Cardiology

The first large population study to investigate the association between different COVID-19 vaccines types and cardiac effects and adverse events shows a small increase in the risk for acute myocarditis with both the mRNA-based vaccines and – in what may a first in the literature – an adenovirus-vector vaccine.

Ivan Pantic/Getty Images

The excess risk was seen following the first dose of the ChAdOc1 (AstraZeneca/Oxford), the adenovirus-based vaccine, and the mRNA-based BNT162b2 (Pfizer/BioNTech). It was observed after first and second doses of the mRNA-1273 (Moderna) vaccine.

The incidence rate ratios for myocarditis 1-7 days after the first AstraZeneca, Pfizer, and Moderna injections were 1.76, 1.45, and 8.38, respectively, and 23.1 after the second dose of the Moderna vaccine.

“There’s a bit more uncertainty and worry about mRNA vaccines because it’s quite a new vector for vaccination and, therefore, there’s been more focus on the potential side effects,” said Nicholas Mills, MD.

“But it doesn’t surprise me the signal is present for all types of vaccines because they’re designed to generate a systemic immune response and that is, unfortunately, where you can cause small risks for immune-mediated illnesses like myocarditis,” Dr. Mills, from the University of Edinburgh, told this news organization. Dr. Mills is a coauthor on the study, published Dec. 14 in Nature Medicine.

To put the risks in context, the group estimated between 1 and 10 additional myocarditis hospitalizations or deaths per 1 million people vaccinated, but 40 excess myocarditis events per million following a positive SARS-CoV-2 test result.

As reported, rates of excess myocarditis events associated with a first dose were 2 per million injections of the AstraZeneca vaccine, 1 per million for the Pfizer vaccine, and 6 per million with the Moderna vaccine.

Following a second dose, there were 10 additional myocarditis events per million people receiving the Moderna vaccine and none among recipients of the AstraZeneca or Pfizer vaccines.

“It was particularly seen within the first 7 days of the first dose, which is very consistent with what we see in people who have viral myocarditis,” Dr. Mills said. “So it looks like a real signal but it’s very small.”

The results are in line with previous studies of the Pfizer vaccine in Israel and studies of the Moderna vaccine in the United States, Biykem Bozkurt, MD, PhD, professor of medicine at Baylor College of Medicine, Houston, told this news organization.

“What this paper does is confirm that cardiovascular complications – and they are only looking at a small component of those cardiovascular complications – are markedly higher with the COVID-19 infection than with the vaccines,” she said.

It also adds a new twist to the search for the mechanisms of myocarditis, which has focused on the immunogenicity of the RNA in the Pfizer and Moderna vaccines but also hypothesized that molecular mimicry between the SARS-CoV-2 spike glycoprotein and cell antigens, antibody production against cardiac proteins, and testosterone may play a role.

“But now it doesn’t look like the risk is solely confined to the mRNA vaccine platform because it’s also happening with the adenovirus,” Dr. Bozkurt said. “The mechanisms require future experimental and clinical research and we’ll need more granular data with cohorts that are closely followed up as well as subclinical follow-up.”

James de Lemos, MD, professor of medicine at the University of Texas Southwestern Medical Center, Dallas, and cochair of the American Heart Association’s COVID-19 CVD Registry, said he was also not surprised by a myocarditis signal with AstraZeneca’s adenovirus vaccine.

“Looking at relative risks has biological implications, but the clinical and public health implications are that the absolute risk with the adenovirus is trivial. And you see that with their estimations of absolute risk where it’s literally sort of a needle in the haystack of 1 or 2 per million,” he said in an interview.
 

Large-scale data

The investigators examined the rates of hospital admission or death from myocarditis, pericarditis, and cardiac arrhythmia in the 28 days following SARS-CoV-2 vaccination or infection by linking the English National Immunisation Database of COVID-19 vaccination with a national patient-level health care database of 38.6 million people, aged 16 years or older, vaccinated from Dec.1, 2020, to Aug. 24, 2021.

The number of people admitted to the hospital or who died during the study period was 1,615 for myocarditis, 1,574 for pericarditis, and 385,508 for cardiac arrhythmia.

There was no evidence of an increased risk for pericarditis or cardiac arrhythmia following vaccination, except for arrhythmia in the 28 days following a second dose of the Moderna vaccine (IRR, 1.46).

In contrast, the risk was increased for pericarditis (IRR, 2.79) and cardiac arrhythmia (IRR, 5.35) in the 28 days following a positive SARS-CoV-2 test result.

Although the scale of the analysis allows for more precise estimates than what’s been possible in smaller data sets, there is the challenge of diagnosing COVID-19 from billing codes and the potential for ascertainment bias, noted Dr. de Lemos.  

“Having said that, I think it’s a really important study, because it’s the first study to put the incidence in context in the same general population the risks of myocarditis with various vaccines and with COVID-19,” he said.

“That’s really important and provides a lot of reassurance for those who are trying to balance the risks and benefits of vaccination.”
 

Analyses by sex and age

A subgroup analysis by age showed increased risks for myocarditis with the mRNA vaccines only in those younger than 40, whereas no association was found with the Oxford adenovirus vaccine.

“We’re not seeing any signal here that would make us change the recommendation for vaccination in children as a consequence of this risk,” Dr. Mills said during a press briefing.

Dr. Bozkurt pointed out, however, that the estimated excess in myocarditis events following a second dose of the Moderna vaccine in these younger adults reportedly exceeded that for SARS-CoV-2 infection (15 per million vs. 10 per million).

“For that age group, it’s concerning and needs further clarification. This hasn’t been seen before,” she said.

The average age was 39 years for those receiving two doses of the Moderna vaccine and 55 for recipients of the Pfizer and Oxford vaccines. The Moderna vaccine wasn’t rolled out until April 2021 in the United Kingdom, the authors noted, so the number of patients who received this vaccine is lower.

Although reports have suggested young males are at greater risk for myocarditis after vaccination, an analysis by sex found that women had an increased risk for myocarditis after a first dose of the AstraZeneca (IRR, 1.40) and Pfizer (IRR, 1.54) vaccines and following a positive COVID-19 test result (IRR, 11.00).

“Women being at increased risk is rather a new message,” Dr. Bozkurt said. “But the incidence rate ratios are being compared against the unvaccinated, so when you see the increase in women, it doesn’t mean it’s increased against men. It would be helpful for sex-specific incidence rate ratios to be reported for younger age subgroups, such as ages 16-20 and 20-30, to determine whether there’s an increased risk for males compared to females at younger ages.”

Age and sex differences are huge questions, but “I think we’ll learn a lot about myocarditis in general from what is going to be an explosion of research into the vaccine-associated causes,” Dr. de Lemos said.

“That will help us understand myocarditis more broadly and prepare us for the next generation of vaccines, which inevitably will be mRNA based.”

Dr. Mills reported having no relevant disclosures. Dr. Bozkurt reported consulting for Bayer and scPharmaceuticals and serving on a clinical-events committee for a trial supported by Abbott Pharmaceuticals and on a data and safety monitoring board for a trial supported by Liva Nova Pharmaceuticals. Dr. De Lemos reported having no relevant conflicts of interest.

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

The first large population study to investigate the association between different COVID-19 vaccines types and cardiac effects and adverse events shows a small increase in the risk for acute myocarditis with both the mRNA-based vaccines and – in what may a first in the literature – an adenovirus-vector vaccine.

Ivan Pantic/Getty Images

The excess risk was seen following the first dose of the ChAdOc1 (AstraZeneca/Oxford), the adenovirus-based vaccine, and the mRNA-based BNT162b2 (Pfizer/BioNTech). It was observed after first and second doses of the mRNA-1273 (Moderna) vaccine.

The incidence rate ratios for myocarditis 1-7 days after the first AstraZeneca, Pfizer, and Moderna injections were 1.76, 1.45, and 8.38, respectively, and 23.1 after the second dose of the Moderna vaccine.

“There’s a bit more uncertainty and worry about mRNA vaccines because it’s quite a new vector for vaccination and, therefore, there’s been more focus on the potential side effects,” said Nicholas Mills, MD.

“But it doesn’t surprise me the signal is present for all types of vaccines because they’re designed to generate a systemic immune response and that is, unfortunately, where you can cause small risks for immune-mediated illnesses like myocarditis,” Dr. Mills, from the University of Edinburgh, told this news organization. Dr. Mills is a coauthor on the study, published Dec. 14 in Nature Medicine.

To put the risks in context, the group estimated between 1 and 10 additional myocarditis hospitalizations or deaths per 1 million people vaccinated, but 40 excess myocarditis events per million following a positive SARS-CoV-2 test result.

As reported, rates of excess myocarditis events associated with a first dose were 2 per million injections of the AstraZeneca vaccine, 1 per million for the Pfizer vaccine, and 6 per million with the Moderna vaccine.

Following a second dose, there were 10 additional myocarditis events per million people receiving the Moderna vaccine and none among recipients of the AstraZeneca or Pfizer vaccines.

“It was particularly seen within the first 7 days of the first dose, which is very consistent with what we see in people who have viral myocarditis,” Dr. Mills said. “So it looks like a real signal but it’s very small.”

The results are in line with previous studies of the Pfizer vaccine in Israel and studies of the Moderna vaccine in the United States, Biykem Bozkurt, MD, PhD, professor of medicine at Baylor College of Medicine, Houston, told this news organization.

“What this paper does is confirm that cardiovascular complications – and they are only looking at a small component of those cardiovascular complications – are markedly higher with the COVID-19 infection than with the vaccines,” she said.

It also adds a new twist to the search for the mechanisms of myocarditis, which has focused on the immunogenicity of the RNA in the Pfizer and Moderna vaccines but also hypothesized that molecular mimicry between the SARS-CoV-2 spike glycoprotein and cell antigens, antibody production against cardiac proteins, and testosterone may play a role.

“But now it doesn’t look like the risk is solely confined to the mRNA vaccine platform because it’s also happening with the adenovirus,” Dr. Bozkurt said. “The mechanisms require future experimental and clinical research and we’ll need more granular data with cohorts that are closely followed up as well as subclinical follow-up.”

James de Lemos, MD, professor of medicine at the University of Texas Southwestern Medical Center, Dallas, and cochair of the American Heart Association’s COVID-19 CVD Registry, said he was also not surprised by a myocarditis signal with AstraZeneca’s adenovirus vaccine.

“Looking at relative risks has biological implications, but the clinical and public health implications are that the absolute risk with the adenovirus is trivial. And you see that with their estimations of absolute risk where it’s literally sort of a needle in the haystack of 1 or 2 per million,” he said in an interview.
 

Large-scale data

The investigators examined the rates of hospital admission or death from myocarditis, pericarditis, and cardiac arrhythmia in the 28 days following SARS-CoV-2 vaccination or infection by linking the English National Immunisation Database of COVID-19 vaccination with a national patient-level health care database of 38.6 million people, aged 16 years or older, vaccinated from Dec.1, 2020, to Aug. 24, 2021.

The number of people admitted to the hospital or who died during the study period was 1,615 for myocarditis, 1,574 for pericarditis, and 385,508 for cardiac arrhythmia.

There was no evidence of an increased risk for pericarditis or cardiac arrhythmia following vaccination, except for arrhythmia in the 28 days following a second dose of the Moderna vaccine (IRR, 1.46).

In contrast, the risk was increased for pericarditis (IRR, 2.79) and cardiac arrhythmia (IRR, 5.35) in the 28 days following a positive SARS-CoV-2 test result.

Although the scale of the analysis allows for more precise estimates than what’s been possible in smaller data sets, there is the challenge of diagnosing COVID-19 from billing codes and the potential for ascertainment bias, noted Dr. de Lemos.  

“Having said that, I think it’s a really important study, because it’s the first study to put the incidence in context in the same general population the risks of myocarditis with various vaccines and with COVID-19,” he said.

“That’s really important and provides a lot of reassurance for those who are trying to balance the risks and benefits of vaccination.”
 

Analyses by sex and age

A subgroup analysis by age showed increased risks for myocarditis with the mRNA vaccines only in those younger than 40, whereas no association was found with the Oxford adenovirus vaccine.

“We’re not seeing any signal here that would make us change the recommendation for vaccination in children as a consequence of this risk,” Dr. Mills said during a press briefing.

Dr. Bozkurt pointed out, however, that the estimated excess in myocarditis events following a second dose of the Moderna vaccine in these younger adults reportedly exceeded that for SARS-CoV-2 infection (15 per million vs. 10 per million).

“For that age group, it’s concerning and needs further clarification. This hasn’t been seen before,” she said.

The average age was 39 years for those receiving two doses of the Moderna vaccine and 55 for recipients of the Pfizer and Oxford vaccines. The Moderna vaccine wasn’t rolled out until April 2021 in the United Kingdom, the authors noted, so the number of patients who received this vaccine is lower.

Although reports have suggested young males are at greater risk for myocarditis after vaccination, an analysis by sex found that women had an increased risk for myocarditis after a first dose of the AstraZeneca (IRR, 1.40) and Pfizer (IRR, 1.54) vaccines and following a positive COVID-19 test result (IRR, 11.00).

“Women being at increased risk is rather a new message,” Dr. Bozkurt said. “But the incidence rate ratios are being compared against the unvaccinated, so when you see the increase in women, it doesn’t mean it’s increased against men. It would be helpful for sex-specific incidence rate ratios to be reported for younger age subgroups, such as ages 16-20 and 20-30, to determine whether there’s an increased risk for males compared to females at younger ages.”

Age and sex differences are huge questions, but “I think we’ll learn a lot about myocarditis in general from what is going to be an explosion of research into the vaccine-associated causes,” Dr. de Lemos said.

“That will help us understand myocarditis more broadly and prepare us for the next generation of vaccines, which inevitably will be mRNA based.”

Dr. Mills reported having no relevant disclosures. Dr. Bozkurt reported consulting for Bayer and scPharmaceuticals and serving on a clinical-events committee for a trial supported by Abbott Pharmaceuticals and on a data and safety monitoring board for a trial supported by Liva Nova Pharmaceuticals. Dr. De Lemos reported having no relevant conflicts of interest.

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

The first large population study to investigate the association between different COVID-19 vaccines types and cardiac effects and adverse events shows a small increase in the risk for acute myocarditis with both the mRNA-based vaccines and – in what may a first in the literature – an adenovirus-vector vaccine.

Ivan Pantic/Getty Images

The excess risk was seen following the first dose of the ChAdOc1 (AstraZeneca/Oxford), the adenovirus-based vaccine, and the mRNA-based BNT162b2 (Pfizer/BioNTech). It was observed after first and second doses of the mRNA-1273 (Moderna) vaccine.

The incidence rate ratios for myocarditis 1-7 days after the first AstraZeneca, Pfizer, and Moderna injections were 1.76, 1.45, and 8.38, respectively, and 23.1 after the second dose of the Moderna vaccine.

“There’s a bit more uncertainty and worry about mRNA vaccines because it’s quite a new vector for vaccination and, therefore, there’s been more focus on the potential side effects,” said Nicholas Mills, MD.

“But it doesn’t surprise me the signal is present for all types of vaccines because they’re designed to generate a systemic immune response and that is, unfortunately, where you can cause small risks for immune-mediated illnesses like myocarditis,” Dr. Mills, from the University of Edinburgh, told this news organization. Dr. Mills is a coauthor on the study, published Dec. 14 in Nature Medicine.

To put the risks in context, the group estimated between 1 and 10 additional myocarditis hospitalizations or deaths per 1 million people vaccinated, but 40 excess myocarditis events per million following a positive SARS-CoV-2 test result.

As reported, rates of excess myocarditis events associated with a first dose were 2 per million injections of the AstraZeneca vaccine, 1 per million for the Pfizer vaccine, and 6 per million with the Moderna vaccine.

Following a second dose, there were 10 additional myocarditis events per million people receiving the Moderna vaccine and none among recipients of the AstraZeneca or Pfizer vaccines.

“It was particularly seen within the first 7 days of the first dose, which is very consistent with what we see in people who have viral myocarditis,” Dr. Mills said. “So it looks like a real signal but it’s very small.”

The results are in line with previous studies of the Pfizer vaccine in Israel and studies of the Moderna vaccine in the United States, Biykem Bozkurt, MD, PhD, professor of medicine at Baylor College of Medicine, Houston, told this news organization.

“What this paper does is confirm that cardiovascular complications – and they are only looking at a small component of those cardiovascular complications – are markedly higher with the COVID-19 infection than with the vaccines,” she said.

It also adds a new twist to the search for the mechanisms of myocarditis, which has focused on the immunogenicity of the RNA in the Pfizer and Moderna vaccines but also hypothesized that molecular mimicry between the SARS-CoV-2 spike glycoprotein and cell antigens, antibody production against cardiac proteins, and testosterone may play a role.

“But now it doesn’t look like the risk is solely confined to the mRNA vaccine platform because it’s also happening with the adenovirus,” Dr. Bozkurt said. “The mechanisms require future experimental and clinical research and we’ll need more granular data with cohorts that are closely followed up as well as subclinical follow-up.”

James de Lemos, MD, professor of medicine at the University of Texas Southwestern Medical Center, Dallas, and cochair of the American Heart Association’s COVID-19 CVD Registry, said he was also not surprised by a myocarditis signal with AstraZeneca’s adenovirus vaccine.

“Looking at relative risks has biological implications, but the clinical and public health implications are that the absolute risk with the adenovirus is trivial. And you see that with their estimations of absolute risk where it’s literally sort of a needle in the haystack of 1 or 2 per million,” he said in an interview.
 

Large-scale data

The investigators examined the rates of hospital admission or death from myocarditis, pericarditis, and cardiac arrhythmia in the 28 days following SARS-CoV-2 vaccination or infection by linking the English National Immunisation Database of COVID-19 vaccination with a national patient-level health care database of 38.6 million people, aged 16 years or older, vaccinated from Dec.1, 2020, to Aug. 24, 2021.

The number of people admitted to the hospital or who died during the study period was 1,615 for myocarditis, 1,574 for pericarditis, and 385,508 for cardiac arrhythmia.

There was no evidence of an increased risk for pericarditis or cardiac arrhythmia following vaccination, except for arrhythmia in the 28 days following a second dose of the Moderna vaccine (IRR, 1.46).

In contrast, the risk was increased for pericarditis (IRR, 2.79) and cardiac arrhythmia (IRR, 5.35) in the 28 days following a positive SARS-CoV-2 test result.

Although the scale of the analysis allows for more precise estimates than what’s been possible in smaller data sets, there is the challenge of diagnosing COVID-19 from billing codes and the potential for ascertainment bias, noted Dr. de Lemos.  

“Having said that, I think it’s a really important study, because it’s the first study to put the incidence in context in the same general population the risks of myocarditis with various vaccines and with COVID-19,” he said.

“That’s really important and provides a lot of reassurance for those who are trying to balance the risks and benefits of vaccination.”
 

Analyses by sex and age

A subgroup analysis by age showed increased risks for myocarditis with the mRNA vaccines only in those younger than 40, whereas no association was found with the Oxford adenovirus vaccine.

“We’re not seeing any signal here that would make us change the recommendation for vaccination in children as a consequence of this risk,” Dr. Mills said during a press briefing.

Dr. Bozkurt pointed out, however, that the estimated excess in myocarditis events following a second dose of the Moderna vaccine in these younger adults reportedly exceeded that for SARS-CoV-2 infection (15 per million vs. 10 per million).

“For that age group, it’s concerning and needs further clarification. This hasn’t been seen before,” she said.

The average age was 39 years for those receiving two doses of the Moderna vaccine and 55 for recipients of the Pfizer and Oxford vaccines. The Moderna vaccine wasn’t rolled out until April 2021 in the United Kingdom, the authors noted, so the number of patients who received this vaccine is lower.

Although reports have suggested young males are at greater risk for myocarditis after vaccination, an analysis by sex found that women had an increased risk for myocarditis after a first dose of the AstraZeneca (IRR, 1.40) and Pfizer (IRR, 1.54) vaccines and following a positive COVID-19 test result (IRR, 11.00).

“Women being at increased risk is rather a new message,” Dr. Bozkurt said. “But the incidence rate ratios are being compared against the unvaccinated, so when you see the increase in women, it doesn’t mean it’s increased against men. It would be helpful for sex-specific incidence rate ratios to be reported for younger age subgroups, such as ages 16-20 and 20-30, to determine whether there’s an increased risk for males compared to females at younger ages.”

Age and sex differences are huge questions, but “I think we’ll learn a lot about myocarditis in general from what is going to be an explosion of research into the vaccine-associated causes,” Dr. de Lemos said.

“That will help us understand myocarditis more broadly and prepare us for the next generation of vaccines, which inevitably will be mRNA based.”

Dr. Mills reported having no relevant disclosures. Dr. Bozkurt reported consulting for Bayer and scPharmaceuticals and serving on a clinical-events committee for a trial supported by Abbott Pharmaceuticals and on a data and safety monitoring board for a trial supported by Liva Nova Pharmaceuticals. Dr. De Lemos reported having no relevant conflicts of interest.

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

Advances in technology and genomics have given rise to many issues, such as the extent to which genetic and lifestyle factors contribute to the individual-level risk for coronary artery disease, and the extent one’s genetic risk can be offset by a healthy lifestyle.

Mount Sinai Heart/CCA 3.0

Over the years, Valentin Fuster, MD, PhD, director of Mount Sinai Heart and physician-in-chief at the Mount Sinai Hospital, both in New York, has focused much of his research on this topic. At the virtual ACC Latin America 2021 conference, the cardiologist spoke about his hypotheses and findings during his opening plenary on imaging genomics, an emerging field that is rapidly identifying genes that influence the brain, cognition, and risk for disease.

Dr. Fuster discussed his research (J Am Coll Cardiol. 2021;77:2777-91; J Am Coll Cardiol. 2020;75:1617-27; J Am Coll Cardiol. 2019;73:1371-82; J Am Coll Cardiol. 2017;70:2979-91; Circulation. 2015;131:2104-13) and spoke about his innovative program that looks at cardiovascular health in people from young children to senior citizens. The work has been a process of learning and discovery. “We’re beginning to understand how the disease can develop earlier and how we can prevent it from getting worse. There’s nothing more beneficial than beginning to see how the disease starts in the arteries – something that we’re able to do with imaging technologies that, in the next 2 years, will be available worldwide.” And “by using imaging biomarkers in conjunction with genomic biomarkers, we’re beginning to get an idea earlier on as to whether the person is at risk.”

