial drop in heart function and show an apical ballooning of the heart.

It is a relatively newly defined condition and was first described in 1990 in Japan, and so named because the heart was thought to resemble the Takotsubo pot used by Japanese fishermen to trap octopus.

Although uncommon, the condition is not rare. Dr. Khan estimates that about 1 in 20 women with suspected MI turn out to have Takotsubo syndrome, with cases increasing in times of global stress such as in the recent pandemic.

While patients tend to recover in a few weeks and the pumping function of the heart usually returns to normal, there are some long-term cardiac complications including a reduction in global longitudinal strain, and patients have similar long-term outcomes as those with MI.  

“It is believed that these cardiac changes may be triggered by changes in the brain caused by emotional stress, so we wanted to look at this more closely,” Dr. Khan said.  

There have been a couple of studies published previously looking at brain changes in Takotsubo syndrome, but they haven’t reported patients in the acute stage of the condition and they haven’t compared the patients to controls, he noted.

For the current study, the researchers looked at brain scans for 25 acute Takotsubo patients and in 25 controls matched for age, gender, comorbidities, and medications. All the patients and controls were examined using the same MRI scanner in the same hospital.

“This is the largest structural and functional brain study of acute Takotsubo syndrome patients compared with matched control subjects,” Dr. Khan said.

The researchers looked at many different factors including brain volume in different regions, cortical thickness, small-vessel disease, and functional and structural connectivity to try and obtain a complete holistic view of the brain.

Key findings were that patients with Takotsubo syndrome had smaller brain volumes, compared with matched controls, driven by a reduction in brain surface area. In contrast, the insula and thalamus regions were larger.

“A reduction in brain volume could be caused by inflammation; this is often seen in depression,” Dr. Khan commented.  

The researchers also found that certain areas of the brain had a reduction in functional connectivity, particularly the thalamus – the central autonomic area of the brain, which regulates the autonomic nervous system – and also the insula region, which is also involved in the autonomic regulation of the heart.

They suggest that there may be a loss of parasympathetic inhibition in Takotsubo syndrome, which would fit the theory that Takotsubo brings with it a surge of catecholamines, which could injure the heart.

Reduced functional connectivity was also seen in parts of the basal ganglia, abnormalities of which have been associated with an increased risk of both arrhythmias, and in the amygdala, similar to patients with a tendency to catastrophize events.

The other observation was that there appeared to be an increase in structural connectivity in certain areas of the brain. 

“Structural pathways seem to be increased but functional connectivity was reduced, so while physical pathways are enhanced, they don’t seem to be doing anything,” Dr. Khan said. “We don’t know why this occurs, or if this has happened over time and made the brain and heart more vulnerable in some way.”

One possibility is that ,under a significant emotional stress, the brain may divert function from some areas to others to be able to cope, and that this results in reduced functioning in areas of the brain responsible for regulating the heart, Dr. Khan suggested.  

“We believe this study confirms that the brain is involved in Takotsubo syndrome, and we have identified markers in the brain that may be contributing to the condition,” he said.

The researchers are planning to further study these markers and whether it might be possible to modulate these changes with various interventions such as exercise or mindfulness.

“We believe there is some interface between the brain changes and the impact on the heart. We don’t think it is just the release of catecholamines that causes damage to the heart. We think there is something else happening as well,” Dr. Khan commented.  

It is also possible that the hearts of patients with Takotsubo syndrome are predisposed in some way and more vulnerable to this condition occurring. 

“It will be important to obtain a greater understanding of the triggers and identify people who may be vulnerable,” Dr. Khan noted. “Around 10% of individuals who experience Takotsubo syndrome will have a recurrence, so we need to try and develop preventative strategies to reduce this.”

He suggested that possible preventive or therapeutic approaches may involve interventions such as exercise or mindfulness.

This work was supported by National Health Service Grampian Endowment. The authors report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

A new study has identified differences in the brain present in patients with the cardiac disorder Takotsubo syndrome versus control scans, which may lead to new therapeutic targets.

Takotsubo syndrome is an acute heart failure cardiomyopathy mimicking an acute myocardial infarction in its presentation, but on investigation, no obstructive coronary disease is present. The syndrome, which mainly affects women, typically occurs in the aftermath of intense emotional or physical stress and has become known as “broken heart syndrome.”

The mechanism by which emotional processing in the context of stress leads to significant cardiac injury and acute left ventricular dysfunction is not understood. So, the current study examined both structural and functional effects in the brain in patients with Takotsubo syndrome to shed more light on the issue.