We need to be talking more about health and healthy arteries and trying to come up with epistemologies that are more modern, Dr. Fuster said. “To be able to see who we actually are is fascinating, and all of this is completely new” with imaging genomics.

Developing cardiovascular disease can be identified in people aged 40-60 years when seven risk factors – obesity, metabolic syndrome, blood pressure, diabetes, smoking, sedentary lifestyle, and poor nutrition” – are grouped together, he explained. In their 2015 study, Dr. Fuster and colleagues explored, using high-quality three-dimensional ultrasonography, five areas of the body – right and left carotids, aorta, and right and left iliofemorals – in more than 4,000 people with no history of cardiovascular disease.

“The first thing I want to point out is that the disease originates in a territory that is not commonly evaluated. And we had no idea. We only learned about this development through imaging tests, assessing plaques. The disease starts in the femoral artery and, in fact, it starts with an inflammatory process – seen at autopsy – that can lead to fibrosis and, in later years, can form lipid-rich vulnerable plaque,” he said.

His work has shown an increase in disease progression in groups of people who have been monitored for 20 years. What is most interesting is the way lesions are silent and evolve as the years go by.

“Atherosclerosis appears as a silent phenomenon initially and worsens in the presence of risk factors that trigger its progression,” he said.

But can subclinical disease be identified in people who have few or no risk factors? “What we call normal is not, in fact, normal,” said Dr. Fuster. To not have subclinical disease, LDL cholesterol needs to be 70 mg/dL and hemoglobin A1c needs to be 5%-6%, according to a 2020 study by Dr. Fuster and colleagues.

“The fact that we’re seeing people with no apparent risk factors develop atherosclerosis is the reason what we consider normal is not,” he said. It is necessary to take into account what happened in the first 40 years of these individuals’ lives, he added.

Dr. Fuster presented findings on 6,000 people aged 60-100 years underwent three-dimensional ultrasonography and were monitored for 12 years. The data have yet to be published, but they indicate that, with this disease, more than just risk factors are at play; atherosclerosis is related to what happens early on in one’s life.

In their 2016 study of more than 55,000 participants, Dr. Fuster and associates quantified the genetic risk for coronary artery disease with a polygenic risk score derived from an analysis of up to 50 genetic polymorphisms that had been associated with coronary artery disease in previous studies. On the basis of this score, the participants were divided into subgroups by genetic risk: low, intermediate, and high. Genetic and lifestyle factors were independently associated with susceptibility to coronary artery disease. For participants at high genetic risk, a favorable lifestyle was associated with a relative risk for coronary artery disease nearly 50% lower than an unfavorable lifestyle.

The risk factors cause the bone marrow to be activated and, when this happens, an inflammatory process occurs in the arteries. This activation is a defense mechanism designed to help monocytes heal the arteries. “When we’re dealing with a disease in the arteries, inflammation starts in the bone marrow, where cholesterol is deposited, and there are macrophages that, because there’s too much to clean up and they can’t keep up, will actually kill themselves. When that happens, they will release substances that will damage the arteries,” Dr. Fuster reported.

In elderly people, risk factors have an impact not only on the great vessels, they can also lead to cerebral small vessel disease.

“The problem is that, before, we didn’t have the technology to make this observation. And this is something critical with respect to late-onset dementia,” he said, citing a 2016 study on Alzheimer’s disease. Even if risk factors are increasing, the person will not necessarily develop the disease, but there is a greater chance that they will.
 

Education

Playful activities have a major impact in childhood. With this in mind, Dr. Fuster instituted a 6-month, 60-hour educational program for children aged 3-6 years. The approach was aimed at teaching children about healthy eating habits and how the human body works. “Children are able to absorb everything we say, but then at age 10, it all goes away,” he said. With another intervention that involved the same children, he showed that the benefits were greater than those seen in the first intervention.

“Our hypothesis is that, regardless of age, any program that has to do with prevention needs to be repeated,” Dr. Fuster said. “Repetition will bring more benefits every x years. That’s what we’re learning.

“We learned that when these children go home, they tell their parents what to do. The program had a greater impact on the children than their parents. So we need to use repetition in prevention efforts directed at young children. And we need to remember that the later we start this kind of work, the less impact it will have. The sooner things start, the greater the benefit and the lower the cost,” he concluded.

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

Advances in technology and genomics have given rise to many issues, such as the extent to which genetic and lifestyle factors contribute to the individual-level risk for coronary artery disease, and the extent one’s genetic risk can be offset by a healthy lifestyle.

Mount Sinai Heart/CCA 3.0

Over the years, Valentin Fuster, MD, PhD, director of Mount Sinai Heart and physician-in-chief at the Mount Sinai Hospital, both in New York, has focused much of his research on this topic. At the virtual ACC Latin America 2021 conference, the cardiologist spoke about his hypotheses and findings during his opening plenary on imaging genomics, an emerging field that is rapidly identifying genes that influence the brain, cognition, and risk for disease.

Dr. Fuster discussed his research (J Am Coll Cardiol. 2021;77:2777-91; J Am Coll Cardiol. 2020;75:1617-27; J Am Coll Cardiol. 2019;73:1371-82; J Am Coll Cardiol. 2017;70:2979-91; Circulation. 2015;131:2104-13) and spoke about his innovative program that looks at cardiovascular health in people from young children to senior citizens. The work has been a process of learning and discovery. “We’re beginning to understand how the disease can develop earlier and how we can prevent it from getting worse. There’s nothing more beneficial than beginning to see how the disease starts in the arteries – something that we’re able to do with imaging technologies that, in the next 2 years, will be available worldwide.” And “by using imaging biomarkers in conjunction with genomic biomarkers, we’re beginning to get an idea earlier on as to whether the person is at risk.”

We need to be talking more about health and healthy arteries and trying to come up with epistemologies that are more modern, Dr. Fuster said. “To be able to see who we actually are is fascinating, and all of this is completely new” with imaging genomics.

Developing cardiovascular disease can be identified in people aged 40-60 years when seven risk factors – obesity, metabolic syndrome, blood pressure, diabetes, smoking, sedentary lifestyle, and poor nutrition” – are grouped together, he explained. In their 2015 study, Dr. Fuster and colleagues explored, using high-quality three-dimensional ultrasonography, five areas of the body – right and left carotids, aorta, and right and left iliofemorals – in more than 4,000 people with no history of cardiovascular disease.

“The first thing I want to point out is that the disease originates in a territory that is not commonly evaluated. And we had no idea. We only learned about this development through imaging tests, assessing plaques. The disease starts in the femoral artery and, in fact, it starts with an inflammatory process – seen at autopsy – that can lead to fibrosis and, in later years, can form lipid-rich vulnerable plaque,” he said.

His work has shown an increase in disease progression in groups of people who have been monitored for 20 years. What is most interesting is the way lesions are silent and evolve as the years go by.

“Atherosclerosis appears as a silent phenomenon initially and worsens in the presence of risk factors that trigger its progression,” he said.

But can subclinical disease be identified in people who have few or no risk factors? “What we call normal is not, in fact, normal,” said Dr. Fuster. To not have subclinical disease, LDL cholesterol needs to be 70 mg/dL and hemoglobin A1c needs to be 5%-6%, according to a 2020 study by Dr. Fuster and colleagues.

“The fact that we’re seeing people with no apparent risk factors develop atherosclerosis is the reason what we consider normal is not,” he said. It is necessary to take into account what happened in the first 40 years of these individuals’ lives, he added.

Dr. Fuster presented findings on 6,000 people aged 60-100 years underwent three-dimensional ultrasonography and were monitored for 12 years. The data have yet to be published, but they indicate that, with this disease, more than just risk factors are at play; atherosclerosis is related to what happens early on in one’s life.

In their 2016 study of more than 55,000 participants, Dr. Fuster and associates quantified the genetic risk for coronary artery disease with a polygenic risk score derived from an analysis of up to 50 genetic polymorphisms that had been associated with coronary artery disease in previous studies. On the basis of this score, the participants were divided into subgroups by genetic risk: low, intermediate, and high. Genetic and lifestyle factors were independently associated with susceptibility to coronary artery disease. For participants at high genetic risk, a favorable lifestyle was associated with a relative risk for coronary artery disease nearly 50% lower than an unfavorable lifestyle.

The risk factors cause the bone marrow to be activated and, when this happens, an inflammatory process occurs in the arteries. This activation is a defense mechanism designed to help monocytes heal the arteries. “When we’re dealing with a disease in the arteries, inflammation starts in the bone marrow, where cholesterol is deposited, and there are macrophages that, because there’s too much to clean up and they can’t keep up, will actually kill themselves. When that happens, they will release substances that will damage the arteries,” Dr. Fuster reported.

In elderly people, risk factors have an impact not only on the great vessels, they can also lead to cerebral small vessel disease.

“The problem is that, before, we didn’t have the technology to make this observation. And this is something critical with respect to late-onset dementia,” he said, citing a 2016 study on Alzheimer’s disease. Even if risk factors are increasing, the person will not necessarily develop the disease, but there is a greater chance that they will.
 

Education

Playful activities have a major impact in childhood. With this in mind, Dr. Fuster instituted a 6-month, 60-hour educational program for children aged 3-6 years. The approach was aimed at teaching children about healthy eating habits and how the human body works. “Children are able to absorb everything we say, but then at age 10, it all goes away,” he said. With another intervention that involved the same children, he showed that the benefits were greater than those seen in the first intervention.

“Our hypothesis is that, regardless of age, any program that has to do with prevention needs to be repeated,” Dr. Fuster said. “Repetition will bring more benefits every x years. That’s what we’re learning.

“We learned that when these children go home, they tell their parents what to do. The program had a greater impact on the children than their parents. So we need to use repetition in prevention efforts directed at young children. And we need to remember that the later we start this kind of work, the less impact it will have. The sooner things start, the greater the benefit and the lower the cost,” he concluded.

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

Advances in technology and genomics have given rise to many issues, such as the extent to which genetic and lifestyle factors contribute to the individual-level risk for coronary artery disease, and the extent one’s genetic risk can be offset by a healthy lifestyle.

Mount Sinai Heart/CCA 3.0

Over the years, Valentin Fuster, MD, PhD, director of Mount Sinai Heart and physician-in-chief at the Mount Sinai Hospital, both in New York, has focused much of his research on this topic. At the virtual ACC Latin America 2021 conference, the cardiologist spoke about his hypotheses and findings during his opening plenary on imaging genomics, an emerging field that is rapidly identifying genes that influence the brain, cognition, and risk for disease.

Dr. Fuster discussed his research (J Am Coll Cardiol. 2021;77:2777-91; J Am Coll Cardiol. 2020;75:1617-27; J Am Coll Cardiol. 2019;73:1371-82; J Am Coll Cardiol. 2017;70:2979-91; Circulation. 2015;131:2104-13) and spoke about his innovative program that looks at cardiovascular health in people from young children to senior citizens. The work has been a process of learning and discovery. “We’re beginning to understand how the disease can develop earlier and how we can prevent it from getting worse. There’s nothing more beneficial than beginning to see how the disease starts in the arteries – something that we’re able to do with imaging technologies that, in the next 2 years, will be available worldwide.” And “by using imaging biomarkers in conjunction with genomic biomarkers, we’re beginning to get an idea earlier on as to whether the person is at risk.”

We need to be talking more about health and healthy arteries and trying to come up with epistemologies that are more modern, Dr. Fuster said. “To be able to see who we actually are is fascinating, and all of this is completely new” with imaging genomics.

Developing cardiovascular disease can be identified in people aged 40-60 years when seven risk factors – obesity, metabolic syndrome, blood pressure, diabetes, smoking, sedentary lifestyle, and poor nutrition” – are grouped together, he explained. In their 2015 study, Dr. Fuster and colleagues explored, using high-quality three-dimensional ultrasonography, five areas of the body – right and left carotids, aorta, and right and left iliofemorals – in more than 4,000 people with no history of cardiovascular disease.

“The first thing I want to point out is that the disease originates in a territory that is not commonly evaluated. And we had no idea. We only learned about this development through imaging tests, assessing plaques. The disease starts in the femoral artery and, in fact, it starts with an inflammatory process – seen at autopsy – that can lead to fibrosis and, in later years, can form lipid-rich vulnerable plaque,” he said.

His work has shown an increase in disease progression in groups of people who have been monitored for 20 years. What is most interesting is the way lesions are silent and evolve as the years go by.

“Atherosclerosis appears as a silent phenomenon initially and worsens in the presence of risk factors that trigger its progression,” he said.

But can subclinical disease be identified in people who have few or no risk factors? “What we call normal is not, in fact, normal,” said Dr. Fuster. To not have subclinical disease, LDL cholesterol needs to be 70 mg/dL and hemoglobin A1c needs to be 5%-6%, according to a 2020 study by Dr. Fuster and colleagues.

“The fact that we’re seeing people with no apparent risk factors develop atherosclerosis is the reason what we consider normal is not,” he said. It is necessary to take into account what happened in the first 40 years of these individuals’ lives, he added.

Dr. Fuster presented findings on 6,000 people aged 60-100 years underwent three-dimensional ultrasonography and were monitored for 12 years. The data have yet to be published, but they indicate that, with this disease, more than just risk factors are at play; atherosclerosis is related to what happens early on in one’s life.

In their 2016 study of more than 55,000 participants, Dr. Fuster and associates quantified the genetic risk for coronary artery disease with a polygenic risk score derived from an analysis of up to 50 genetic polymorphisms that had been associated with coronary artery disease in previous studies. On the basis of this score, the participants were divided into subgroups by genetic risk: low, intermediate, and high. Genetic and lifestyle factors were independently associated with susceptibility to coronary artery disease. For participants at high genetic risk, a favorable lifestyle was associated with a relative risk for coronary artery disease nearly 50% lower than an unfavorable lifestyle.

The risk factors cause the bone marrow to be activated and, when this happens, an inflammatory process occurs in the arteries. This activation is a defense mechanism designed to help monocytes heal the arteries. “When we’re dealing with a disease in the arteries, inflammation starts in the bone marrow, where cholesterol is deposited, and there are macrophages that, because there’s too much to clean up and they can’t keep up, will actually kill themselves. When that happens, they will release substances that will damage the arteries,” Dr. Fuster reported.

In elderly people, risk factors have an impact not only on the great vessels, they can also lead to cerebral small vessel disease.

“The problem is that, before, we didn’t have the technology to make this observation. And this is something critical with respect to late-onset dementia,” he said, citing a 2016 study on Alzheimer’s disease. Even if risk factors are increasing, the person will not necessarily develop the disease, but there is a greater chance that they will.
 

Education

Playful activities have a major impact in childhood. With this in mind, Dr. Fuster instituted a 6-month, 60-hour educational program for children aged 3-6 years. The approach was aimed at teaching children about healthy eating habits and how the human body works. “Children are able to absorb everything we say, but then at age 10, it all goes away,” he said. With another intervention that involved the same children, he showed that the benefits were greater than those seen in the first intervention.

“Our hypothesis is that, regardless of age, any program that has to do with prevention needs to be repeated,” Dr. Fuster said. “Repetition will bring more benefits every x years. That’s what we’re learning.

“We learned that when these children go home, they tell their parents what to do. The program had a greater impact on the children than their parents. So we need to use repetition in prevention efforts directed at young children. And we need to remember that the later we start this kind of work, the less impact it will have. The sooner things start, the greater the benefit and the lower the cost,” he concluded.

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

Robert M. Califf, MD, plans to take a close look at federal policies on opioid prescriptions in his expected second turn as the top U.S. regulator of medical products, as well as keep closer tabs on the performance of drugs cleared with accelerated approvals.

Catherine Hackett/Frontline Medical News

Dr. Califf on Tuesday fielded questions at a Senate hearing about his nomination by President Joe Biden to serve as administrator of the U.S. Food and Drug Administration, a role in which he served in the Obama administration. He also spoke about the need to bolster the nation’s ability to maintain an adequate supply of key medical products, including drugs.

Members of the Senate Health, Education, Labor and Pensions Committee, which is handling Dr. Califf’s nomination, were largely cordial and supportive during the hearing. Sen. Patty Murray (D-Wash.), the committee chair, and the panel’s top Republican, Sen. Richard Burr of North Carolina, addressed Dr. Califf during the hearing as if he would soon serve again as the FDA’s leader. Both were among the senators who voted 89-4 to confirm Dr. Califf in a February 2016 vote.

Dr. Califf “was previously confirmed to lead FDA in an overwhelming bipartisan vote, and I look forward to working with him again to ensure FDA continues to protect families across the country, uphold the gold standard of safety and effectiveness, and put science and data first,” Sen. Murray said.

Less enthusiastic about Dr. Califf was Sen. Bernie Sanders (I-VT), who was among the seven senators who did not vote on Dr. Califf’s nomination in 2016.

Sen. Sanders objected in 2016 to Dr. Califf’s ties to the pharmaceutical industry, and he did so again Tuesday. A noted leader in conducting clinical trials, Dr. Califf has worked with many drugmakers. But at the hearing, Dr. Califf said he concurs with Sen. Sanders on an idea strongly opposed by the pharmaceutical industry.

In response to Sen. Sanders’ question, Dr. Califf said he already is “on record as being in favor of Medicare negotiating with the industry on prices.”

The FDA would not take direct part in negotiations, as this work would be handled by the Centers for Medicare & Medicaid Services. Democrats want to give Medicare some negotiating authority through their sweeping Build Back Better Act.

People in the United States are dismayed over both the cost of prescription drugs and the widespread distribution of prescription painkillers that helped fuel the current opioid epidemic, Sen. Sanders told Dr. Califf. Many people will be concerned about an FDA commissioner who has benefited from close ties to the industry, Sen. Sanders said.

“How are they going to believe that you’re going to be an independent and strong voice against this enormously powerful, special interest?” Sen. Sanders asked.

“I’m totally with you on the concept that the price of pharmaceuticals is way too high in this country,” Dr. Califf said in reply.

Dr. Califf was paid $2.7 million in salary and bonus by Verily Life Sciences, the biomedical research organization operated by Alphabet, parent company of Google, according to his federal financial disclosure. He also reported holding board positions with pharmaceutical companies AmyriAD and Centessa Pharmaceuticals.

Bloomberg Government reported that Dr. Califf has ties to about 16 other research organizations and biotech companies. Bloomberg Government also said that, in his earlier FDA service, Dr. Califf kept a whiteboard in his office that listed all the activities and projects that required his recusal, citing as a source Howard Sklamberg, who was a deputy commissioner under Dr. Califf.

“He was very, very, very careful,” Mr. Sklamberg, who’s now an attorney at Arnold & Porter LLP, told Bloomberg Government.
 

‘Work to do’ on opioids

Senators looped back repeatedly to the topic of opioids during Dr. Califf’s hearing, reflecting deep concerns about the FDA’s efforts to warn of the risks of prescription painkillers.

There were an estimated 100,306 drug overdose deaths in the United States in the 12 months ending in April, an increase of 28.5% from the 78,056 deaths during the same period the year before, according to the Centers for Disease Control and Prevention.

Dr. Califf said he plans to focus on what information the FDA conveys to the public about the risks of prescription painkillers, including a look at what the labels for these products say.

“I am committed to do a comprehensive review of the status of opioids, early in my tenure,” Dr. Califf said.

Dr. Califf indicated that physicians are still too quick to provide excess doses of these medicines, despite years of efforts to restrain their use. He said he knows relatives who were given 30-day prescriptions for opioids after minor surgery.

“So I know we have work to do,” Dr. Califf said.

Concerns about the FDA’s previous work in managing opioids has led to protests from a few Democratic senators about the prospect of President Biden nominating the acting FDA commissioner, Janet Woodcock, MD, for the permanent post.

At the hearing, Sen. Ben Ray Luján (D-NM) raised the case of the FDA’s approval of the powerful Zohydro painkiller. The agency approved that drug despite an 11-2 vote against it by the FDA’s Anesthetic and Analgesic Drug Products Advisory Committee.

Sen. Luján asked Dr. Califf what he would do if an FDA advisory committee voted “overwhelmingly” against recommending approval of a medicine, as happened in the Zohydro case.

While not mentioned by Sen. Luján in this exchange during the hearing with Dr. Califf, the FDA staff’s rejection of recommendations of advisory committees has been a growing concern among researchers.

The agency last year approved aducanumab (Aduhelm, Biogen), a drug for Alzheimer’s disease, dismissing the advice of its Peripheral and Central Nervous System Drugs Advisory Committee. That decision triggered the resignation of several members of the panel. The FDA staff also earlier rejected the conclusion the majority of members of the same advisory committee offered in 2016 on eteplirsen (Exondys 51, Sarepta), a drug for Duchenne muscular dystrophy.

Dr. Califf told Sen. Luján he had done recent research into how often the FDA staff does not concur with the recommendations of an advisory committee. He said the FDA takes a different course of action in about 25% of cases. In about three-quarters of those cases, the FDA staff opts for a “more stringent” approach regarding allowing the public access to the drug, as opposed to a more generous one as seen in the Zohydro, Aduhelm, and Exondys 51 cases.

Still, Dr. Califf said that when there’s an 11-2 advisory committee vote against recommendation of a product, “the leaders at FDA really need to take a close look” at what’s happening.

Question on accelerated approvals

The FDA’s approval of aducanumab drew attention to a debate already underway about conditional clearances known as accelerated approvals.

The FDA has used this path since the 1990s to speed access to drugs for serious conditions. The trade-off for early access is that the agency sometimes makes the wrong call based on initial findings, and clears a medicine later found not to benefit patients as expected.

The FDA’s cancer division is in the midst of public efforts to address cases where drugmakers have not been able to deliver studies that support accelerated approvals of their oncology drugs. In addition, the Office of Inspector General of the U.S. Department of Health & Human Services announced in August that it is reviewing the FDA’s handling of the accelerated approval process.

At Tuesday’s hearing, Sen. Burr grilled Dr. Califf about how he would respond to calls to change how the FDA handles the accelerated-approval process.

“Can you commit to me and to patients who may rely on cutting-edge treatments that you will not support efforts to narrow this pathway or raise the bar for drugs to be approved under those pathways?” Burr asked Califf.

Dr. Califf responded by saying he was “a fan of accelerated approval – for the right conditions.”

Earlier, in his opening statement, Dr. Califf had said his mother benefited directly from the accelerated approval of new drugs for multiple myeloma. Dr. Califf told Sen. Burr that he had spent “countless hours with patient groups” and understands the need to speed the approval of medicines for serious diseases.

But the FDA also has to make sure it holds up its end of the bargain struck with accelerated approvals. This involves checking on how these medicines work once they are marketed.

“We’re accepting that there’s more uncertainty,” Dr. Califf said. “That means we’ve got to have a better system to evaluate these products as they’re used on the market. And I think there are ways that we can do that now. Technology is making this possible in ways that it just was not possible before.”
 

Worries about the medical supply chain

Sen. Susan Collins (R-Maine) asked Dr. Califf about the vulnerability of the U.S. medical system to disruptions of the supply chain. She raised concerns about China’s dominance in antibiotic manufacturing as an example. She asked if Congress could do more to encourage domestic manufacturing of medical supplies, such as by offering tax incentives.

Dr. Califf told Sen. Collins he shared her concern about the U.S. manufacturing of ingredients used in both branded and generic drugs. He said he recently has served on a committee of the National Academy of Medicine that is examining supply chain issues.

This committee will soon release a report with specific recommendations, Dr. Califf said.

“We don’t have enough competitive entities in what’s become sort of a commodity business” of drug manufacturing, Dr. Califf said. “So we need a number of steps to make the system more resilient.”

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

Robert M. Califf, MD, plans to take a close look at federal policies on opioid prescriptions in his expected second turn as the top U.S. regulator of medical products, as well as keep closer tabs on the performance of drugs cleared with accelerated approvals.

Catherine Hackett/Frontline Medical News

Dr. Califf on Tuesday fielded questions at a Senate hearing about his nomination by President Joe Biden to serve as administrator of the U.S. Food and Drug Administration, a role in which he served in the Obama administration. He also spoke about the need to bolster the nation’s ability to maintain an adequate supply of key medical products, including drugs.

Members of the Senate Health, Education, Labor and Pensions Committee, which is handling Dr. Califf’s nomination, were largely cordial and supportive during the hearing. Sen. Patty Murray (D-Wash.), the committee chair, and the panel’s top Republican, Sen. Richard Burr of North Carolina, addressed Dr. Califf during the hearing as if he would soon serve again as the FDA’s leader. Both were among the senators who voted 89-4 to confirm Dr. Califf in a February 2016 vote.

Dr. Califf “was previously confirmed to lead FDA in an overwhelming bipartisan vote, and I look forward to working with him again to ensure FDA continues to protect families across the country, uphold the gold standard of safety and effectiveness, and put science and data first,” Sen. Murray said.

Less enthusiastic about Dr. Califf was Sen. Bernie Sanders (I-VT), who was among the seven senators who did not vote on Dr. Califf’s nomination in 2016.

Sen. Sanders objected in 2016 to Dr. Califf’s ties to the pharmaceutical industry, and he did so again Tuesday. A noted leader in conducting clinical trials, Dr. Califf has worked with many drugmakers. But at the hearing, Dr. Califf said he concurs with Sen. Sanders on an idea strongly opposed by the pharmaceutical industry.

In response to Sen. Sanders’ question, Dr. Califf said he already is “on record as being in favor of Medicare negotiating with the industry on prices.”

The FDA would not take direct part in negotiations, as this work would be handled by the Centers for Medicare & Medicaid Services. Democrats want to give Medicare some negotiating authority through their sweeping Build Back Better Act.

People in the United States are dismayed over both the cost of prescription drugs and the widespread distribution of prescription painkillers that helped fuel the current opioid epidemic, Sen. Sanders told Dr. Califf. Many people will be concerned about an FDA commissioner who has benefited from close ties to the industry, Sen. Sanders said.

“How are they going to believe that you’re going to be an independent and strong voice against this enormously powerful, special interest?” Sen. Sanders asked.

“I’m totally with you on the concept that the price of pharmaceuticals is way too high in this country,” Dr. Califf said in reply.

Dr. Califf was paid $2.7 million in salary and bonus by Verily Life Sciences, the biomedical research organization operated by Alphabet, parent company of Google, according to his federal financial disclosure. He also reported holding board positions with pharmaceutical companies AmyriAD and Centessa Pharmaceuticals.

Bloomberg Government reported that Dr. Califf has ties to about 16 other research organizations and biotech companies. Bloomberg Government also said that, in his earlier FDA service, Dr. Califf kept a whiteboard in his office that listed all the activities and projects that required his recusal, citing as a source Howard Sklamberg, who was a deputy commissioner under Dr. Califf.

“He was very, very, very careful,” Mr. Sklamberg, who’s now an attorney at Arnold & Porter LLP, told Bloomberg Government.
 

‘Work to do’ on opioids

Senators looped back repeatedly to the topic of opioids during Dr. Califf’s hearing, reflecting deep concerns about the FDA’s efforts to warn of the risks of prescription painkillers.

There were an estimated 100,306 drug overdose deaths in the United States in the 12 months ending in April, an increase of 28.5% from the 78,056 deaths during the same period the year before, according to the Centers for Disease Control and Prevention.

Dr. Califf said he plans to focus on what information the FDA conveys to the public about the risks of prescription painkillers, including a look at what the labels for these products say.

“I am committed to do a comprehensive review of the status of opioids, early in my tenure,” Dr. Califf said.

Dr. Califf indicated that physicians are still too quick to provide excess doses of these medicines, despite years of efforts to restrain their use. He said he knows relatives who were given 30-day prescriptions for opioids after minor surgery.

“So I know we have work to do,” Dr. Califf said.

Concerns about the FDA’s previous work in managing opioids has led to protests from a few Democratic senators about the prospect of President Biden nominating the acting FDA commissioner, Janet Woodcock, MD, for the permanent post.

At the hearing, Sen. Ben Ray Luján (D-NM) raised the case of the FDA’s approval of the powerful Zohydro painkiller. The agency approved that drug despite an 11-2 vote against it by the FDA’s Anesthetic and Analgesic Drug Products Advisory Committee.

Sen. Luján asked Dr. Califf what he would do if an FDA advisory committee voted “overwhelmingly” against recommending approval of a medicine, as happened in the Zohydro case.

While not mentioned by Sen. Luján in this exchange during the hearing with Dr. Califf, the FDA staff’s rejection of recommendations of advisory committees has been a growing concern among researchers.

The agency last year approved aducanumab (Aduhelm, Biogen), a drug for Alzheimer’s disease, dismissing the advice of its Peripheral and Central Nervous System Drugs Advisory Committee. That decision triggered the resignation of several members of the panel. The FDA staff also earlier rejected the conclusion the majority of members of the same advisory committee offered in 2016 on eteplirsen (Exondys 51, Sarepta), a drug for Duchenne muscular dystrophy.

Dr. Califf told Sen. Luján he had done recent research into how often the FDA staff does not concur with the recommendations of an advisory committee. He said the FDA takes a different course of action in about 25% of cases. In about three-quarters of those cases, the FDA staff opts for a “more stringent” approach regarding allowing the public access to the drug, as opposed to a more generous one as seen in the Zohydro, Aduhelm, and Exondys 51 cases.

Still, Dr. Califf said that when there’s an 11-2 advisory committee vote against recommendation of a product, “the leaders at FDA really need to take a close look” at what’s happening.

Question on accelerated approvals

The FDA’s approval of aducanumab drew attention to a debate already underway about conditional clearances known as accelerated approvals.

The FDA has used this path since the 1990s to speed access to drugs for serious conditions. The trade-off for early access is that the agency sometimes makes the wrong call based on initial findings, and clears a medicine later found not to benefit patients as expected.

The FDA’s cancer division is in the midst of public efforts to address cases where drugmakers have not been able to deliver studies that support accelerated approvals of their oncology drugs. In addition, the Office of Inspector General of the U.S. Department of Health & Human Services announced in August that it is reviewing the FDA’s handling of the accelerated approval process.

At Tuesday’s hearing, Sen. Burr grilled Dr. Califf about how he would respond to calls to change how the FDA handles the accelerated-approval process.

“Can you commit to me and to patients who may rely on cutting-edge treatments that you will not support efforts to narrow this pathway or raise the bar for drugs to be approved under those pathways?” Burr asked Califf.

Dr. Califf responded by saying he was “a fan of accelerated approval – for the right conditions.”

Earlier, in his opening statement, Dr. Califf had said his mother benefited directly from the accelerated approval of new drugs for multiple myeloma. Dr. Califf told Sen. Burr that he had spent “countless hours with patient groups” and understands the need to speed the approval of medicines for serious diseases.

But the FDA also has to make sure it holds up its end of the bargain struck with accelerated approvals. This involves checking on how these medicines work once they are marketed.

“We’re accepting that there’s more uncertainty,” Dr. Califf said. “That means we’ve got to have a better system to evaluate these products as they’re used on the market. And I think there are ways that we can do that now. Technology is making this possible in ways that it just was not possible before.”
 

Worries about the medical supply chain

Sen. Susan Collins (R-Maine) asked Dr. Califf about the vulnerability of the U.S. medical system to disruptions of the supply chain. She raised concerns about China’s dominance in antibiotic manufacturing as an example. She asked if Congress could do more to encourage domestic manufacturing of medical supplies, such as by offering tax incentives.

Dr. Califf told Sen. Collins he shared her concern about the U.S. manufacturing of ingredients used in both branded and generic drugs. He said he recently has served on a committee of the National Academy of Medicine that is examining supply chain issues.

This committee will soon release a report with specific recommendations, Dr. Califf said.

“We don’t have enough competitive entities in what’s become sort of a commodity business” of drug manufacturing, Dr. Califf said. “So we need a number of steps to make the system more resilient.”

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

Robert M. Califf, MD, plans to take a close look at federal policies on opioid prescriptions in his expected second turn as the top U.S. regulator of medical products, as well as keep closer tabs on the performance of drugs cleared with accelerated approvals.

Catherine Hackett/Frontline Medical News

Dr. Califf on Tuesday fielded questions at a Senate hearing about his nomination by President Joe Biden to serve as administrator of the U.S. Food and Drug Administration, a role in which he served in the Obama administration. He also spoke about the need to bolster the nation’s ability to maintain an adequate supply of key medical products, including drugs.

Members of the Senate Health, Education, Labor and Pensions Committee, which is handling Dr. Califf’s nomination, were largely cordial and supportive during the hearing. Sen. Patty Murray (D-Wash.), the committee chair, and the panel’s top Republican, Sen. Richard Burr of North Carolina, addressed Dr. Califf during the hearing as if he would soon serve again as the FDA’s leader. Both were among the senators who voted 89-4 to confirm Dr. Califf in a February 2016 vote.

Dr. Califf “was previously confirmed to lead FDA in an overwhelming bipartisan vote, and I look forward to working with him again to ensure FDA continues to protect families across the country, uphold the gold standard of safety and effectiveness, and put science and data first,” Sen. Murray said.

Less enthusiastic about Dr. Califf was Sen. Bernie Sanders (I-VT), who was among the seven senators who did not vote on Dr. Califf’s nomination in 2016.

Sen. Sanders objected in 2016 to Dr. Califf’s ties to the pharmaceutical industry, and he did so again Tuesday. A noted leader in conducting clinical trials, Dr. Califf has worked with many drugmakers. But at the hearing, Dr. Califf said he concurs with Sen. Sanders on an idea strongly opposed by the pharmaceutical industry.

In response to Sen. Sanders’ question, Dr. Califf said he already is “on record as being in favor of Medicare negotiating with the industry on prices.”

The FDA would not take direct part in negotiations, as this work would be handled by the Centers for Medicare & Medicaid Services. Democrats want to give Medicare some negotiating authority through their sweeping Build Back Better Act.

People in the United States are dismayed over both the cost of prescription drugs and the widespread distribution of prescription painkillers that helped fuel the current opioid epidemic, Sen. Sanders told Dr. Califf. Many people will be concerned about an FDA commissioner who has benefited from close ties to the industry, Sen. Sanders said.

“How are they going to believe that you’re going to be an independent and strong voice against this enormously powerful, special interest?” Sen. Sanders asked.

“I’m totally with you on the concept that the price of pharmaceuticals is way too high in this country,” Dr. Califf said in reply.

Dr. Califf was paid $2.7 million in salary and bonus by Verily Life Sciences, the biomedical research organization operated by Alphabet, parent company of Google, according to his federal financial disclosure. He also reported holding board positions with pharmaceutical companies AmyriAD and Centessa Pharmaceuticals.

Bloomberg Government reported that Dr. Califf has ties to about 16 other research organizations and biotech companies. Bloomberg Government also said that, in his earlier FDA service, Dr. Califf kept a whiteboard in his office that listed all the activities and projects that required his recusal, citing as a source Howard Sklamberg, who was a deputy commissioner under Dr. Califf.

“He was very, very, very careful,” Mr. Sklamberg, who’s now an attorney at Arnold & Porter LLP, told Bloomberg Government.
 

‘Work to do’ on opioids

Senators looped back repeatedly to the topic of opioids during Dr. Califf’s hearing, reflecting deep concerns about the FDA’s efforts to warn of the risks of prescription painkillers.

There were an estimated 100,306 drug overdose deaths in the United States in the 12 months ending in April, an increase of 28.5% from the 78,056 deaths during the same period the year before, according to the Centers for Disease Control and Prevention.

Dr. Califf said he plans to focus on what information the FDA conveys to the public about the risks of prescription painkillers, including a look at what the labels for these products say.

“I am committed to do a comprehensive review of the status of opioids, early in my tenure,” Dr. Califf said.

Dr. Califf indicated that physicians are still too quick to provide excess doses of these medicines, despite years of efforts to restrain their use. He said he knows relatives who were given 30-day prescriptions for opioids after minor surgery.

“So I know we have work to do,” Dr. Califf said.

Concerns about the FDA’s previous work in managing opioids has led to protests from a few Democratic senators about the prospect of President Biden nominating the acting FDA commissioner, Janet Woodcock, MD, for the permanent post.

At the hearing, Sen. Ben Ray Luján (D-NM) raised the case of the FDA’s approval of the powerful Zohydro painkiller. The agency approved that drug despite an 11-2 vote against it by the FDA’s Anesthetic and Analgesic Drug Products Advisory Committee.

Sen. Luján asked Dr. Califf what he would do if an FDA advisory committee voted “overwhelmingly” against recommending approval of a medicine, as happened in the Zohydro case.

While not mentioned by Sen. Luján in this exchange during the hearing with Dr. Califf, the FDA staff’s rejection of recommendations of advisory committees has been a growing concern among researchers.

The agency last year approved aducanumab (Aduhelm, Biogen), a drug for Alzheimer’s disease, dismissing the advice of its Peripheral and Central Nervous System Drugs Advisory Committee. That decision triggered the resignation of several members of the panel. The FDA staff also earlier rejected the conclusion the majority of members of the same advisory committee offered in 2016 on eteplirsen (Exondys 51, Sarepta), a drug for Duchenne muscular dystrophy.

Dr. Califf told Sen. Luján he had done recent research into how often the FDA staff does not concur with the recommendations of an advisory committee. He said the FDA takes a different course of action in about 25% of cases. In about three-quarters of those cases, the FDA staff opts for a “more stringent” approach regarding allowing the public access to the drug, as opposed to a more generous one as seen in the Zohydro, Aduhelm, and Exondys 51 cases.

Still, Dr. Califf said that when there’s an 11-2 advisory committee vote against recommendation of a product, “the leaders at FDA really need to take a close look” at what’s happening.

Question on accelerated approvals

The FDA’s approval of aducanumab drew attention to a debate already underway about conditional clearances known as accelerated approvals.

The FDA has used this path since the 1990s to speed access to drugs for serious conditions. The trade-off for early access is that the agency sometimes makes the wrong call based on initial findings, and clears a medicine later found not to benefit patients as expected.

The FDA’s cancer division is in the midst of public efforts to address cases where drugmakers have not been able to deliver studies that support accelerated approvals of their oncology drugs. In addition, the Office of Inspector General of the U.S. Department of Health & Human Services announced in August that it is reviewing the FDA’s handling of the accelerated approval process.

At Tuesday’s hearing, Sen. Burr grilled Dr. Califf about how he would respond to calls to change how the FDA handles the accelerated-approval process.

“Can you commit to me and to patients who may rely on cutting-edge treatments that you will not support efforts to narrow this pathway or raise the bar for drugs to be approved under those pathways?” Burr asked Califf.

Dr. Califf responded by saying he was “a fan of accelerated approval – for the right conditions.”

Earlier, in his opening statement, Dr. Califf had said his mother benefited directly from the accelerated approval of new drugs for multiple myeloma. Dr. Califf told Sen. Burr that he had spent “countless hours with patient groups” and understands the need to speed the approval of medicines for serious diseases.

But the FDA also has to make sure it holds up its end of the bargain struck with accelerated approvals. This involves checking on how these medicines work once they are marketed.

“We’re accepting that there’s more uncertainty,” Dr. Califf said. “That means we’ve got to have a better system to evaluate these products as they’re used on the market. And I think there are ways that we can do that now. Technology is making this possible in ways that it just was not possible before.”
 

Worries about the medical supply chain

Sen. Susan Collins (R-Maine) asked Dr. Califf about the vulnerability of the U.S. medical system to disruptions of the supply chain. She raised concerns about China’s dominance in antibiotic manufacturing as an example. She asked if Congress could do more to encourage domestic manufacturing of medical supplies, such as by offering tax incentives.

Dr. Califf told Sen. Collins he shared her concern about the U.S. manufacturing of ingredients used in both branded and generic drugs. He said he recently has served on a committee of the National Academy of Medicine that is examining supply chain issues.

This committee will soon release a report with specific recommendations, Dr. Califf said.

“We don’t have enough competitive entities in what’s become sort of a commodity business” of drug manufacturing, Dr. Califf said. “So we need a number of steps to make the system more resilient.”

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

Highly selected low-risk patients can be safely sent home about 24 hours after successful percutaneous coronary intervention (PCI) for ST-segment elevation myocardial infarction (STEMI) when supported by intense, multidisciplinary virtual follow-up, a prospective study suggests for the first time.

The risk for major adverse cardiac events (MACE) in STEMI patients following an early hospital discharge (EHD) pathway was similar at 9 months to that seen for propensity-matched historic control subjects who met the same EHD criteria but were discharged later than 48 hours.

The stay in almost half (48%) the early discharge group was 24 hours or less, according to the study, published Dec. 13 in the Journal of the American College of Cardiology.

“We’ve shown that if we use appropriate risk criteria and instigate the appropriate, safe follow-up that it’s safe to select and discharge low-risk patients at an earlier time period, such as 24 hours,” senior author Daniel A. Jones, PhD, Barts Heart Centre, London, this news organization.

“Obviously, it’s one center in one city in the world,” he said. “Whether it’s applicable at other heart site centers, I believe it is, but I think we need more data to be able to change guidelines.”

Current European Society of Cardiology guidelines say that select patients should be considered for early discharge 48 to 72 hours after STEMI, but the COVID-19 pandemic incentivized the team to try and push that window.

“The COVID pandemic essentially brought a focus on resources, on minimizing the risk to our patient population in terms of catching COVID within hospital,” he said. “It became clear that to maintain the heart site service, we probably needed to get people out a bit quicker than we did before, so we came up with this pathway.”

Between March 2020 and June 2021, 600 patients presenting with STEMI were entered into the EHD pathway if they met the following pre-existing criteria for 48- to 72-hour discharge:

• Left ventricular ejection fraction 40% or greater
• Successful primary PCI with TIMI flow grade 3
• Absence of bystander disease requiring inpatient revascularization
• No recurrent ischemic symptoms
• No heart failure
• No significant arrhythmias
• No hemodynamic instability
• No significant comorbidity
• Suitable social circumstances for early discharge

The patients were given cardiac rehabilitation counseling over the phone within 48 hours and blood pressure machines if not available at home. At weeks 2 and 8, they spoke virtually with a dedicated cardiology advanced care practitioner who up-titrated medications and answered any questions. At week 12, they were seen by an interventional cardiologist or at a high-risk prevention clinic.

Their mean age was 59.2 years, 86% were male, the median symptom-to-balloon time was 80 minutes, and median door-to-balloon time was 50 minutes.

The early discharge patients were compared with 700 historic control subjects who met the EHD criteria and were discharged after 48 hours from Oct. 2018 to June 2021 and 560 patients discharged on standard-care pathways between April 2020 and June 2021.

Those discharged after 48 hours were more likely to have an anterior MI, multivessel disease, and multivessel PCI.
 

Comparable outcomes

The median length of stay was 24.6 hours (minimum 17 hours, maximum 40 hours) for the EHD group, 56.1 hours for historic control subjects, and 78.9 hours for the standard-care group.

The introduction of the EHD pathway significantly reduced the overall length of stay for all STEMI patients compared with the pre-pathway period of Oct. 2018 to March 2020 (median, 3 vs. 2 days; P < .0001).

Length of stay varied among patients; however, 420 patients stayed 1 less night in the hospital with the remaining patients staying about 8 to 12 fewer hours, resulting in approximate savings of £450,000, the authors note.

Over a median follow-up of 271 days, there were no cardiovascular deaths, two deaths from COVID-19, and a MACE rate of 1.2% (two deaths, three unscheduled revascularizations, and two further MI presentations) in the EHD group. That compares with a 0.7% mortality and 1.9% rate of MACE among historic control subjects, neither of which were significantly different.

There was also no difference in mortality (0.34% vs. 0.69%; P = .410) or MACE (1.2% vs. 1.9%; P = .342) among 560 pairs of propensity-matched EHD patients and historic control subjects.

Mortality was 4.1% in the standard-care group; cardiovascular mortality was 2.2%, and the rate of MACE was 8.6%.

When patients were surveyed, 85% were “satisfied” or “very satisfied” with the EHD pathway, whereas 73% of control and standard-care patients were satisfied with their care. Three-fourths of EHD patients also reported saving money and 62.5% saved time off work because of the virtual follow-up.
 