“The abnormalities in the thalamus-amygdala-insula and basal ganglia support the concept of involvement of higher-level function centers in Takotsubo syndrome, and interventions aimed at modulating these may be of benefit,” the authors conclude.

The study was published online in JACC: Heart Failure.

Lead author Hilal Khan, MB BCh, BAO, from the University of Aberdeen (Scotland), explained to this news organization that patients with Takotsubo syndrome have a substantial drop in heart function and show an apical ballooning of the heart.

It is a relatively newly defined condition and was first described in 1990 in Japan, and so named because the heart was thought to resemble the Takotsubo pot used by Japanese fishermen to trap octopus.

Although uncommon, the condition is not rare. Dr. Khan estimates that about 1 in 20 women with suspected MI turn out to have Takotsubo syndrome, with cases increasing in times of global stress such as in the recent pandemic.

While patients tend to recover in a few weeks and the pumping function of the heart usually returns to normal, there are some long-term cardiac complications including a reduction in global longitudinal strain, and patients have similar long-term outcomes as those with MI.  

“It is believed that these cardiac changes may be triggered by changes in the brain caused by emotional stress, so we wanted to look at this more closely,” Dr. Khan said.  

There have been a couple of studies published previously looking at brain changes in Takotsubo syndrome, but they haven’t reported patients in the acute stage of the condition and they haven’t compared the patients to controls, he noted.

For the current study, the researchers looked at brain scans for 25 acute Takotsubo patients and in 25 controls matched for age, gender, comorbidities, and medications. All the patients and controls were examined using the same MRI scanner in the same hospital.

“This is the largest structural and functional brain study of acute Takotsubo syndrome patients compared with matched control subjects,” Dr. Khan said.

The researchers looked at many different factors including brain volume in different regions, cortical thickness, small-vessel disease, and functional and structural connectivity to try and obtain a complete holistic view of the brain.

Key findings were that patients with Takotsubo syndrome had smaller brain volumes, compared with matched controls, driven by a reduction in brain surface area. In contrast, the insula and thalamus regions were larger.

“A reduction in brain volume could be caused by inflammation; this is often seen in depression,” Dr. Khan commented.  

The researchers also found that certain areas of the brain had a reduction in functional connectivity, particularly the thalamus – the central autonomic area of the brain, which regulates the autonomic nervous system – and also the insula region, which is also involved in the autonomic regulation of the heart.

They suggest that there may be a loss of parasympathetic inhibition in Takotsubo syndrome, which would fit the theory that Takotsubo brings with it a surge of catecholamines, which could injure the heart.

Reduced functional connectivity was also seen in parts of the basal ganglia, abnormalities of which have been associated with an increased risk of both arrhythmias, and in the amygdala, similar to patients with a tendency to catastrophize events.

The other observation was that there appeared to be an increase in structural connectivity in certain areas of the brain. 

“Structural pathways seem to be increased but functional connectivity was reduced, so while physical pathways are enhanced, they don’t seem to be doing anything,” Dr. Khan said. “We don’t know why this occurs, or if this has happened over time and made the brain and heart more vulnerable in some way.”

One possibility is that ,under a significant emotional stress, the brain may divert function from some areas to others to be able to cope, and that this results in reduced functioning in areas of the brain responsible for regulating the heart, Dr. Khan suggested.  

“We believe this study confirms that the brain is involved in Takotsubo syndrome, and we have identified markers in the brain that may be contributing to the condition,” he said.

The researchers are planning to further study these markers and whether it might be possible to modulate these changes with various interventions such as exercise or mindfulness.

“We believe there is some interface between the brain changes and the impact on the heart. We don’t think it is just the release of catecholamines that causes damage to the heart. We think there is something else happening as well,” Dr. Khan commented.  

It is also possible that the hearts of patients with Takotsubo syndrome are predisposed in some way and more vulnerable to this condition occurring. 

“It will be important to obtain a greater understanding of the triggers and identify people who may be vulnerable,” Dr. Khan noted. “Around 10% of individuals who experience Takotsubo syndrome will have a recurrence, so we need to try and develop preventative strategies to reduce this.”

He suggested that possible preventive or therapeutic approaches may involve interventions such as exercise or mindfulness.

This work was supported by National Health Service Grampian Endowment. The authors report no relevant financial relationships.

A version of this article first appeared on Medscape.com.