Judgment calls

“They didn’t really tell us much about the patients who didn’t qualify into this ultra–low-risk group but, obviously, it’s highly selected,” Cindy Grines, MD, Northside Hospital Cardiovascular Institute, Lawrenceville, Georgia, said in an interview. “In the U.S., you don’t get those chest pain onset-to-reperfusion in 80 minutes. So that was really kind of shocking.”

It also suggests that early discharge was applied to patients who may have had minimal myocardial damage from the STEMI, she suggested. “Even in their own hospital system, a lot of patients who met the criteria on paper were kept longer than 48 hours. So a lot of it’s a judgment call.”

Additional red flags where physicians may overrule the early discharge protocol are very late perfusion, advanced age, severe renal insufficiency, profound anemia, cardiac arrest requiring more than brief resuscitation, bleeding complications, or symptomatic coronavirus, Dr. Grines and J. Jeffrey Marshall, MD, also from Northside, observe in an accompanying editorial.

About 60% of patients were suitable for the EHD pathway, Dr. Jones said. “Typically, they are quite low risk, but we still had four in 10 anterior infarct, and about 25% had left ventricular function between 40% and 45%. So even though the majority are low risk, there are patients in there that you would consider to have had a decent infarct.”

“I think this is applicable to patients at most centers, and probably anywhere between a third to a fifth of all patients presenting to heart centers would be suitable for this discharge pathway,” he said.

Dr. Grines said the pathway is “definitely feasible” but there aren’t enough patients studied to know with 100% certainty whether it’s safe. A single observational study also isn’t enough to change guidelines, which in the United States do not comment on length of stay.

“In the ultra-low-risk patients – such as the ones where you got them in very early and you almost aborted the infarct or if it was a very small infarct – you can kind of treat them like an unstable angina patient, where you can do the PCI and potentially discharge them in 24 hours,” Dr. Grines said. “I think most of us might agree on that.”

“The other thing you have to weigh is the risk/benefit ratio,” she said. “If you have no beds available, you end up rationing care to some extent. So if you have a patient that’s otherwise doing well after a very small MI and have an emergency room full of people that need to be admitted and they’re sicker, then you end up making those judgment calls.”

Dr. Jones pointed out that current guidelines are based largely on observational data and that the team is planning to pilot the EHD pathway at five to 10 centers around the United Kingdom or potentially in Europe or the United States.

“This is an area where a [randomized controlled trial] RCT would be expensive, whereas a well-coordinated multicenter registry would probably provide enough information to change guidelines,” he said. “We’re not suggesting that every STEMI patient is suitable, but people that are low risk that you would already be considering for early discharge I think can go a bit quicker.”

Dr. Jones has received funding from the Barts Charity and financial support for blood pressure machines from the Barts Guild. First author Krishnaraj Rathod has received funding from the National Institute for Health and Research in the form of an Academic Clinical Lectureship. All other authors, Dr. Grines, and Dr. Marshall report having no relevant financial relationships.

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

Highly selected low-risk patients can be safely sent home about 24 hours after successful percutaneous coronary intervention (PCI) for ST-segment elevation myocardial infarction (STEMI) when supported by intense, multidisciplinary virtual follow-up, a prospective study suggests for the first time.

The risk for major adverse cardiac events (MACE) in STEMI patients following an early hospital discharge (EHD) pathway was similar at 9 months to that seen for propensity-matched historic control subjects who met the same EHD criteria but were discharged later than 48 hours.

The stay in almost half (48%) the early discharge group was 24 hours or less, according to the study, published Dec. 13 in the Journal of the American College of Cardiology.

“We’ve shown that if we use appropriate risk criteria and instigate the appropriate, safe follow-up that it’s safe to select and discharge low-risk patients at an earlier time period, such as 24 hours,” senior author Daniel A. Jones, PhD, Barts Heart Centre, London, this news organization.

“Obviously, it’s one center in one city in the world,” he said. “Whether it’s applicable at other heart site centers, I believe it is, but I think we need more data to be able to change guidelines.”

Current European Society of Cardiology guidelines say that select patients should be considered for early discharge 48 to 72 hours after STEMI, but the COVID-19 pandemic incentivized the team to try and push that window.

“The COVID pandemic essentially brought a focus on resources, on minimizing the risk to our patient population in terms of catching COVID within hospital,” he said. “It became clear that to maintain the heart site service, we probably needed to get people out a bit quicker than we did before, so we came up with this pathway.”

Between March 2020 and June 2021, 600 patients presenting with STEMI were entered into the EHD pathway if they met the following pre-existing criteria for 48- to 72-hour discharge:

• Left ventricular ejection fraction 40% or greater
• Successful primary PCI with TIMI flow grade 3
• Absence of bystander disease requiring inpatient revascularization
• No recurrent ischemic symptoms
• No heart failure
• No significant arrhythmias
• No hemodynamic instability
• No significant comorbidity
• Suitable social circumstances for early discharge

The patients were given cardiac rehabilitation counseling over the phone within 48 hours and blood pressure machines if not available at home. At weeks 2 and 8, they spoke virtually with a dedicated cardiology advanced care practitioner who up-titrated medications and answered any questions. At week 12, they were seen by an interventional cardiologist or at a high-risk prevention clinic.

Their mean age was 59.2 years, 86% were male, the median symptom-to-balloon time was 80 minutes, and median door-to-balloon time was 50 minutes.

The early discharge patients were compared with 700 historic control subjects who met the EHD criteria and were discharged after 48 hours from Oct. 2018 to June 2021 and 560 patients discharged on standard-care pathways between April 2020 and June 2021.

Those discharged after 48 hours were more likely to have an anterior MI, multivessel disease, and multivessel PCI.
 

Comparable outcomes

The median length of stay was 24.6 hours (minimum 17 hours, maximum 40 hours) for the EHD group, 56.1 hours for historic control subjects, and 78.9 hours for the standard-care group.

The introduction of the EHD pathway significantly reduced the overall length of stay for all STEMI patients compared with the pre-pathway period of Oct. 2018 to March 2020 (median, 3 vs. 2 days; P < .0001).

Length of stay varied among patients; however, 420 patients stayed 1 less night in the hospital with the remaining patients staying about 8 to 12 fewer hours, resulting in approximate savings of £450,000, the authors note.

Over a median follow-up of 271 days, there were no cardiovascular deaths, two deaths from COVID-19, and a MACE rate of 1.2% (two deaths, three unscheduled revascularizations, and two further MI presentations) in the EHD group. That compares with a 0.7% mortality and 1.9% rate of MACE among historic control subjects, neither of which were significantly different.

There was also no difference in mortality (0.34% vs. 0.69%; P = .410) or MACE (1.2% vs. 1.9%; P = .342) among 560 pairs of propensity-matched EHD patients and historic control subjects.

Mortality was 4.1% in the standard-care group; cardiovascular mortality was 2.2%, and the rate of MACE was 8.6%.

When patients were surveyed, 85% were “satisfied” or “very satisfied” with the EHD pathway, whereas 73% of control and standard-care patients were satisfied with their care. Three-fourths of EHD patients also reported saving money and 62.5% saved time off work because of the virtual follow-up.
 

Judgment calls

“They didn’t really tell us much about the patients who didn’t qualify into this ultra–low-risk group but, obviously, it’s highly selected,” Cindy Grines, MD, Northside Hospital Cardiovascular Institute, Lawrenceville, Georgia, said in an interview. “In the U.S., you don’t get those chest pain onset-to-reperfusion in 80 minutes. So that was really kind of shocking.”

It also suggests that early discharge was applied to patients who may have had minimal myocardial damage from the STEMI, she suggested. “Even in their own hospital system, a lot of patients who met the criteria on paper were kept longer than 48 hours. So a lot of it’s a judgment call.”

Additional red flags where physicians may overrule the early discharge protocol are very late perfusion, advanced age, severe renal insufficiency, profound anemia, cardiac arrest requiring more than brief resuscitation, bleeding complications, or symptomatic coronavirus, Dr. Grines and J. Jeffrey Marshall, MD, also from Northside, observe in an accompanying editorial.

About 60% of patients were suitable for the EHD pathway, Dr. Jones said. “Typically, they are quite low risk, but we still had four in 10 anterior infarct, and about 25% had left ventricular function between 40% and 45%. So even though the majority are low risk, there are patients in there that you would consider to have had a decent infarct.”

“I think this is applicable to patients at most centers, and probably anywhere between a third to a fifth of all patients presenting to heart centers would be suitable for this discharge pathway,” he said.

Dr. Grines said the pathway is “definitely feasible” but there aren’t enough patients studied to know with 100% certainty whether it’s safe. A single observational study also isn’t enough to change guidelines, which in the United States do not comment on length of stay.

“In the ultra-low-risk patients – such as the ones where you got them in very early and you almost aborted the infarct or if it was a very small infarct – you can kind of treat them like an unstable angina patient, where you can do the PCI and potentially discharge them in 24 hours,” Dr. Grines said. “I think most of us might agree on that.”

“The other thing you have to weigh is the risk/benefit ratio,” she said. “If you have no beds available, you end up rationing care to some extent. So if you have a patient that’s otherwise doing well after a very small MI and have an emergency room full of people that need to be admitted and they’re sicker, then you end up making those judgment calls.”

Dr. Jones pointed out that current guidelines are based largely on observational data and that the team is planning to pilot the EHD pathway at five to 10 centers around the United Kingdom or potentially in Europe or the United States.

“This is an area where a [randomized controlled trial] RCT would be expensive, whereas a well-coordinated multicenter registry would probably provide enough information to change guidelines,” he said. “We’re not suggesting that every STEMI patient is suitable, but people that are low risk that you would already be considering for early discharge I think can go a bit quicker.”

Dr. Jones has received funding from the Barts Charity and financial support for blood pressure machines from the Barts Guild. First author Krishnaraj Rathod has received funding from the National Institute for Health and Research in the form of an Academic Clinical Lectureship. All other authors, Dr. Grines, and Dr. Marshall report having no relevant financial relationships.

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

Highly selected low-risk patients can be safely sent home about 24 hours after successful percutaneous coronary intervention (PCI) for ST-segment elevation myocardial infarction (STEMI) when supported by intense, multidisciplinary virtual follow-up, a prospective study suggests for the first time.

The risk for major adverse cardiac events (MACE) in STEMI patients following an early hospital discharge (EHD) pathway was similar at 9 months to that seen for propensity-matched historic control subjects who met the same EHD criteria but were discharged later than 48 hours.

The stay in almost half (48%) the early discharge group was 24 hours or less, according to the study, published Dec. 13 in the Journal of the American College of Cardiology.

“We’ve shown that if we use appropriate risk criteria and instigate the appropriate, safe follow-up that it’s safe to select and discharge low-risk patients at an earlier time period, such as 24 hours,” senior author Daniel A. Jones, PhD, Barts Heart Centre, London, this news organization.

“Obviously, it’s one center in one city in the world,” he said. “Whether it’s applicable at other heart site centers, I believe it is, but I think we need more data to be able to change guidelines.”

Current European Society of Cardiology guidelines say that select patients should be considered for early discharge 48 to 72 hours after STEMI, but the COVID-19 pandemic incentivized the team to try and push that window.

“The COVID pandemic essentially brought a focus on resources, on minimizing the risk to our patient population in terms of catching COVID within hospital,” he said. “It became clear that to maintain the heart site service, we probably needed to get people out a bit quicker than we did before, so we came up with this pathway.”

Between March 2020 and June 2021, 600 patients presenting with STEMI were entered into the EHD pathway if they met the following pre-existing criteria for 48- to 72-hour discharge:

• Left ventricular ejection fraction 40% or greater
• Successful primary PCI with TIMI flow grade 3
• Absence of bystander disease requiring inpatient revascularization
• No recurrent ischemic symptoms
• No heart failure
• No significant arrhythmias
• No hemodynamic instability
• No significant comorbidity
• Suitable social circumstances for early discharge

The patients were given cardiac rehabilitation counseling over the phone within 48 hours and blood pressure machines if not available at home. At weeks 2 and 8, they spoke virtually with a dedicated cardiology advanced care practitioner who up-titrated medications and answered any questions. At week 12, they were seen by an interventional cardiologist or at a high-risk prevention clinic.

Their mean age was 59.2 years, 86% were male, the median symptom-to-balloon time was 80 minutes, and median door-to-balloon time was 50 minutes.

The early discharge patients were compared with 700 historic control subjects who met the EHD criteria and were discharged after 48 hours from Oct. 2018 to June 2021 and 560 patients discharged on standard-care pathways between April 2020 and June 2021.

Those discharged after 48 hours were more likely to have an anterior MI, multivessel disease, and multivessel PCI.
 

Comparable outcomes

The median length of stay was 24.6 hours (minimum 17 hours, maximum 40 hours) for the EHD group, 56.1 hours for historic control subjects, and 78.9 hours for the standard-care group.

The introduction of the EHD pathway significantly reduced the overall length of stay for all STEMI patients compared with the pre-pathway period of Oct. 2018 to March 2020 (median, 3 vs. 2 days; P < .0001).

Length of stay varied among patients; however, 420 patients stayed 1 less night in the hospital with the remaining patients staying about 8 to 12 fewer hours, resulting in approximate savings of £450,000, the authors note.

Over a median follow-up of 271 days, there were no cardiovascular deaths, two deaths from COVID-19, and a MACE rate of 1.2% (two deaths, three unscheduled revascularizations, and two further MI presentations) in the EHD group. That compares with a 0.7% mortality and 1.9% rate of MACE among historic control subjects, neither of which were significantly different.

There was also no difference in mortality (0.34% vs. 0.69%; P = .410) or MACE (1.2% vs. 1.9%; P = .342) among 560 pairs of propensity-matched EHD patients and historic control subjects.

Mortality was 4.1% in the standard-care group; cardiovascular mortality was 2.2%, and the rate of MACE was 8.6%.

When patients were surveyed, 85% were “satisfied” or “very satisfied” with the EHD pathway, whereas 73% of control and standard-care patients were satisfied with their care. Three-fourths of EHD patients also reported saving money and 62.5% saved time off work because of the virtual follow-up.
 

Judgment calls

“They didn’t really tell us much about the patients who didn’t qualify into this ultra–low-risk group but, obviously, it’s highly selected,” Cindy Grines, MD, Northside Hospital Cardiovascular Institute, Lawrenceville, Georgia, said in an interview. “In the U.S., you don’t get those chest pain onset-to-reperfusion in 80 minutes. So that was really kind of shocking.”

It also suggests that early discharge was applied to patients who may have had minimal myocardial damage from the STEMI, she suggested. “Even in their own hospital system, a lot of patients who met the criteria on paper were kept longer than 48 hours. So a lot of it’s a judgment call.”

Additional red flags where physicians may overrule the early discharge protocol are very late perfusion, advanced age, severe renal insufficiency, profound anemia, cardiac arrest requiring more than brief resuscitation, bleeding complications, or symptomatic coronavirus, Dr. Grines and J. Jeffrey Marshall, MD, also from Northside, observe in an accompanying editorial.

About 60% of patients were suitable for the EHD pathway, Dr. Jones said. “Typically, they are quite low risk, but we still had four in 10 anterior infarct, and about 25% had left ventricular function between 40% and 45%. So even though the majority are low risk, there are patients in there that you would consider to have had a decent infarct.”

“I think this is applicable to patients at most centers, and probably anywhere between a third to a fifth of all patients presenting to heart centers would be suitable for this discharge pathway,” he said.

Dr. Grines said the pathway is “definitely feasible” but there aren’t enough patients studied to know with 100% certainty whether it’s safe. A single observational study also isn’t enough to change guidelines, which in the United States do not comment on length of stay.

“In the ultra-low-risk patients – such as the ones where you got them in very early and you almost aborted the infarct or if it was a very small infarct – you can kind of treat them like an unstable angina patient, where you can do the PCI and potentially discharge them in 24 hours,” Dr. Grines said. “I think most of us might agree on that.”

“The other thing you have to weigh is the risk/benefit ratio,” she said. “If you have no beds available, you end up rationing care to some extent. So if you have a patient that’s otherwise doing well after a very small MI and have an emergency room full of people that need to be admitted and they’re sicker, then you end up making those judgment calls.”

Dr. Jones pointed out that current guidelines are based largely on observational data and that the team is planning to pilot the EHD pathway at five to 10 centers around the United Kingdom or potentially in Europe or the United States.

“This is an area where a [randomized controlled trial] RCT would be expensive, whereas a well-coordinated multicenter registry would probably provide enough information to change guidelines,” he said. “We’re not suggesting that every STEMI patient is suitable, but people that are low risk that you would already be considering for early discharge I think can go a bit quicker.”

Dr. Jones has received funding from the Barts Charity and financial support for blood pressure machines from the Barts Guild. First author Krishnaraj Rathod has received funding from the National Institute for Health and Research in the form of an Academic Clinical Lectureship. All other authors, Dr. Grines, and Dr. Marshall report having no relevant financial relationships.

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

Adult atopic dermatitis (AD) patients with sleep disorders had higher levels of the inflammatory biomarker C-reactive protein (CRP), as well as a higher risk of developing adverse cardiovascular outcomes and mortality, results from a large cohort analysis showed.

“The implications of these findings are vast,” presenting author Varsha Parthasarathy said during a late-breaking abstract session at the Revolutionizing Atopic Dermatitis virtual symposium. “Poor sleep quality is known to be associated with increased inflammatory markers such as IL-6, IL-17, and CRP, so it is interesting to see this reflected in AD patients with versus without sleep disturbance. Additionally, we know that CRP is a driver of inflammation and is strongly associated with cardiovascular complications such as heart attack and stroke. Therefore, CRP may be a useful prognostic marker in AD patients with sleep disturbances.”

To examine the comorbidity burden of sleep disorders in AD patients and associate findings with inflammatory CRP and cardiovascular comorbidities, Mr. Parthasarathy, a medical student and itch fellow in the department of dermatology at the Johns Hopkins University School of Medicine, Baltimore, and colleagues drew from TriNetX, a health care network of approximately 73 million de-identified medical records in 53 organizations. The years of study were 2015 to 2021. The researchers limited the analysis to adults with at least two instances of International Classification of Diseases, Tenth Revision (ICD-10) code L28 for AD, to capture a population with true AD. Controls were adults without AD who presented for general checkup and were matched to AD patients by age, race, and sex.

The study population consisted of 120,480 AD patients and matched controls. Their mean age was 36 years, 61% were female, and 26% were Black. Compared with controls, AD patients had an increased risk of developing general sleep disorders over the 6-year period (relative risk, 1.10), as well as obstructive sleep apnea (RR, 1.13), insomnia (RR, 1.10), hypersomnia (RR, 1.24), sleep-related movement disorders (RR, 1.36), restless legs syndrome (RR, 1.25), sleep deprivation (RR, 1.36), and unspecified sleep disorders (RR, 1.22).

To examine the association of sleep disturbance with the inflammatory biomarker CRP, the researchers measured CRP levels between these patient groups. They found a substantially higher CRP in AD patients compared with controls (21.2 mg/L vs. 7.6 mg/L, respectively; P < .0001). This finding “is suggestive of a higher level of inflammation in these patients,” Mr. Parthasarathy said. Interestingly, he added, they also found a higher CRP level in AD patients with sleep disturbances compared to AD patients without sleep disturbances (23.3 vs. 20.6 mg/L; P = .02), “also pointing to a higher inflammatory burden in AD patients whose sleep was affected.”

Compared to matched AD patients without sleep disorders, AD patients with sleep disorders were more likely to develop obesity (RR, 2.65), hyperlipidemia (RR, 2.18), type 2 diabetes (RR, 2.45), metabolic syndrome (RR, 4.16), atherosclerosis (RR, 2.42), peripheral vascular disease (RR, 2.47), stroke (RR, 2.37), venous thromboembolism (RR, 2.93), and mortality (hazard ratio, 1.24).

“There is a consequence of not treating patients with atopic dermatitis, especially those patients with sleep disturbance,” the study’s primary author, Shawn G. Kwatra, MD, associate professor of dermatology at Johns Hopkins, told this news organization. “Chronic inflammation can lead to the development of comorbidities, so it is important to offer patients early treatment to reduce their overall inflammation.” He said that he was most surprised by the degree of increased inflammation in the blood of AD as compared to healthy controls. “This likely plays a part in the development of several comorbidities,” he said.

Mr. Parthasarathy acknowledged certain limitations of the study, including the inability to infer causal relationships, as uncontrolled factors may be present. “Additionally, sampling of only patients that have had medical encounters limits the generalizability of the findings,” she said. “However, findings in this large cohort study suggest that clinicians should seek to identify sleep disorders in AD patients and screen for cardiac comorbidities secondary to inflammation in this patient population.”

“There is increased data to suggest that adults with AD, particularly those with more severe disease, may be at an increased risk of cardiovascular disease and the results from [this study] further support the concept of AD as systemic disease,” said Zelma C. Chiesa Fuxench, MD, MSCE, assistant professor of dermatology at the University of Pennsylvania, Philadelphia, who was asked to comment on the study. She cited the large population-based, retrospective design and use of two instances of ICD codes for AD to confirm diagnosis as key strengths of the research. “However, it is unclear if for each patient CRP levels were measured at one single timepoint,” Dr. Chiesa Fuxench said. “For future studies, it would be interesting to see if these levels fluctuate with time and if persistently elevated levels are associated with worse cardiovascular outcomes in this population. More data is needed to better understand the relationship better atopic dermatitis disease severity, impact on sleep, and how this relates to increased systemic inflammation and worse cardiovascular outcomes in this population.”

Dr. Kwatra disclosed support by the National Institute of Arthritis and Musculoskeletal and Skin Diseases of the National Institutes of Health under Award Number K23AR077073-01A1 and previous funding by the Dermatology Foundation and Skin of Color Society. Dr. Kwatra is also an advisory board member/consultant for AbbVie, Celldex Therapeutics, Galderma, Incyte Corporation, Johnson & Johnson, Novartis Pharmaceuticals Corporation, Pfizer, Regeneron Pharmaceuticals, Sanofi, and Kiniksa Pharmaceuticals and has served as an investigator for Galderma, Pfizer, and Sanofi. Dr. Chiesa Fuxench disclosed research grants from several pharmaceutical companies for work related to AD. She has also served as a consultant for the Asthma and Allergy Foundation of America, National Eczema Association, AbbVie, Incyte Corporation, and Pfizer.

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

Adult atopic dermatitis (AD) patients with sleep disorders had higher levels of the inflammatory biomarker C-reactive protein (CRP), as well as a higher risk of developing adverse cardiovascular outcomes and mortality, results from a large cohort analysis showed.

“The implications of these findings are vast,” presenting author Varsha Parthasarathy said during a late-breaking abstract session at the Revolutionizing Atopic Dermatitis virtual symposium. “Poor sleep quality is known to be associated with increased inflammatory markers such as IL-6, IL-17, and CRP, so it is interesting to see this reflected in AD patients with versus without sleep disturbance. Additionally, we know that CRP is a driver of inflammation and is strongly associated with cardiovascular complications such as heart attack and stroke. Therefore, CRP may be a useful prognostic marker in AD patients with sleep disturbances.”

To examine the comorbidity burden of sleep disorders in AD patients and associate findings with inflammatory CRP and cardiovascular comorbidities, Mr. Parthasarathy, a medical student and itch fellow in the department of dermatology at the Johns Hopkins University School of Medicine, Baltimore, and colleagues drew from TriNetX, a health care network of approximately 73 million de-identified medical records in 53 organizations. The years of study were 2015 to 2021. The researchers limited the analysis to adults with at least two instances of International Classification of Diseases, Tenth Revision (ICD-10) code L28 for AD, to capture a population with true AD. Controls were adults without AD who presented for general checkup and were matched to AD patients by age, race, and sex.

The study population consisted of 120,480 AD patients and matched controls. Their mean age was 36 years, 61% were female, and 26% were Black. Compared with controls, AD patients had an increased risk of developing general sleep disorders over the 6-year period (relative risk, 1.10), as well as obstructive sleep apnea (RR, 1.13), insomnia (RR, 1.10), hypersomnia (RR, 1.24), sleep-related movement disorders (RR, 1.36), restless legs syndrome (RR, 1.25), sleep deprivation (RR, 1.36), and unspecified sleep disorders (RR, 1.22).

To examine the association of sleep disturbance with the inflammatory biomarker CRP, the researchers measured CRP levels between these patient groups. They found a substantially higher CRP in AD patients compared with controls (21.2 mg/L vs. 7.6 mg/L, respectively; P < .0001). This finding “is suggestive of a higher level of inflammation in these patients,” Mr. Parthasarathy said. Interestingly, he added, they also found a higher CRP level in AD patients with sleep disturbances compared to AD patients without sleep disturbances (23.3 vs. 20.6 mg/L; P = .02), “also pointing to a higher inflammatory burden in AD patients whose sleep was affected.”

Compared to matched AD patients without sleep disorders, AD patients with sleep disorders were more likely to develop obesity (RR, 2.65), hyperlipidemia (RR, 2.18), type 2 diabetes (RR, 2.45), metabolic syndrome (RR, 4.16), atherosclerosis (RR, 2.42), peripheral vascular disease (RR, 2.47), stroke (RR, 2.37), venous thromboembolism (RR, 2.93), and mortality (hazard ratio, 1.24).

“There is a consequence of not treating patients with atopic dermatitis, especially those patients with sleep disturbance,” the study’s primary author, Shawn G. Kwatra, MD, associate professor of dermatology at Johns Hopkins, told this news organization. “Chronic inflammation can lead to the development of comorbidities, so it is important to offer patients early treatment to reduce their overall inflammation.” He said that he was most surprised by the degree of increased inflammation in the blood of AD as compared to healthy controls. “This likely plays a part in the development of several comorbidities,” he said.

Mr. Parthasarathy acknowledged certain limitations of the study, including the inability to infer causal relationships, as uncontrolled factors may be present. “Additionally, sampling of only patients that have had medical encounters limits the generalizability of the findings,” she said. “However, findings in this large cohort study suggest that clinicians should seek to identify sleep disorders in AD patients and screen for cardiac comorbidities secondary to inflammation in this patient population.”

“There is increased data to suggest that adults with AD, particularly those with more severe disease, may be at an increased risk of cardiovascular disease and the results from [this study] further support the concept of AD as systemic disease,” said Zelma C. Chiesa Fuxench, MD, MSCE, assistant professor of dermatology at the University of Pennsylvania, Philadelphia, who was asked to comment on the study. She cited the large population-based, retrospective design and use of two instances of ICD codes for AD to confirm diagnosis as key strengths of the research. “However, it is unclear if for each patient CRP levels were measured at one single timepoint,” Dr. Chiesa Fuxench said. “For future studies, it would be interesting to see if these levels fluctuate with time and if persistently elevated levels are associated with worse cardiovascular outcomes in this population. More data is needed to better understand the relationship better atopic dermatitis disease severity, impact on sleep, and how this relates to increased systemic inflammation and worse cardiovascular outcomes in this population.”

Dr. Kwatra disclosed support by the National Institute of Arthritis and Musculoskeletal and Skin Diseases of the National Institutes of Health under Award Number K23AR077073-01A1 and previous funding by the Dermatology Foundation and Skin of Color Society. Dr. Kwatra is also an advisory board member/consultant for AbbVie, Celldex Therapeutics, Galderma, Incyte Corporation, Johnson & Johnson, Novartis Pharmaceuticals Corporation, Pfizer, Regeneron Pharmaceuticals, Sanofi, and Kiniksa Pharmaceuticals and has served as an investigator for Galderma, Pfizer, and Sanofi. Dr. Chiesa Fuxench disclosed research grants from several pharmaceutical companies for work related to AD. She has also served as a consultant for the Asthma and Allergy Foundation of America, National Eczema Association, AbbVie, Incyte Corporation, and Pfizer.

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

Adult atopic dermatitis (AD) patients with sleep disorders had higher levels of the inflammatory biomarker C-reactive protein (CRP), as well as a higher risk of developing adverse cardiovascular outcomes and mortality, results from a large cohort analysis showed.

“The implications of these findings are vast,” presenting author Varsha Parthasarathy said during a late-breaking abstract session at the Revolutionizing Atopic Dermatitis virtual symposium. “Poor sleep quality is known to be associated with increased inflammatory markers such as IL-6, IL-17, and CRP, so it is interesting to see this reflected in AD patients with versus without sleep disturbance. Additionally, we know that CRP is a driver of inflammation and is strongly associated with cardiovascular complications such as heart attack and stroke. Therefore, CRP may be a useful prognostic marker in AD patients with sleep disturbances.”

To examine the comorbidity burden of sleep disorders in AD patients and associate findings with inflammatory CRP and cardiovascular comorbidities, Mr. Parthasarathy, a medical student and itch fellow in the department of dermatology at the Johns Hopkins University School of Medicine, Baltimore, and colleagues drew from TriNetX, a health care network of approximately 73 million de-identified medical records in 53 organizations. The years of study were 2015 to 2021. The researchers limited the analysis to adults with at least two instances of International Classification of Diseases, Tenth Revision (ICD-10) code L28 for AD, to capture a population with true AD. Controls were adults without AD who presented for general checkup and were matched to AD patients by age, race, and sex.

The study population consisted of 120,480 AD patients and matched controls. Their mean age was 36 years, 61% were female, and 26% were Black. Compared with controls, AD patients had an increased risk of developing general sleep disorders over the 6-year period (relative risk, 1.10), as well as obstructive sleep apnea (RR, 1.13), insomnia (RR, 1.10), hypersomnia (RR, 1.24), sleep-related movement disorders (RR, 1.36), restless legs syndrome (RR, 1.25), sleep deprivation (RR, 1.36), and unspecified sleep disorders (RR, 1.22).

To examine the association of sleep disturbance with the inflammatory biomarker CRP, the researchers measured CRP levels between these patient groups. They found a substantially higher CRP in AD patients compared with controls (21.2 mg/L vs. 7.6 mg/L, respectively; P < .0001). This finding “is suggestive of a higher level of inflammation in these patients,” Mr. Parthasarathy said. Interestingly, he added, they also found a higher CRP level in AD patients with sleep disturbances compared to AD patients without sleep disturbances (23.3 vs. 20.6 mg/L; P = .02), “also pointing to a higher inflammatory burden in AD patients whose sleep was affected.”

Compared to matched AD patients without sleep disorders, AD patients with sleep disorders were more likely to develop obesity (RR, 2.65), hyperlipidemia (RR, 2.18), type 2 diabetes (RR, 2.45), metabolic syndrome (RR, 4.16), atherosclerosis (RR, 2.42), peripheral vascular disease (RR, 2.47), stroke (RR, 2.37), venous thromboembolism (RR, 2.93), and mortality (hazard ratio, 1.24).

“There is a consequence of not treating patients with atopic dermatitis, especially those patients with sleep disturbance,” the study’s primary author, Shawn G. Kwatra, MD, associate professor of dermatology at Johns Hopkins, told this news organization. “Chronic inflammation can lead to the development of comorbidities, so it is important to offer patients early treatment to reduce their overall inflammation.” He said that he was most surprised by the degree of increased inflammation in the blood of AD as compared to healthy controls. “This likely plays a part in the development of several comorbidities,” he said.

Mr. Parthasarathy acknowledged certain limitations of the study, including the inability to infer causal relationships, as uncontrolled factors may be present. “Additionally, sampling of only patients that have had medical encounters limits the generalizability of the findings,” she said. “However, findings in this large cohort study suggest that clinicians should seek to identify sleep disorders in AD patients and screen for cardiac comorbidities secondary to inflammation in this patient population.”

“There is increased data to suggest that adults with AD, particularly those with more severe disease, may be at an increased risk of cardiovascular disease and the results from [this study] further support the concept of AD as systemic disease,” said Zelma C. Chiesa Fuxench, MD, MSCE, assistant professor of dermatology at the University of Pennsylvania, Philadelphia, who was asked to comment on the study. She cited the large population-based, retrospective design and use of two instances of ICD codes for AD to confirm diagnosis as key strengths of the research. “However, it is unclear if for each patient CRP levels were measured at one single timepoint,” Dr. Chiesa Fuxench said. “For future studies, it would be interesting to see if these levels fluctuate with time and if persistently elevated levels are associated with worse cardiovascular outcomes in this population. More data is needed to better understand the relationship better atopic dermatitis disease severity, impact on sleep, and how this relates to increased systemic inflammation and worse cardiovascular outcomes in this population.”

Dr. Kwatra disclosed support by the National Institute of Arthritis and Musculoskeletal and Skin Diseases of the National Institutes of Health under Award Number K23AR077073-01A1 and previous funding by the Dermatology Foundation and Skin of Color Society. Dr. Kwatra is also an advisory board member/consultant for AbbVie, Celldex Therapeutics, Galderma, Incyte Corporation, Johnson & Johnson, Novartis Pharmaceuticals Corporation, Pfizer, Regeneron Pharmaceuticals, Sanofi, and Kiniksa Pharmaceuticals and has served as an investigator for Galderma, Pfizer, and Sanofi. Dr. Chiesa Fuxench disclosed research grants from several pharmaceutical companies for work related to AD. She has also served as a consultant for the Asthma and Allergy Foundation of America, National Eczema Association, AbbVie, Incyte Corporation, and Pfizer.

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

Pheochromocytoma is a rare catecholamine-secreting tumor of chromaffin cells of the adrenal medulla or sympathetic ganglia, occurring in about 0.2 to 0.5% of patients with hypertension.^1-3 However, in a review of 54 autopsy-proven cases of pheochromocytoma, about 50% of the patients with hypertension were not clinically suspected for pheochromocytoma.⁴

Pheochromocytoma is usually diagnosed based on symptoms of hyperadrenergic spells, resistant hypertension, especially in the young, with a pressor response to the anesthesia stress test and adrenal incidentaloma.

The classic triad of symptoms associated with pheochromocytoma includes episodic headache (90%), sweating (60-70%), and palpitations (70%).^2,5 Sustained or paroxysmal hypertension is the most common symptom reported in about 95% of patients with pheochromocytoma. Other symptoms include pallor, tremors, dyspnea, generalized weakness, orthostatic hypotension, cardiomyopathy, or hyperglycemia.⁶ However, about 10% of patients with pheochromocytoma are asymptomatic or mildly symptomatic.⁷ Secondary causes of hypertension are usually suspected in multidrug resistant or sudden early onset of hypertension.⁸

Approximately 10% of catecholamine-secreting tumors are malignant.^9-11 Benign and malignant pheochromocytoma have a similar biochemical and histologic presentation and are differentiated based on local invasion into the surrounding tissues and organs (eg, kidney, liver) or distant metastasis.

A high index of suspicion is necessary during the workup of secondary hypertension as untreated pheochromocytoma may lead to significant morbidity and mortality, especially in patients who require surgical treatment.^4,12 Multiple cases of hypertensive crisis, pulmonary edema, cardiac arrhythmia, and cardiogenic shock are reported in undiagnosed patients with pheochromocytoma undergoing both adrenal or nonadrenal surgery who were not medically prepared with α- and β-adrenergic antagonists and fluids before surgery.^13,14

A typical workup of a suspected patient with pheochromocytoma includes biochemical tests, including measurements of urinary and fractionated plasma metanephrines and catecholamine. Patients with positive biochemical tests should undergo localization of the tumor with an imaging study either with an adrenal/abdominal magnetic resonance imaging (MRI) or computed tomography (CT) scan. If a patient has paraganglioma or an adrenal mass > 10 cm or negative abdominal imaging with a positive biochemical test, further imaging with an iobenguane I-123 scan is needed (Figure 1).

Case Presentation

A 72-year-old male with a medical history of diabetes, hypertension, sensory neuropathy, benign prostatic hypertrophy (BPH) status posttransurethral resection of the prostate, and chronic renal failure presented to establish care with the Arizona Kidney Disease and Hypertension Center. His medications included losartan 50 mg by mouth daily, diltiazem 180 mg extended-release by mouth daily, carvedilol 6.25 mg by mouth twice a day, and tamsulosin 0.4 mg by mouth daily. His presenting vitals were blood pressure (BP), 112/74 left arm sitting, pulse, 63/beats per min, and body mass index, 34. On physical examination, the patient was alert and oriented, and the chest was clear to auscultation without wheeze or rhonchi. On cardiac examination, heart rate and rhythm were regular; S1 and S2 were normal with no added murmurs, rubs or gallops, and no jugular venous distension. The abdomen was soft, nontender, with no palpable mass. His laboratory results showed sodium, 142 mmol/L; potassium, 5.3 mmol/L; chloride, 101 mmol/L; carbon dioxide, 24 mmol/L; albumin, 4.3 g/dL; creatinine, 1.89 mg/dL; blood urea nitrogen, 29 mg/dL; estimated glomerular filtration rate non-African American, 35 mL/min/1.73; 24-h urine creatinine clearance, 105 mL/min; protein, 1306 mg/24 h (Table).

His renal ultrasound showed an exophytic isoechoic mass or complex cyst at the lateral aspect of the lower pole of the right kidney, measuring 45 mm in diameter. An MRI of the abdomen with and without contrast showed a solid partially exophytic mass of the posterolateral interpolar cortex of the right kidney, measuring 5.9 cm in the greatest dimension (Figure 2). No definite involvement of Gerota fascia was noted, a 1-cm metastasis to the right adrenal gland was present, renal veins were patent, and there was no upper retroperitoneal lymphadenopathy.

Treatment and Follow-up

The patient underwent right-hand-assisted lap-aroscopic radical nephrectomy and right adre-nalectomy without any complications. However, the surgical pathology report showed oncocytoma of the kidney (5.7 cm), pheochromocytoma of the adrenal gland (1.4 cm), and papillary adenoma of the kidney (0.7 cm). Right kidney nephrectomy showed non-neoplastic renal parenchyma, diabetic glomerulosclerosis (Renal Pathology Society 2010 diabetic nephropathy class IIb), severe mesangial expansion, moderate interstitial fibrosis, moderate arteriosclerosis, and mild arteriolosclerosis.

A fluorodeoxyglucose-positron emission tomography (FDG-PET) scan was significant for right nephrectomy and adrenalectomy and showed no significant evidence of residual neoplasm or local or distant metastases. A nuclear medicine (iobenguane I-123) tumor and single positron emission computed tomography (SPECT) scan showed normal activity throughout the body and no evidence of abnormal activity (Figure 3).

Discussion

Pheochromocytoma is a rare cause of secondary hypertension. However, the real numbers are thought to be > 0.2 to 0.5%.^1,2,4 Patients with pheochromocytoma should undergo surgical adrenal resection after appropriate medical preparation. Patients with pheochromocytoma who are not diagnosed preoperatively have increased surgical mortality rates due to fatal hypertensive crises, malignant arrhythmia, and multiorgan failure as a result of hypertensive crisis.¹⁵ Anesthetic drugs during surgery also can exacerbate the cardiotoxic effects of catecholamines. Short-acting anesthetic agents, such as fentanyl, are used in patients with pheochromocytoma.¹⁶

This case of pheochromocytoma illustrated no classic symptoms of episodic headache, sweating, and tachycardia, and the patient was otherwise asymptomatic. BP was well controlled with losartan, diltiazem, and a β-blocker with α-blocking activity (carvedilol). As the patient was not known to have pheochromocytoma, he did not undergo preoperative medical therapy. Figure 4 illustrates the receptors stimulate catecholamines, and the drugs blocking these receptors prevent hypertensive crisis during surgery. However, the surgery was without potential complications (ie, hypertensive crisis, malignant arrhythmia, or multiorgan failure). The patient was diagnosed incidentally on histopathology after right radical nephrectomy and adrenalectomy due to solid partially exophytic right renal mass (5.9 cm) with right adrenal metastasis. About 10% of patients are asymptomatic or mildly symptomatic.⁷ Sometimes, the symptoms may be ignored because of the episodic nature. Other possible reasons can be small, nonfunctional tumors or the use of antihypertensive medications suppressing the symptoms.⁷

The adrenal mass that was initially thought to be a metastasis of right kidney mass was later confirmed as pheochromocytoma. One possible explanation for uneventful surgery could be the use of β-blocker with α-blocking activity (carvedilol), α-1 adrenergic blocker (tamsulosin) along with nondihydropyridine calcium channel blocker (diltiazem) as part of the patient’s antihypertensive and BPH medication regimen. Another possible explanation could be silent or episodically secreting pheochromocytoma with a small functional portion.

Conclusions

Asymptomatic pheochromocytoma is an unusual but serious condition, especially for patients undergoing a surgical procedure. An adrenal mass may be ignored in asymptomatic or mildly symptomatic older adult patients and is mostly considered as adrenal metastasis when present with other malignancies. Fortunately, the nephrectomy and adrenalectomy in our case of asymptomatic pheochromocytoma was uneventful, but pheochromocytoma should be ruled out before a surgical procedure, as an absence of medical pretreatment can lead to serious consequences. Therefore, we suggest a more careful screening of pheochromocytoma in patients with an adrenal mass (primary or metastatic) and hypertension treated with multiple antihypertensive drugs, even in older adult patients.

Pheochromocytoma is a rare catecholamine-secreting tumor of chromaffin cells of the adrenal medulla or sympathetic ganglia, occurring in about 0.2 to 0.5% of patients with hypertension.^1-3 However, in a review of 54 autopsy-proven cases of pheochromocytoma, about 50% of the patients with hypertension were not clinically suspected for pheochromocytoma.⁴

Pheochromocytoma is usually diagnosed based on symptoms of hyperadrenergic spells, resistant hypertension, especially in the young, with a pressor response to the anesthesia stress test and adrenal incidentaloma.

The classic triad of symptoms associated with pheochromocytoma includes episodic headache (90%), sweating (60-70%), and palpitations (70%).^2,5 Sustained or paroxysmal hypertension is the most common symptom reported in about 95% of patients with pheochromocytoma. Other symptoms include pallor, tremors, dyspnea, generalized weakness, orthostatic hypotension, cardiomyopathy, or hyperglycemia.⁶ However, about 10% of patients with pheochromocytoma are asymptomatic or mildly symptomatic.⁷ Secondary causes of hypertension are usually suspected in multidrug resistant or sudden early onset of hypertension.⁸

Approximately 10% of catecholamine-secreting tumors are malignant.^9-11 Benign and malignant pheochromocytoma have a similar biochemical and histologic presentation and are differentiated based on local invasion into the surrounding tissues and organs (eg, kidney, liver) or distant metastasis.

A high index of suspicion is necessary during the workup of secondary hypertension as untreated pheochromocytoma may lead to significant morbidity and mortality, especially in patients who require surgical treatment.^4,12 Multiple cases of hypertensive crisis, pulmonary edema, cardiac arrhythmia, and cardiogenic shock are reported in undiagnosed patients with pheochromocytoma undergoing both adrenal or nonadrenal surgery who were not medically prepared with α- and β-adrenergic antagonists and fluids before surgery.^13,14

A typical workup of a suspected patient with pheochromocytoma includes biochemical tests, including measurements of urinary and fractionated plasma metanephrines and catecholamine. Patients with positive biochemical tests should undergo localization of the tumor with an imaging study either with an adrenal/abdominal magnetic resonance imaging (MRI) or computed tomography (CT) scan. If a patient has paraganglioma or an adrenal mass > 10 cm or negative abdominal imaging with a positive biochemical test, further imaging with an iobenguane I-123 scan is needed (Figure 1).

Case Presentation

A 72-year-old male with a medical history of diabetes, hypertension, sensory neuropathy, benign prostatic hypertrophy (BPH) status posttransurethral resection of the prostate, and chronic renal failure presented to establish care with the Arizona Kidney Disease and Hypertension Center. His medications included losartan 50 mg by mouth daily, diltiazem 180 mg extended-release by mouth daily, carvedilol 6.25 mg by mouth twice a day, and tamsulosin 0.4 mg by mouth daily. His presenting vitals were blood pressure (BP), 112/74 left arm sitting, pulse, 63/beats per min, and body mass index, 34. On physical examination, the patient was alert and oriented, and the chest was clear to auscultation without wheeze or rhonchi. On cardiac examination, heart rate and rhythm were regular; S1 and S2 were normal with no added murmurs, rubs or gallops, and no jugular venous distension. The abdomen was soft, nontender, with no palpable mass. His laboratory results showed sodium, 142 mmol/L; potassium, 5.3 mmol/L; chloride, 101 mmol/L; carbon dioxide, 24 mmol/L; albumin, 4.3 g/dL; creatinine, 1.89 mg/dL; blood urea nitrogen, 29 mg/dL; estimated glomerular filtration rate non-African American, 35 mL/min/1.73; 24-h urine creatinine clearance, 105 mL/min; protein, 1306 mg/24 h (Table).

His renal ultrasound showed an exophytic isoechoic mass or complex cyst at the lateral aspect of the lower pole of the right kidney, measuring 45 mm in diameter. An MRI of the abdomen with and without contrast showed a solid partially exophytic mass of the posterolateral interpolar cortex of the right kidney, measuring 5.9 cm in the greatest dimension (Figure 2). No definite involvement of Gerota fascia was noted, a 1-cm metastasis to the right adrenal gland was present, renal veins were patent, and there was no upper retroperitoneal lymphadenopathy.

Treatment and Follow-up

The patient underwent right-hand-assisted lap-aroscopic radical nephrectomy and right adre-nalectomy without any complications. However, the surgical pathology report showed oncocytoma of the kidney (5.7 cm), pheochromocytoma of the adrenal gland (1.4 cm), and papillary adenoma of the kidney (0.7 cm). Right kidney nephrectomy showed non-neoplastic renal parenchyma, diabetic glomerulosclerosis (Renal Pathology Society 2010 diabetic nephropathy class IIb), severe mesangial expansion, moderate interstitial fibrosis, moderate arteriosclerosis, and mild arteriolosclerosis.

A fluorodeoxyglucose-positron emission tomography (FDG-PET) scan was significant for right nephrectomy and adrenalectomy and showed no significant evidence of residual neoplasm or local or distant metastases. A nuclear medicine (iobenguane I-123) tumor and single positron emission computed tomography (SPECT) scan showed normal activity throughout the body and no evidence of abnormal activity (Figure 3).

Discussion

Pheochromocytoma is a rare cause of secondary hypertension. However, the real numbers are thought to be > 0.2 to 0.5%.^1,2,4 Patients with pheochromocytoma should undergo surgical adrenal resection after appropriate medical preparation. Patients with pheochromocytoma who are not diagnosed preoperatively have increased surgical mortality rates due to fatal hypertensive crises, malignant arrhythmia, and multiorgan failure as a result of hypertensive crisis.¹⁵ Anesthetic drugs during surgery also can exacerbate the cardiotoxic effects of catecholamines. Short-acting anesthetic agents, such as fentanyl, are used in patients with pheochromocytoma.¹⁶

This case of pheochromocytoma illustrated no classic symptoms of episodic headache, sweating, and tachycardia, and the patient was otherwise asymptomatic. BP was well controlled with losartan, diltiazem, and a β-blocker with α-blocking activity (carvedilol). As the patient was not known to have pheochromocytoma, he did not undergo preoperative medical therapy. Figure 4 illustrates the receptors stimulate catecholamines, and the drugs blocking these receptors prevent hypertensive crisis during surgery. However, the surgery was without potential complications (ie, hypertensive crisis, malignant arrhythmia, or multiorgan failure). The patient was diagnosed incidentally on histopathology after right radical nephrectomy and adrenalectomy due to solid partially exophytic right renal mass (5.9 cm) with right adrenal metastasis. About 10% of patients are asymptomatic or mildly symptomatic.⁷ Sometimes, the symptoms may be ignored because of the episodic nature. Other possible reasons can be small, nonfunctional tumors or the use of antihypertensive medications suppressing the symptoms.⁷

The adrenal mass that was initially thought to be a metastasis of right kidney mass was later confirmed as pheochromocytoma. One possible explanation for uneventful surgery could be the use of β-blocker with α-blocking activity (carvedilol), α-1 adrenergic blocker (tamsulosin) along with nondihydropyridine calcium channel blocker (diltiazem) as part of the patient’s antihypertensive and BPH medication regimen. Another possible explanation could be silent or episodically secreting pheochromocytoma with a small functional portion.

Conclusions

Asymptomatic pheochromocytoma is an unusual but serious condition, especially for patients undergoing a surgical procedure. An adrenal mass may be ignored in asymptomatic or mildly symptomatic older adult patients and is mostly considered as adrenal metastasis when present with other malignancies. Fortunately, the nephrectomy and adrenalectomy in our case of asymptomatic pheochromocytoma was uneventful, but pheochromocytoma should be ruled out before a surgical procedure, as an absence of medical pretreatment can lead to serious consequences. Therefore, we suggest a more careful screening of pheochromocytoma in patients with an adrenal mass (primary or metastatic) and hypertension treated with multiple antihypertensive drugs, even in older adult patients.

Pheochromocytoma is a rare catecholamine-secreting tumor of chromaffin cells of the adrenal medulla or sympathetic ganglia, occurring in about 0.2 to 0.5% of patients with hypertension.^1-3 However, in a review of 54 autopsy-proven cases of pheochromocytoma, about 50% of the patients with hypertension were not clinically suspected for pheochromocytoma.⁴

Pheochromocytoma is usually diagnosed based on symptoms of hyperadrenergic spells, resistant hypertension, especially in the young, with a pressor response to the anesthesia stress test and adrenal incidentaloma.

The classic triad of symptoms associated with pheochromocytoma includes episodic headache (90%), sweating (60-70%), and palpitations (70%).^2,5 Sustained or paroxysmal hypertension is the most common symptom reported in about 95% of patients with pheochromocytoma. Other symptoms include pallor, tremors, dyspnea, generalized weakness, orthostatic hypotension, cardiomyopathy, or hyperglycemia.⁶ However, about 10% of patients with pheochromocytoma are asymptomatic or mildly symptomatic.⁷ Secondary causes of hypertension are usually suspected in multidrug resistant or sudden early onset of hypertension.⁸

Approximately 10% of catecholamine-secreting tumors are malignant.^9-11 Benign and malignant pheochromocytoma have a similar biochemical and histologic presentation and are differentiated based on local invasion into the surrounding tissues and organs (eg, kidney, liver) or distant metastasis.

A high index of suspicion is necessary during the workup of secondary hypertension as untreated pheochromocytoma may lead to significant morbidity and mortality, especially in patients who require surgical treatment.^4,12 Multiple cases of hypertensive crisis, pulmonary edema, cardiac arrhythmia, and cardiogenic shock are reported in undiagnosed patients with pheochromocytoma undergoing both adrenal or nonadrenal surgery who were not medically prepared with α- and β-adrenergic antagonists and fluids before surgery.^13,14

A typical workup of a suspected patient with pheochromocytoma includes biochemical tests, including measurements of urinary and fractionated plasma metanephrines and catecholamine. Patients with positive biochemical tests should undergo localization of the tumor with an imaging study either with an adrenal/abdominal magnetic resonance imaging (MRI) or computed tomography (CT) scan. If a patient has paraganglioma or an adrenal mass > 10 cm or negative abdominal imaging with a positive biochemical test, further imaging with an iobenguane I-123 scan is needed (Figure 1).

Case Presentation

A 72-year-old male with a medical history of diabetes, hypertension, sensory neuropathy, benign prostatic hypertrophy (BPH) status posttransurethral resection of the prostate, and chronic renal failure presented to establish care with the Arizona Kidney Disease and Hypertension Center. His medications included losartan 50 mg by mouth daily, diltiazem 180 mg extended-release by mouth daily, carvedilol 6.25 mg by mouth twice a day, and tamsulosin 0.4 mg by mouth daily. His presenting vitals were blood pressure (BP), 112/74 left arm sitting, pulse, 63/beats per min, and body mass index, 34. On physical examination, the patient was alert and oriented, and the chest was clear to auscultation without wheeze or rhonchi. On cardiac examination, heart rate and rhythm were regular; S1 and S2 were normal with no added murmurs, rubs or gallops, and no jugular venous distension. The abdomen was soft, nontender, with no palpable mass. His laboratory results showed sodium, 142 mmol/L; potassium, 5.3 mmol/L; chloride, 101 mmol/L; carbon dioxide, 24 mmol/L; albumin, 4.3 g/dL; creatinine, 1.89 mg/dL; blood urea nitrogen, 29 mg/dL; estimated glomerular filtration rate non-African American, 35 mL/min/1.73; 24-h urine creatinine clearance, 105 mL/min; protein, 1306 mg/24 h (Table).

His renal ultrasound showed an exophytic isoechoic mass or complex cyst at the lateral aspect of the lower pole of the right kidney, measuring 45 mm in diameter. An MRI of the abdomen with and without contrast showed a solid partially exophytic mass of the posterolateral interpolar cortex of the right kidney, measuring 5.9 cm in the greatest dimension (Figure 2). No definite involvement of Gerota fascia was noted, a 1-cm metastasis to the right adrenal gland was present, renal veins were patent, and there was no upper retroperitoneal lymphadenopathy.

Treatment and Follow-up

The patient underwent right-hand-assisted lap-aroscopic radical nephrectomy and right adre-nalectomy without any complications. However, the surgical pathology report showed oncocytoma of the kidney (5.7 cm), pheochromocytoma of the adrenal gland (1.4 cm), and papillary adenoma of the kidney (0.7 cm). Right kidney nephrectomy showed non-neoplastic renal parenchyma, diabetic glomerulosclerosis (Renal Pathology Society 2010 diabetic nephropathy class IIb), severe mesangial expansion, moderate interstitial fibrosis, moderate arteriosclerosis, and mild arteriolosclerosis.

A fluorodeoxyglucose-positron emission tomography (FDG-PET) scan was significant for right nephrectomy and adrenalectomy and showed no significant evidence of residual neoplasm or local or distant metastases. A nuclear medicine (iobenguane I-123) tumor and single positron emission computed tomography (SPECT) scan showed normal activity throughout the body and no evidence of abnormal activity (Figure 3).

Discussion

Pheochromocytoma is a rare cause of secondary hypertension. However, the real numbers are thought to be > 0.2 to 0.5%.^1,2,4 Patients with pheochromocytoma should undergo surgical adrenal resection after appropriate medical preparation. Patients with pheochromocytoma who are not diagnosed preoperatively have increased surgical mortality rates due to fatal hypertensive crises, malignant arrhythmia, and multiorgan failure as a result of hypertensive crisis.¹⁵ Anesthetic drugs during surgery also can exacerbate the cardiotoxic effects of catecholamines. Short-acting anesthetic agents, such as fentanyl, are used in patients with pheochromocytoma.¹⁶

This case of pheochromocytoma illustrated no classic symptoms of episodic headache, sweating, and tachycardia, and the patient was otherwise asymptomatic. BP was well controlled with losartan, diltiazem, and a β-blocker with α-blocking activity (carvedilol). As the patient was not known to have pheochromocytoma, he did not undergo preoperative medical therapy. Figure 4 illustrates the receptors stimulate catecholamines, and the drugs blocking these receptors prevent hypertensive crisis during surgery. However, the surgery was without potential complications (ie, hypertensive crisis, malignant arrhythmia, or multiorgan failure). The patient was diagnosed incidentally on histopathology after right radical nephrectomy and adrenalectomy due to solid partially exophytic right renal mass (5.9 cm) with right adrenal metastasis. About 10% of patients are asymptomatic or mildly symptomatic.⁷ Sometimes, the symptoms may be ignored because of the episodic nature. Other possible reasons can be small, nonfunctional tumors or the use of antihypertensive medications suppressing the symptoms.⁷

The adrenal mass that was initially thought to be a metastasis of right kidney mass was later confirmed as pheochromocytoma. One possible explanation for uneventful surgery could be the use of β-blocker with α-blocking activity (carvedilol), α-1 adrenergic blocker (tamsulosin) along with nondihydropyridine calcium channel blocker (diltiazem) as part of the patient’s antihypertensive and BPH medication regimen. Another possible explanation could be silent or episodically secreting pheochromocytoma with a small functional portion.

Conclusions

Asymptomatic pheochromocytoma is an unusual but serious condition, especially for patients undergoing a surgical procedure. An adrenal mass may be ignored in asymptomatic or mildly symptomatic older adult patients and is mostly considered as adrenal metastasis when present with other malignancies. Fortunately, the nephrectomy and adrenalectomy in our case of asymptomatic pheochromocytoma was uneventful, but pheochromocytoma should be ruled out before a surgical procedure, as an absence of medical pretreatment can lead to serious consequences. Therefore, we suggest a more careful screening of pheochromocytoma in patients with an adrenal mass (primary or metastatic) and hypertension treated with multiple antihypertensive drugs, even in older adult patients.

Adapted D-dimer thresholds based on pretest probability were effective for ruling out pulmonary embolism (PE) in subgroups of high-risk individuals without the use of imaging in a review of data.

In a patient suspected to have a PE, “diagnosis is made radiographically, usually with CT pulmonary angiogram, or V/Q scan,” Suman Pal, MD, of the University of New Mexico, Albuquerque, said in an interview.

“Validated clinical decision tools such as Wells’ score or Geneva score may be used to identify patients at low pretest probability of PE who may initially get a D-dimer level check, followed by imaging only if D-dimer level is elevated,” explained Dr. Pal, who was not involved with the new research, which was published in the Annals of Internal Medicine.

According to the authors of the new paper, while current diagnostic strategies in patients with suspected PE include use of a validated clinical decision rule (CDR) and D-dimer testing to rule out PE without imaging tests, the effectiveness of D-dimer tests in older patients, inpatients, cancer patients, and other high-risk groups has not been well-studied.

Lead author of the paper, Milou A.M. Stals, MD, and colleagues said their goal was to evaluate the safety and efficiency of the Wells rule and revised Geneva score in combination with D-dimer tests, and also the YEARS algorithm for D-dimer thresholds, in their paper.

Dr. Stals, of Leiden (the Netherlands) University Medical Center, and the coinvestigators conducted an international systemic review and individual patient data meta-analysis that included 16 studies and 20,553 patients, with all studies having been published between Jan. 1, 1995, and Jan. 1, 2021. Their primary outcomes were the safety and efficiency of each of these three strategies.

In the review, the researchers defined safety as the 3-month incidence of venous thromboembolism after PE was ruled out without imaging at baseline. They defined efficiency as the proportion patients for whom PE was ruled out based on D-dimer thresholds without imaging.

Overall, efficiency was highest in the subset of patients aged younger than 40 years, ranging from 47% to 68% in this group. Efficiency was lowest in patients aged 80 years and older (6.0%-23%), and in patients with cancer (9.6%-26%).

The efficiency was higher when D-dimer thresholds based on pretest probability were used, compared with when fixed or age-adjusted D-dimer thresholds were used.

The key finding was the significant variability in performance of the diagnostic strategies, the researchers said.

“The predicted failure rate was generally highest for strategies incorporating adapted D-dimer thresholds. However, at the same time, predicted overall efficiency was substantially higher with these strategies versus strategies with a fixed D-dimer threshold as well,” they said. Given that the benefits of each of the three diagnostic strategies depends on their correct application, the researchers recommended that an individual hospitalist choose one strategy for their institution.

“Whether clinicians should rely on the Wells rule, the YEARS algorithm, or the revised Geneva score becomes a matter of local preference and experience,” Dr. Stals and colleagues wrote.

The study findings were limited by several factors including between-study differences in scoring predictors and D-dimer assays. Another limitation was that differential verification biases for classifying fatal events and PE may have contributed to overestimation of failure rates of the adapted D-dimer thresholds.

Strengths of the study included its large sample size and original data on pretest probability, and that data support the use of any of the three strategies for ruling out PE in the identified subgroups without the need for imaging tests, the authors wrote.

“Pending the results of ongoing diagnostic randomized trials, physicians and guideline committees should balance the interlink between safety and efficiency of available diagnostic strategies,” they concluded.

Adapted D-dimer benefits some patients

“Clearly, increasing the D-dimer cutoff will lower the number of patients who require radiographic imaging (improved specificity), but this comes with a risk for missing PE (lower sensitivity). Is this risk worth taking?” Daniel J. Brotman, MD, of Johns Hopkins University, Baltimore, asked in an editorial accompanying the new study.

Dr. Brotman was not surprised by the study findings.

“Conditions that predispose to thrombosis through activated hemostasis – such as advanced age, cancer, inflammation, prolonged hospitalization, and trauma – drive D-dimer levels higher independent of the presence or absence of radiographically apparent thrombosis,” he said. However, these patients are unlikely to have normal D-dimer levels regardless of the cutoff used.

Adapted D-dimer cutoffs may benefit some patients, including those with contraindications or limited access to imaging, said Dr. Brotman. D-dimer may be used for risk stratification regardless of PE, since patients with marginally elevated D-dimers have better prognoses than those with higher D-dimer elevations, even if a small PE is missed.

Dr. Brotman wrote that increasing D-dimer cutoffs for high-risk patients in the subgroups analyzed may spare some patients radiographic testing, but doing so carries an increased risk for diagnostic failure. Overall, “the important work by Stals and colleagues offers reassurance that modifying D-dimer thresholds according to age or pretest probability is safe enough for widespread practice, even in high-risk groups.”
 

Focus on single strategy ‘based on local needs’

“Several validated clinical decision tools, along with age or pretest probability adjusted D-dimer threshold are currently in use as diagnostic strategies for ruling out pulmonary embolism,” Dr. Pal said in an interview.

The current study is important because of limited data on the performance of these strategies in specific subgroups of patients whose risk of PE may differ from the overall patient population, he noted.

“Different diagnostic strategies for PE have a variable performance in patients with differences of age, active cancer, and history of VTE,” said Dr. Pal. “However, in this study, no clear preference for one strategy over others could be established for these subgroups, and clinicians should continue to follow institution-specific guidance.

“A single strategy should be adopted at each institution based on local needs and used as the standard of care until further data are available,” he said.

“The use of D-dimer to rule out PE, either with fixed threshold or age-adjusted thresholds, can be confounded in clinical settings by other comorbid conditions such as sepsis, recent surgery, and more recently, COVID-19,” he said.

“Since the findings of this study do not show a clear benefit of one diagnostic strategy over others in the analyzed subgroups of patients, further prospective head-to-head comparison among the subgroups of interest would be helpful to guide clinical decision making,” Dr. Pal added.
 

YEARS-specific study supports D-dimer safety and value

A recent paper published in JAMA supported the results of the meta-analysis. In that study, Yonathan Freund, MD, of Sorbonne Université, Paris, and colleagues focused on the YEARS strategy combined with age-adjusted D-dimer thresholds as a way to rule out PE in PERC-positive ED patients.

The authors of this paper randomized 18 EDs to either a protocol of intervention followed by control, or control followed by intervention. The study population included 726 patients in the intervention group and 688 in the control group.

The intervention strategy to rule out PE consisted of assessing the YEARS criteria and D-dimer testing. PE was ruled out in patients with no YEARS criteria and a D-dimer level below 1,000 ng/mL and in patients with one or more YEARS criteria and D-dimers below an age-adjusted threshold (defined as age times 10 ng/mL in patients aged 50 years and older).

The control strategy consisted of D-dimer testing for all patients with the threshold at age-adjusted levels; D-dimers about these levels prompted chest imaging.

Overall, the risk of a missed VTE at 3 months was noninferior between the groups (0.15% in the intervention group and 0.80% in the controls).

“The intervention was associated with a statistically significant reduction in chest imaging use,” the researchers wrote.

This study’s findings were limited by randomization at the center level, rather than the patient level, and the use of imaging on some patients despite negative D-dimer tests, the researchers wrote. However, their findings support those of previous studies and especially support the safety of the intervention, in an emergency medicine setting, as no PEs occurred in patients with a YEARS score of zero who underwent the intervention.
 

Downsides to applying algorithms to every patient explained

In an editorial accompanying the JAMA study, Marcel Levi, MD, and Nick van Es, MD, of Amsterdam University Medical Center, emphasized the challenges of diagnosing PE given that many patients present with nonspecific clinical manifestations and without typical signs and symptoms. High-resolution CT pulmonary angiography allows for a fast and easy diagnosis in an emergency setting. However, efforts are ongoing to develop alternative strategies that avoid unnecessary scanning for potential PE patients, many of whom have alternative diagnoses such as pulmonary infections, cardiac conditions, pleural disease, or musculoskeletal problems.

On review of the JAMA study using the YEARS rule with adjusted D-dimer thresholds, the editorialists noted that the data were robust and indicated a 10% reduction in chest imaging. They also emphasized the potential to overwhelm busy clinicians with more algorithms.

“Blindly applying algorithms to every patient may be less appropriate or even undesirable in specific situations in which deviation from the rules on clinical grounds is indicated,” but a complex imaging approach may be time consuming and challenging in the acute setting, and a simple algorithm may be safe and efficient in many cases, they wrote. “From a patient perspective, a negative diagnostic algorithm for pulmonary embolism does not diminish the physician’s obligation to consider other diagnoses that explain the symptoms, for which chest CT scans may still be needed and helpful.”

The Annals of Internal Medicine study was supported by the Dutch Research Council. The JAMA study was supported by the French Health Ministry. Dr. Stals, Dr. Freund, Dr. Pal, Dr. Levi, and Dr. van Es had no financial conflicts to disclose.

Adapted D-dimer thresholds based on pretest probability were effective for ruling out pulmonary embolism (PE) in subgroups of high-risk individuals without the use of imaging in a review of data.

In a patient suspected to have a PE, “diagnosis is made radiographically, usually with CT pulmonary angiogram, or V/Q scan,” Suman Pal, MD, of the University of New Mexico, Albuquerque, said in an interview.

“Validated clinical decision tools such as Wells’ score or Geneva score may be used to identify patients at low pretest probability of PE who may initially get a D-dimer level check, followed by imaging only if D-dimer level is elevated,” explained Dr. Pal, who was not involved with the new research, which was published in the Annals of Internal Medicine.

According to the authors of the new paper, while current diagnostic strategies in patients with suspected PE include use of a validated clinical decision rule (CDR) and D-dimer testing to rule out PE without imaging tests, the effectiveness of D-dimer tests in older patients, inpatients, cancer patients, and other high-risk groups has not been well-studied.

Lead author of the paper, Milou A.M. Stals, MD, and colleagues said their goal was to evaluate the safety and efficiency of the Wells rule and revised Geneva score in combination with D-dimer tests, and also the YEARS algorithm for D-dimer thresholds, in their paper.

Dr. Stals, of Leiden (the Netherlands) University Medical Center, and the coinvestigators conducted an international systemic review and individual patient data meta-analysis that included 16 studies and 20,553 patients, with all studies having been published between Jan. 1, 1995, and Jan. 1, 2021. Their primary outcomes were the safety and efficiency of each of these three strategies.

In the review, the researchers defined safety as the 3-month incidence of venous thromboembolism after PE was ruled out without imaging at baseline. They defined efficiency as the proportion patients for whom PE was ruled out based on D-dimer thresholds without imaging.

Overall, efficiency was highest in the subset of patients aged younger than 40 years, ranging from 47% to 68% in this group. Efficiency was lowest in patients aged 80 years and older (6.0%-23%), and in patients with cancer (9.6%-26%).

The efficiency was higher when D-dimer thresholds based on pretest probability were used, compared with when fixed or age-adjusted D-dimer thresholds were used.

The key finding was the significant variability in performance of the diagnostic strategies, the researchers said.

“The predicted failure rate was generally highest for strategies incorporating adapted D-dimer thresholds. However, at the same time, predicted overall efficiency was substantially higher with these strategies versus strategies with a fixed D-dimer threshold as well,” they said. Given that the benefits of each of the three diagnostic strategies depends on their correct application, the researchers recommended that an individual hospitalist choose one strategy for their institution.

“Whether clinicians should rely on the Wells rule, the YEARS algorithm, or the revised Geneva score becomes a matter of local preference and experience,” Dr. Stals and colleagues wrote.

The study findings were limited by several factors including between-study differences in scoring predictors and D-dimer assays. Another limitation was that differential verification biases for classifying fatal events and PE may have contributed to overestimation of failure rates of the adapted D-dimer thresholds.

Strengths of the study included its large sample size and original data on pretest probability, and that data support the use of any of the three strategies for ruling out PE in the identified subgroups without the need for imaging tests, the authors wrote.

“Pending the results of ongoing diagnostic randomized trials, physicians and guideline committees should balance the interlink between safety and efficiency of available diagnostic strategies,” they concluded.

Adapted D-dimer benefits some patients

“Clearly, increasing the D-dimer cutoff will lower the number of patients who require radiographic imaging (improved specificity), but this comes with a risk for missing PE (lower sensitivity). Is this risk worth taking?” Daniel J. Brotman, MD, of Johns Hopkins University, Baltimore, asked in an editorial accompanying the new study.

Dr. Brotman was not surprised by the study findings.

“Conditions that predispose to thrombosis through activated hemostasis – such as advanced age, cancer, inflammation, prolonged hospitalization, and trauma – drive D-dimer levels higher independent of the presence or absence of radiographically apparent thrombosis,” he said. However, these patients are unlikely to have normal D-dimer levels regardless of the cutoff used.

Adapted D-dimer cutoffs may benefit some patients, including those with contraindications or limited access to imaging, said Dr. Brotman. D-dimer may be used for risk stratification regardless of PE, since patients with marginally elevated D-dimers have better prognoses than those with higher D-dimer elevations, even if a small PE is missed.

Dr. Brotman wrote that increasing D-dimer cutoffs for high-risk patients in the subgroups analyzed may spare some patients radiographic testing, but doing so carries an increased risk for diagnostic failure. Overall, “the important work by Stals and colleagues offers reassurance that modifying D-dimer thresholds according to age or pretest probability is safe enough for widespread practice, even in high-risk groups.”
 

Focus on single strategy ‘based on local needs’

“Several validated clinical decision tools, along with age or pretest probability adjusted D-dimer threshold are currently in use as diagnostic strategies for ruling out pulmonary embolism,” Dr. Pal said in an interview.

The current study is important because of limited data on the performance of these strategies in specific subgroups of patients whose risk of PE may differ from the overall patient population, he noted.

“Different diagnostic strategies for PE have a variable performance in patients with differences of age, active cancer, and history of VTE,” said Dr. Pal. “However, in this study, no clear preference for one strategy over others could be established for these subgroups, and clinicians should continue to follow institution-specific guidance.

“A single strategy should be adopted at each institution based on local needs and used as the standard of care until further data are available,” he said.

“The use of D-dimer to rule out PE, either with fixed threshold or age-adjusted thresholds, can be confounded in clinical settings by other comorbid conditions such as sepsis, recent surgery, and more recently, COVID-19,” he said.

“Since the findings of this study do not show a clear benefit of one diagnostic strategy over others in the analyzed subgroups of patients, further prospective head-to-head comparison among the subgroups of interest would be helpful to guide clinical decision making,” Dr. Pal added.
 

YEARS-specific study supports D-dimer safety and value

A recent paper published in JAMA supported the results of the meta-analysis. In that study, Yonathan Freund, MD, of Sorbonne Université, Paris, and colleagues focused on the YEARS strategy combined with age-adjusted D-dimer thresholds as a way to rule out PE in PERC-positive ED patients.

The authors of this paper randomized 18 EDs to either a protocol of intervention followed by control, or control followed by intervention. The study population included 726 patients in the intervention group and 688 in the control group.

The intervention strategy to rule out PE consisted of assessing the YEARS criteria and D-dimer testing. PE was ruled out in patients with no YEARS criteria and a D-dimer level below 1,000 ng/mL and in patients with one or more YEARS criteria and D-dimers below an age-adjusted threshold (defined as age times 10 ng/mL in patients aged 50 years and older).

The control strategy consisted of D-dimer testing for all patients with the threshold at age-adjusted levels; D-dimers about these levels prompted chest imaging.

Overall, the risk of a missed VTE at 3 months was noninferior between the groups (0.15% in the intervention group and 0.80% in the controls).

“The intervention was associated with a statistically significant reduction in chest imaging use,” the researchers wrote.

This study’s findings were limited by randomization at the center level, rather than the patient level, and the use of imaging on some patients despite negative D-dimer tests, the researchers wrote. However, their findings support those of previous studies and especially support the safety of the intervention, in an emergency medicine setting, as no PEs occurred in patients with a YEARS score of zero who underwent the intervention.
 

Downsides to applying algorithms to every patient explained

In an editorial accompanying the JAMA study, Marcel Levi, MD, and Nick van Es, MD, of Amsterdam University Medical Center, emphasized the challenges of diagnosing PE given that many patients present with nonspecific clinical manifestations and without typical signs and symptoms. High-resolution CT pulmonary angiography allows for a fast and easy diagnosis in an emergency setting. However, efforts are ongoing to develop alternative strategies that avoid unnecessary scanning for potential PE patients, many of whom have alternative diagnoses such as pulmonary infections, cardiac conditions, pleural disease, or musculoskeletal problems.

On review of the JAMA study using the YEARS rule with adjusted D-dimer thresholds, the editorialists noted that the data were robust and indicated a 10% reduction in chest imaging. They also emphasized the potential to overwhelm busy clinicians with more algorithms.

“Blindly applying algorithms to every patient may be less appropriate or even undesirable in specific situations in which deviation from the rules on clinical grounds is indicated,” but a complex imaging approach may be time consuming and challenging in the acute setting, and a simple algorithm may be safe and efficient in many cases, they wrote. “From a patient perspective, a negative diagnostic algorithm for pulmonary embolism does not diminish the physician’s obligation to consider other diagnoses that explain the symptoms, for which chest CT scans may still be needed and helpful.”

The Annals of Internal Medicine study was supported by the Dutch Research Council. The JAMA study was supported by the French Health Ministry. Dr. Stals, Dr. Freund, Dr. Pal, Dr. Levi, and Dr. van Es had no financial conflicts to disclose.

Adapted D-dimer thresholds based on pretest probability were effective for ruling out pulmonary embolism (PE) in subgroups of high-risk individuals without the use of imaging in a review of data.

In a patient suspected to have a PE, “diagnosis is made radiographically, usually with CT pulmonary angiogram, or V/Q scan,” Suman Pal, MD, of the University of New Mexico, Albuquerque, said in an interview.

“Validated clinical decision tools such as Wells’ score or Geneva score may be used to identify patients at low pretest probability of PE who may initially get a D-dimer level check, followed by imaging only if D-dimer level is elevated,” explained Dr. Pal, who was not involved with the new research, which was published in the Annals of Internal Medicine.

According to the authors of the new paper, while current diagnostic strategies in patients with suspected PE include use of a validated clinical decision rule (CDR) and D-dimer testing to rule out PE without imaging tests, the effectiveness of D-dimer tests in older patients, inpatients, cancer patients, and other high-risk groups has not been well-studied.

Lead author of the paper, Milou A.M. Stals, MD, and colleagues said their goal was to evaluate the safety and efficiency of the Wells rule and revised Geneva score in combination with D-dimer tests, and also the YEARS algorithm for D-dimer thresholds, in their paper.

Dr. Stals, of Leiden (the Netherlands) University Medical Center, and the coinvestigators conducted an international systemic review and individual patient data meta-analysis that included 16 studies and 20,553 patients, with all studies having been published between Jan. 1, 1995, and Jan. 1, 2021. Their primary outcomes were the safety and efficiency of each of these three strategies.

In the review, the researchers defined safety as the 3-month incidence of venous thromboembolism after PE was ruled out without imaging at baseline. They defined efficiency as the proportion patients for whom PE was ruled out based on D-dimer thresholds without imaging.

Overall, efficiency was highest in the subset of patients aged younger than 40 years, ranging from 47% to 68% in this group. Efficiency was lowest in patients aged 80 years and older (6.0%-23%), and in patients with cancer (9.6%-26%).

The efficiency was higher when D-dimer thresholds based on pretest probability were used, compared with when fixed or age-adjusted D-dimer thresholds were used.

The key finding was the significant variability in performance of the diagnostic strategies, the researchers said.

“The predicted failure rate was generally highest for strategies incorporating adapted D-dimer thresholds. However, at the same time, predicted overall efficiency was substantially higher with these strategies versus strategies with a fixed D-dimer threshold as well,” they said. Given that the benefits of each of the three diagnostic strategies depends on their correct application, the researchers recommended that an individual hospitalist choose one strategy for their institution.

“Whether clinicians should rely on the Wells rule, the YEARS algorithm, or the revised Geneva score becomes a matter of local preference and experience,” Dr. Stals and colleagues wrote.

The study findings were limited by several factors including between-study differences in scoring predictors and D-dimer assays. Another limitation was that differential verification biases for classifying fatal events and PE may have contributed to overestimation of failure rates of the adapted D-dimer thresholds.

Strengths of the study included its large sample size and original data on pretest probability, and that data support the use of any of the three strategies for ruling out PE in the identified subgroups without the need for imaging tests, the authors wrote.

“Pending the results of ongoing diagnostic randomized trials, physicians and guideline committees should balance the interlink between safety and efficiency of available diagnostic strategies,” they concluded.

Adapted D-dimer benefits some patients

“Clearly, increasing the D-dimer cutoff will lower the number of patients who require radiographic imaging (improved specificity), but this comes with a risk for missing PE (lower sensitivity). Is this risk worth taking?” Daniel J. Brotman, MD, of Johns Hopkins University, Baltimore, asked in an editorial accompanying the new study.

Dr. Brotman was not surprised by the study findings.

“Conditions that predispose to thrombosis through activated hemostasis – such as advanced age, cancer, inflammation, prolonged hospitalization, and trauma – drive D-dimer levels higher independent of the presence or absence of radiographically apparent thrombosis,” he said. However, these patients are unlikely to have normal D-dimer levels regardless of the cutoff used.

Adapted D-dimer cutoffs may benefit some patients, including those with contraindications or limited access to imaging, said Dr. Brotman. D-dimer may be used for risk stratification regardless of PE, since patients with marginally elevated D-dimers have better prognoses than those with higher D-dimer elevations, even if a small PE is missed.

Dr. Brotman wrote that increasing D-dimer cutoffs for high-risk patients in the subgroups analyzed may spare some patients radiographic testing, but doing so carries an increased risk for diagnostic failure. Overall, “the important work by Stals and colleagues offers reassurance that modifying D-dimer thresholds according to age or pretest probability is safe enough for widespread practice, even in high-risk groups.”
 

Focus on single strategy ‘based on local needs’

“Several validated clinical decision tools, along with age or pretest probability adjusted D-dimer threshold are currently in use as diagnostic strategies for ruling out pulmonary embolism,” Dr. Pal said in an interview.

The current study is important because of limited data on the performance of these strategies in specific subgroups of patients whose risk of PE may differ from the overall patient population, he noted.

“Different diagnostic strategies for PE have a variable performance in patients with differences of age, active cancer, and history of VTE,” said Dr. Pal. “However, in this study, no clear preference for one strategy over others could be established for these subgroups, and clinicians should continue to follow institution-specific guidance.

“A single strategy should be adopted at each institution based on local needs and used as the standard of care until further data are available,” he said.

“The use of D-dimer to rule out PE, either with fixed threshold or age-adjusted thresholds, can be confounded in clinical settings by other comorbid conditions such as sepsis, recent surgery, and more recently, COVID-19,” he said.

“Since the findings of this study do not show a clear benefit of one diagnostic strategy over others in the analyzed subgroups of patients, further prospective head-to-head comparison among the subgroups of interest would be helpful to guide clinical decision making,” Dr. Pal added.
 

YEARS-specific study supports D-dimer safety and value

A recent paper published in JAMA supported the results of the meta-analysis. In that study, Yonathan Freund, MD, of Sorbonne Université, Paris, and colleagues focused on the YEARS strategy combined with age-adjusted D-dimer thresholds as a way to rule out PE in PERC-positive ED patients.

The authors of this paper randomized 18 EDs to either a protocol of intervention followed by control, or control followed by intervention. The study population included 726 patients in the intervention group and 688 in the control group.

The intervention strategy to rule out PE consisted of assessing the YEARS criteria and D-dimer testing. PE was ruled out in patients with no YEARS criteria and a D-dimer level below 1,000 ng/mL and in patients with one or more YEARS criteria and D-dimers below an age-adjusted threshold (defined as age times 10 ng/mL in patients aged 50 years and older).

The control strategy consisted of D-dimer testing for all patients with the threshold at age-adjusted levels; D-dimers about these levels prompted chest imaging.

Overall, the risk of a missed VTE at 3 months was noninferior between the groups (0.15% in the intervention group and 0.80% in the controls).

“The intervention was associated with a statistically significant reduction in chest imaging use,” the researchers wrote.

This study’s findings were limited by randomization at the center level, rather than the patient level, and the use of imaging on some patients despite negative D-dimer tests, the researchers wrote. However, their findings support those of previous studies and especially support the safety of the intervention, in an emergency medicine setting, as no PEs occurred in patients with a YEARS score of zero who underwent the intervention.
 

Downsides to applying algorithms to every patient explained

In an editorial accompanying the JAMA study, Marcel Levi, MD, and Nick van Es, MD, of Amsterdam University Medical Center, emphasized the challenges of diagnosing PE given that many patients present with nonspecific clinical manifestations and without typical signs and symptoms. High-resolution CT pulmonary angiography allows for a fast and easy diagnosis in an emergency setting. However, efforts are ongoing to develop alternative strategies that avoid unnecessary scanning for potential PE patients, many of whom have alternative diagnoses such as pulmonary infections, cardiac conditions, pleural disease, or musculoskeletal problems.

On review of the JAMA study using the YEARS rule with adjusted D-dimer thresholds, the editorialists noted that the data were robust and indicated a 10% reduction in chest imaging. They also emphasized the potential to overwhelm busy clinicians with more algorithms.

“Blindly applying algorithms to every patient may be less appropriate or even undesirable in specific situations in which deviation from the rules on clinical grounds is indicated,” but a complex imaging approach may be time consuming and challenging in the acute setting, and a simple algorithm may be safe and efficient in many cases, they wrote. “From a patient perspective, a negative diagnostic algorithm for pulmonary embolism does not diminish the physician’s obligation to consider other diagnoses that explain the symptoms, for which chest CT scans may still be needed and helpful.”

The Annals of Internal Medicine study was supported by the Dutch Research Council. The JAMA study was supported by the French Health Ministry. Dr. Stals, Dr. Freund, Dr. Pal, Dr. Levi, and Dr. van Es had no financial conflicts to disclose.

Yoga added to conventional therapy for vasovagal syncope (VVS), when patients faint after a sudden drop in heart rate and blood pressure, can reduce symptoms and improve quality of life, new research suggests. 

AndiP/pixabay.com

A small, open-label trial conducted in New Delhi showed that participants practicing yoga reported an improvement in VVS symptoms after only 6 weeks, with a reduction of 1.82 events at 12 months. All those practicing yoga also showed significantly improved quality of life (QoL) scores by the end of the trial.

“Yoga as add-on therapy in VVS is superior to medical therapy in reducing syncopal and presyncopal events and in improving the QoL,” report Gautam Sharma, MD, DM, Centre for Integrative Medicine and Research, All India Institute of Medical Sciences, New Delhi, and colleagues. “It may be useful to integrate a cost-effective and safe intervention such as yoga into the management of VVS.”

Results of the LIVE-Yoga study were published online in JACC: Clinical Electrophysiology.

Vasovagal syncope is a common and non–life-threatening condition, but given the severity and frequency of recurrence it can result in significant deterioration in a patient’s quality of life, the authors note. “Existing management therapies have been largely ineffective,” they write.

Recent trials have suggested some efficacy for yoga in diseases of autonomic imbalance, suggesting a possible use in VVS. To find out, the researchers enrolled adults with VVS between the ages of 15-70 years who had a positive head-up tilt test (HUTT) and at least two syncope or presyncope events within 3 months of enrollment. They also needed to be willing and able to practice yoga. Those with structural heart disease, accelerated hypertension, and underlying neurologic disorders were not included in the study.

A total of 55 patients were randomly assigned to receive either a specialized yoga training program in addition to guideline-based therapy, or guideline-based therapy alone. Standard care included physical counterpressure maneuvers, avoidance of known triggers, increased salt and water intake, and drug therapy or pacing at the discretion of the treating physician.

The primary outcome was a composite of the number of episodes of syncope and presyncope at 12 months.    

Secondary outcomes including QoL, assessed using the World Health Organization Quality of Life Brief Field questionnaire (WHOQoL-BREF) and the Syncope Functional Status Questionnaire (SFSQ) at 12 months, a head-up tilt test, and heart rate variability at 6 weeks.

For the first 2 weeks, patients in the intervention group were enrolled in eight supervised yoga sessions conducted at the Centre for Integrative Medicine and Research at the All India Institute of Medical Sciences. For the remainder of the trial, they continued a daily yoga practice at home at least 5 days a week.

The yoga module created for participants was designed with a view to the pathophysiology of VVS and featured postures, breathing, and relaxation techniques. Yoga classes were taught by qualified therapists under the guidance of physicians.

In addition to a booklet with a pictorial of the yoga regimen, participants received twice-monthly calls from the yoga center to encourage compliance. Results show that all participants adhered to their yoga routine for more than 80% of the 12-month trial.

At 12 months, the mean number of syncopal or presyncopal events was 0.7 ± 0.7 with the yoga intervention versus 2.52 ± 1.93 among patients in the control arm (P < .05). The reduction in events started as early as 6 weeks and continued to separate out to 12 months, the researchers note.

Thirteen of 30 (43.3%) intervention patients and 4 of 25 (16%) control patients remained event-free at 12 months, a statistically significant difference (P = .02). There was a trend toward fewer positive head-up tilt tests between groups that did not reach significance, and there was no difference in heart rate variability at 6 weeks.

No adverse events as a result of the yoga practice were reported, and no patient started drug therapy or received pacing therapy during the trial, they note.

The researchers point out that yoga postures can enhance vascular and muscle tone, especially in the lower limbs.

“Yoga breathing and relaxation techniques have been shown to increase vagal tone and improve autonomic balance, which could potentially curtail the sympathetic overdrive phase and interrupt the activation of the c-mechanoreceptors, which is a critical step in the syncope cascade,” they note.

“We postulate that positive effects of yoga in this study could be related to a multidimensional effect of this intervention acting through both central and peripheral mechanisms, including physical, psychological, and autonomic pathways,” the authors conclude.
 

Comprehensive regimen

Dhanunjaya Lakkireddy, MD, medical director for the Kansas City Heart Rhythm Institute, Overland Park, Kansas, says these results are in line with previous research indicating the benefits of yoga in improving cardiovascular function.

“All of this clearly shows that when you [include] a systematic diet of yoga for a reasonable amount of time to improve the plasticity of parasympathetic inputs into the chest and thereby the cardiovascular system ... you can help patients to improve their symptoms,” he said in an interview.  

He already prescribes yoga in his own practice as part of a comprehensive therapeutic regimen, he said. “We have a handful of practitioners all around the city who work with us,” Dr. Lakkireddy said.

Both he and the study authors point the economic burden of VVS both in management and in loss of patient productivity. “A low-cost intervention in the form of yoga, which essentially requires only a mat, can reduce both direct and indirect costs significantly,” note the authors.

The trial was supported under the extramural research (EMR) scheme by the Ministry of AYUSH, Government of India. The authors have disclosed no relevant financial relationships.

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

Yoga added to conventional therapy for vasovagal syncope (VVS), when patients faint after a sudden drop in heart rate and blood pressure, can reduce symptoms and improve quality of life, new research suggests. 

AndiP/pixabay.com

A small, open-label trial conducted in New Delhi showed that participants practicing yoga reported an improvement in VVS symptoms after only 6 weeks, with a reduction of 1.82 events at 12 months. All those practicing yoga also showed significantly improved quality of life (QoL) scores by the end of the trial.

“Yoga as add-on therapy in VVS is superior to medical therapy in reducing syncopal and presyncopal events and in improving the QoL,” report Gautam Sharma, MD, DM, Centre for Integrative Medicine and Research, All India Institute of Medical Sciences, New Delhi, and colleagues. “It may be useful to integrate a cost-effective and safe intervention such as yoga into the management of VVS.”

Results of the LIVE-Yoga study were published online in JACC: Clinical Electrophysiology.

Vasovagal syncope is a common and non–life-threatening condition, but given the severity and frequency of recurrence it can result in significant deterioration in a patient’s quality of life, the authors note. “Existing management therapies have been largely ineffective,” they write.

Recent trials have suggested some efficacy for yoga in diseases of autonomic imbalance, suggesting a possible use in VVS. To find out, the researchers enrolled adults with VVS between the ages of 15-70 years who had a positive head-up tilt test (HUTT) and at least two syncope or presyncope events within 3 months of enrollment. They also needed to be willing and able to practice yoga. Those with structural heart disease, accelerated hypertension, and underlying neurologic disorders were not included in the study.

A total of 55 patients were randomly assigned to receive either a specialized yoga training program in addition to guideline-based therapy, or guideline-based therapy alone. Standard care included physical counterpressure maneuvers, avoidance of known triggers, increased salt and water intake, and drug therapy or pacing at the discretion of the treating physician.

The primary outcome was a composite of the number of episodes of syncope and presyncope at 12 months.    

Secondary outcomes including QoL, assessed using the World Health Organization Quality of Life Brief Field questionnaire (WHOQoL-BREF) and the Syncope Functional Status Questionnaire (SFSQ) at 12 months, a head-up tilt test, and heart rate variability at 6 weeks.

For the first 2 weeks, patients in the intervention group were enrolled in eight supervised yoga sessions conducted at the Centre for Integrative Medicine and Research at the All India Institute of Medical Sciences. For the remainder of the trial, they continued a daily yoga practice at home at least 5 days a week.

The yoga module created for participants was designed with a view to the pathophysiology of VVS and featured postures, breathing, and relaxation techniques. Yoga classes were taught by qualified therapists under the guidance of physicians.

In addition to a booklet with a pictorial of the yoga regimen, participants received twice-monthly calls from the yoga center to encourage compliance. Results show that all participants adhered to their yoga routine for more than 80% of the 12-month trial.

At 12 months, the mean number of syncopal or presyncopal events was 0.7 ± 0.7 with the yoga intervention versus 2.52 ± 1.93 among patients in the control arm (P < .05). The reduction in events started as early as 6 weeks and continued to separate out to 12 months, the researchers note.

Thirteen of 30 (43.3%) intervention patients and 4 of 25 (16%) control patients remained event-free at 12 months, a statistically significant difference (P = .02). There was a trend toward fewer positive head-up tilt tests between groups that did not reach significance, and there was no difference in heart rate variability at 6 weeks.

No adverse events as a result of the yoga practice were reported, and no patient started drug therapy or received pacing therapy during the trial, they note.

The researchers point out that yoga postures can enhance vascular and muscle tone, especially in the lower limbs.

“Yoga breathing and relaxation techniques have been shown to increase vagal tone and improve autonomic balance, which could potentially curtail the sympathetic overdrive phase and interrupt the activation of the c-mechanoreceptors, which is a critical step in the syncope cascade,” they note.

“We postulate that positive effects of yoga in this study could be related to a multidimensional effect of this intervention acting through both central and peripheral mechanisms, including physical, psychological, and autonomic pathways,” the authors conclude.
 

Comprehensive regimen

Dhanunjaya Lakkireddy, MD, medical director for the Kansas City Heart Rhythm Institute, Overland Park, Kansas, says these results are in line with previous research indicating the benefits of yoga in improving cardiovascular function.

“All of this clearly shows that when you [include] a systematic diet of yoga for a reasonable amount of time to improve the plasticity of parasympathetic inputs into the chest and thereby the cardiovascular system ... you can help patients to improve their symptoms,” he said in an interview.  

He already prescribes yoga in his own practice as part of a comprehensive therapeutic regimen, he said. “We have a handful of practitioners all around the city who work with us,” Dr. Lakkireddy said.

Both he and the study authors point the economic burden of VVS both in management and in loss of patient productivity. “A low-cost intervention in the form of yoga, which essentially requires only a mat, can reduce both direct and indirect costs significantly,” note the authors.

The trial was supported under the extramural research (EMR) scheme by the Ministry of AYUSH, Government of India. The authors have disclosed no relevant financial relationships.

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

Yoga added to conventional therapy for vasovagal syncope (VVS), when patients faint after a sudden drop in heart rate and blood pressure, can reduce symptoms and improve quality of life, new research suggests. 

AndiP/pixabay.com

A small, open-label trial conducted in New Delhi showed that participants practicing yoga reported an improvement in VVS symptoms after only 6 weeks, with a reduction of 1.82 events at 12 months. All those practicing yoga also showed significantly improved quality of life (QoL) scores by the end of the trial.

“Yoga as add-on therapy in VVS is superior to medical therapy in reducing syncopal and presyncopal events and in improving the QoL,” report Gautam Sharma, MD, DM, Centre for Integrative Medicine and Research, All India Institute of Medical Sciences, New Delhi, and colleagues. “It may be useful to integrate a cost-effective and safe intervention such as yoga into the management of VVS.”

Results of the LIVE-Yoga study were published online in JACC: Clinical Electrophysiology.

Vasovagal syncope is a common and non–life-threatening condition, but given the severity and frequency of recurrence it can result in significant deterioration in a patient’s quality of life, the authors note. “Existing management therapies have been largely ineffective,” they write.

Recent trials have suggested some efficacy for yoga in diseases of autonomic imbalance, suggesting a possible use in VVS. To find out, the researchers enrolled adults with VVS between the ages of 15-70 years who had a positive head-up tilt test (HUTT) and at least two syncope or presyncope events within 3 months of enrollment. They also needed to be willing and able to practice yoga. Those with structural heart disease, accelerated hypertension, and underlying neurologic disorders were not included in the study.

A total of 55 patients were randomly assigned to receive either a specialized yoga training program in addition to guideline-based therapy, or guideline-based therapy alone. Standard care included physical counterpressure maneuvers, avoidance of known triggers, increased salt and water intake, and drug therapy or pacing at the discretion of the treating physician.

The primary outcome was a composite of the number of episodes of syncope and presyncope at 12 months.    

Secondary outcomes including QoL, assessed using the World Health Organization Quality of Life Brief Field questionnaire (WHOQoL-BREF) and the Syncope Functional Status Questionnaire (SFSQ) at 12 months, a head-up tilt test, and heart rate variability at 6 weeks.

For the first 2 weeks, patients in the intervention group were enrolled in eight supervised yoga sessions conducted at the Centre for Integrative Medicine and Research at the All India Institute of Medical Sciences. For the remainder of the trial, they continued a daily yoga practice at home at least 5 days a week.

The yoga module created for participants was designed with a view to the pathophysiology of VVS and featured postures, breathing, and relaxation techniques. Yoga classes were taught by qualified therapists under the guidance of physicians.

In addition to a booklet with a pictorial of the yoga regimen, participants received twice-monthly calls from the yoga center to encourage compliance. Results show that all participants adhered to their yoga routine for more than 80% of the 12-month trial.

At 12 months, the mean number of syncopal or presyncopal events was 0.7 ± 0.7 with the yoga intervention versus 2.52 ± 1.93 among patients in the control arm (P < .05). The reduction in events started as early as 6 weeks and continued to separate out to 12 months, the researchers note.

Thirteen of 30 (43.3%) intervention patients and 4 of 25 (16%) control patients remained event-free at 12 months, a statistically significant difference (P = .02). There was a trend toward fewer positive head-up tilt tests between groups that did not reach significance, and there was no difference in heart rate variability at 6 weeks.

No adverse events as a result of the yoga practice were reported, and no patient started drug therapy or received pacing therapy during the trial, they note.

The researchers point out that yoga postures can enhance vascular and muscle tone, especially in the lower limbs.

“Yoga breathing and relaxation techniques have been shown to increase vagal tone and improve autonomic balance, which could potentially curtail the sympathetic overdrive phase and interrupt the activation of the c-mechanoreceptors, which is a critical step in the syncope cascade,” they note.

“We postulate that positive effects of yoga in this study could be related to a multidimensional effect of this intervention acting through both central and peripheral mechanisms, including physical, psychological, and autonomic pathways,” the authors conclude.
 

Comprehensive regimen

Dhanunjaya Lakkireddy, MD, medical director for the Kansas City Heart Rhythm Institute, Overland Park, Kansas, says these results are in line with previous research indicating the benefits of yoga in improving cardiovascular function.

“All of this clearly shows that when you [include] a systematic diet of yoga for a reasonable amount of time to improve the plasticity of parasympathetic inputs into the chest and thereby the cardiovascular system ... you can help patients to improve their symptoms,” he said in an interview.  

He already prescribes yoga in his own practice as part of a comprehensive therapeutic regimen, he said. “We have a handful of practitioners all around the city who work with us,” Dr. Lakkireddy said.

Both he and the study authors point the economic burden of VVS both in management and in loss of patient productivity. “A low-cost intervention in the form of yoga, which essentially requires only a mat, can reduce both direct and indirect costs significantly,” note the authors.

The trial was supported under the extramural research (EMR) scheme by the Ministry of AYUSH, Government of India. The authors have disclosed no relevant financial relationships.

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

Background: The standard of care for IE has been a prolonged course of IV antibiotics. Recent literature has suggested that oral antibiotics might be a safe and effective step-down therapy for IE.

In studies wherein IV antibiotics alone were compared with IV antibiotics with oral step-down therapy, there was no difference in clinical cure rate. Those given oral step-down therapy had a statistically significant lower mortality rate than patients who received only IV therapy.

Limitations include inconclusive data regarding duration of IV lead-in therapy, with the variance before conversion to oral antibiotics amongst the studies ranging from 0 to 24 days. The limited number of patients with MRSA infections makes it difficult to draw conclusions regarding this particular pathogen.

Bottom line: Highly orally bioavailable antibiotics should be considered for patients with IE who have cleared bacteremia and achieved clinical stability with IV regimens.

Citation: Spellberg B et al. Evaluation of a paradigm shift from intravenous antibiotics to oral step-down therapy for the treatment of infective endocarditis: a narrative review. JAMA Intern Med. 2020;180(5):769-77. doi: 10.1001/jamainternmed.2020.0555.

Dr. Yoo is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.

Background: The standard of care for IE has been a prolonged course of IV antibiotics. Recent literature has suggested that oral antibiotics might be a safe and effective step-down therapy for IE.

In studies wherein IV antibiotics alone were compared with IV antibiotics with oral step-down therapy, there was no difference in clinical cure rate. Those given oral step-down therapy had a statistically significant lower mortality rate than patients who received only IV therapy.

Limitations include inconclusive data regarding duration of IV lead-in therapy, with the variance before conversion to oral antibiotics amongst the studies ranging from 0 to 24 days. The limited number of patients with MRSA infections makes it difficult to draw conclusions regarding this particular pathogen.

Bottom line: Highly orally bioavailable antibiotics should be considered for patients with IE who have cleared bacteremia and achieved clinical stability with IV regimens.

Citation: Spellberg B et al. Evaluation of a paradigm shift from intravenous antibiotics to oral step-down therapy for the treatment of infective endocarditis: a narrative review. JAMA Intern Med. 2020;180(5):769-77. doi: 10.1001/jamainternmed.2020.0555.

Dr. Yoo is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.

Background: The standard of care for IE has been a prolonged course of IV antibiotics. Recent literature has suggested that oral antibiotics might be a safe and effective step-down therapy for IE.

In studies wherein IV antibiotics alone were compared with IV antibiotics with oral step-down therapy, there was no difference in clinical cure rate. Those given oral step-down therapy had a statistically significant lower mortality rate than patients who received only IV therapy.

Limitations include inconclusive data regarding duration of IV lead-in therapy, with the variance before conversion to oral antibiotics amongst the studies ranging from 0 to 24 days. The limited number of patients with MRSA infections makes it difficult to draw conclusions regarding this particular pathogen.

Bottom line: Highly orally bioavailable antibiotics should be considered for patients with IE who have cleared bacteremia and achieved clinical stability with IV regimens.

Citation: Spellberg B et al. Evaluation of a paradigm shift from intravenous antibiotics to oral step-down therapy for the treatment of infective endocarditis: a narrative review. JAMA Intern Med. 2020;180(5):769-77. doi: 10.1001/jamainternmed.2020.0555.

Dr. Yoo is a hospitalist in the Division of Hospital Medicine, Mount Sinai Health System, New York.

The recent Practice Alert by Dr. Campos-Outcalt, “How to proceed when it comes to vitamin D” (J Fam Pract. 2021;70:289-292) claimed that the value of vitamin D supplements for prevention is nil or still unknown.¹ Most of the references cited in support of this statement were centered on randomized controlled trials (RCTs) based on vitamin D dose rather than achieved 25-­hydroxyvitamin D [25(OH)D] concentration. Since the health effects of vitamin D supplementation are correlated with 25(OH)D concentration, the latter should be used to evaluate the results of vitamin D RCTs—a point I made in my 2018 article on the topic.²

For example, in the Vitamin D and Type 2 Diabetes (D2d) Study, in which participants in the treatment arm received 4000 IU/d vitamin D₃, there was no reduced rate of progression from prediabetes to diabetes. However, when 25(OH)D concentrations were analyzed for those in the vitamin D arm during the trial, the risk was found to be reduced by 25% (hazard ratio [HR] = 0.75; 95% CI, 0.68-0.82) per 10 ng/mL increase in 25(OH)D.³

There are significant benefits of vitamin D supplementation to achieve a 25(OH)D concentration of 30 to 60 ng/mL for important health outcomes.

Another trial, the Harvard-led VITamin D and OmegA-3 TriaL (VITAL), enrolled more than 25,000 participants, with the treatment arm receiving 2000 IU/d vitamin D₃.⁴ There were no significant reductions in incidence of either cancer or cardiovascular disease for the entire group. The mean baseline 25(OH)D concentration for those for whom values were provided was 31 ng/mL (32.2 ng/mL for White participants, 24.9 ng/mL for Black participants). However, there were ~25% reductions in cancer risk among Black participants (who had lower 25(OH)D concentrations than White participants) and those with a body mass index < 25. A posthoc analysis suggested a possible benefit related to the rate of total cancer deaths.

A recent article reported the results of long-term vitamin D supplementation among Veterans Health Administration patients who had an initial 25(OH)D concentration of < 20 ng/mL.⁵ For those who were treated with vitamin D and achieved a 25(OH)D concentration of > 30 ng/mL (compared to those who were untreated and had an average concentration of < 20 ng/mL), the risk of myocardial infarction was 27% lower (HR = 0.73; 95% CI, 0.55-0.96) and the risk of all-cause mortality was reduced by 39% (HR = 0.61; 95% CI, 0.56-0.67).

An analysis of SARS-CoV-2 positivity examined data for more than 190,000 patients in the United States who had serum 25(OH)D concentration measurements taken up to 1 year prior to their SARS-CoV-2 test. Positivity rates were 12.5% (95% CI, 12.2%-12.8%) for those with a 25(OH)D concentration < 20 ng/mL vs 5.9% (95% CI, 5.5%-6.4%) for those with a 25(OH)D concentration ≥55 ng/mL.⁶

Thus, there are significant benefits of vitamin D supplementation to achieve a 25(OH)D concentration of 30 to 60 ng/mL for important health outcomes.

Continue to: Author's Response

Author's response

I appreciate the letter from Dr. Grant in response to my previous Practice Alert, as it provides an opportunity to make some important points about assessment of scientific evidence and drawing conclusions based on sound methodology. There is an overabundance of scientific literature published, much of which is of questionable quality, meaning a “study” or 2 can be found to support any preconceived point of view.

In 2011, the Institute of Medicine (now the National Academy of Medicine) published a series of recommendations on how trustworthy recommendations and guidelines should be produced.^1,2 Key among the steps recommended is a full assessment of the totality of the literature on the subject by an independent, nonconflicted panel. This should be based on a systematic review that includes standard search methods to find all pertinent articles, an assessment of the quality of each study using standardized tools, and an overall assessment of the quality of the evidence. A high-quality systematic review meeting these standards was the basis for my review article on vitamin D.³

A “study” or 2 can be found to support any preconceived point of view.

To challenge the findings of the unproven benefits of vitamin D, Dr. Grant cited 4 studies to support the purported benefit of achieving a specific serum 25(OH)D level to prevent cardiovascular disease, diabetes, cancer, and COVID-19. After reading these studies, I would not consider any of them a “game changer.”

The first study was restricted to those with prediabetes, had limited follow-up (mean of 2.5 years), and found different results for those with the same 25(OH)D concentrations in the placebo and treatment groups.⁴ The second study was a large, well-conducted clinical trial that found no benefit of vitamin D supplementation in preventing cancer and cardiovascular disease.⁵ While Dr. Grant claims that benefits were found for some subgroups, I could locate only the statistics on cancer incidence in Black participants, and the confidence intervals showed no statistically significant benefit. It is always questionable to look at multiple outcomes in multiple subgroups without a prior hypothesis because of the likely occurrence of chance findings in so many comparisons. The third was a retrospective observational study with all the potential biases and challenges to validity that such studies present.⁶ A single study, especially 1 with observational methods, almost never conclusively settles a point.

The role of vitamin D in the prevention or treatment of COVID-19 is an aspect that was not covered in the systematic review by the US Preventive Services Task Force. The study on this issuecited by Dr. Grant was a large retrospective observational study that found an inverse relationship between serum 25(OH)D levels and SARS-CoV-2 positivity rates.⁷ This is 1 observational study with interesting results. However, I believe the conclusion of the National Institutes of Health is currently still the correct one: “There is insufficient evidence to recommend either for or against the use of vitamin D for the prevention or treatment of COVID-19.”⁸

With time and further research, Dr. Grant may eventually prove to be correct on specific points. However, when challenging a high-quality systematic review, one must assess the quality of the studies used while also placing them in context of the totality of the literature.

Doug Campos-Outcalt, MD, MPA
Phoenix, AZ

References

1. Institute of Medicine. Finding What Works in Health Care. The National Academy Press, 2011.

2. Institute of Medicine. Clinical Practice Guidelines We Can Trust. The National Academy Press, 2011.

3. Kahwati LC, LeBlanc E, Weber RP, et al. Screening for vitamin D deficiency in adults; updated evidence report and systematic review for the US Preventive Services Task Force. JAMA. 2021;325:1443-1463. doi: 10.1001/jama.2020.26498

4. Dawson-Hughes B, Staten MA, Knowler WC, et al. Intratrial exposure to vitamin D and new-onset diabetes among adults with prediabetes: a secondary analysis from the Vitamin D and Type 2 Diabetes (D2d) Study. Diabetes Care. 2020;43:2916-2922. doi: 10.2337/dc20-1765

5. Manson JE, Cook NR, Lee I-M, et al. Vitamin D supplements and prevention of cancer and cardiovascular disease. N Engl J Med. 2019;380:33-44. doi: 10.1056/NEJMoa1809944

6. Acharya P, Dalia T, Ranka S, et al. The effects of vitamin D supplementation and 25-hydroxyvitamin D levels on the risk of myocardial infarction and mortality. J Endocr Soc. 2021;5:bvab124. doi: 10.1210/jendso/bvab124

7. Kaufman HW, Niles JK, Kroll MH, et al. SARS-CoV-2 positivity rates associated with circulating 25-hydroxyvitamin D levels. PLoS One. 2020;15:e0239252. doi: 10.1371/journal.pone.0239252

8. National Institutes of Health. Vitamin D. COVID-19 treatment guidelines. Updated April 21, 2021. Accessed November 18, 2021. www.covid19treatmentguidelines.nih.gov/therapies/supplements/vitamin-d/

The recent Practice Alert by Dr. Campos-Outcalt, “How to proceed when it comes to vitamin D” (J Fam Pract. 2021;70:289-292) claimed that the value of vitamin D supplements for prevention is nil or still unknown.¹ Most of the references cited in support of this statement were centered on randomized controlled trials (RCTs) based on vitamin D dose rather than achieved 25-­hydroxyvitamin D [25(OH)D] concentration. Since the health effects of vitamin D supplementation are correlated with 25(OH)D concentration, the latter should be used to evaluate the results of vitamin D RCTs—a point I made in my 2018 article on the topic.²

For example, in the Vitamin D and Type 2 Diabetes (D2d) Study, in which participants in the treatment arm received 4000 IU/d vitamin D₃, there was no reduced rate of progression from prediabetes to diabetes. However, when 25(OH)D concentrations were analyzed for those in the vitamin D arm during the trial, the risk was found to be reduced by 25% (hazard ratio [HR] = 0.75; 95% CI, 0.68-0.82) per 10 ng/mL increase in 25(OH)D.³

There are significant benefits of vitamin D supplementation to achieve a 25(OH)D concentration of 30 to 60 ng/mL for important health outcomes.

Another trial, the Harvard-led VITamin D and OmegA-3 TriaL (VITAL), enrolled more than 25,000 participants, with the treatment arm receiving 2000 IU/d vitamin D₃.⁴ There were no significant reductions in incidence of either cancer or cardiovascular disease for the entire group. The mean baseline 25(OH)D concentration for those for whom values were provided was 31 ng/mL (32.2 ng/mL for White participants, 24.9 ng/mL for Black participants). However, there were ~25% reductions in cancer risk among Black participants (who had lower 25(OH)D concentrations than White participants) and those with a body mass index < 25. A posthoc analysis suggested a possible benefit related to the rate of total cancer deaths.

A recent article reported the results of long-term vitamin D supplementation among Veterans Health Administration patients who had an initial 25(OH)D concentration of < 20 ng/mL.⁵ For those who were treated with vitamin D and achieved a 25(OH)D concentration of > 30 ng/mL (compared to those who were untreated and had an average concentration of < 20 ng/mL), the risk of myocardial infarction was 27% lower (HR = 0.73; 95% CI, 0.55-0.96) and the risk of all-cause mortality was reduced by 39% (HR = 0.61; 95% CI, 0.56-0.67).

An analysis of SARS-CoV-2 positivity examined data for more than 190,000 patients in the United States who had serum 25(OH)D concentration measurements taken up to 1 year prior to their SARS-CoV-2 test. Positivity rates were 12.5% (95% CI, 12.2%-12.8%) for those with a 25(OH)D concentration < 20 ng/mL vs 5.9% (95% CI, 5.5%-6.4%) for those with a 25(OH)D concentration ≥55 ng/mL.⁶

Thus, there are significant benefits of vitamin D supplementation to achieve a 25(OH)D concentration of 30 to 60 ng/mL for important health outcomes.

Continue to: Author's Response

Author's response

I appreciate the letter from Dr. Grant in response to my previous Practice Alert, as it provides an opportunity to make some important points about assessment of scientific evidence and drawing conclusions based on sound methodology. There is an overabundance of scientific literature published, much of which is of questionable quality, meaning a “study” or 2 can be found to support any preconceived point of view.

In 2011, the Institute of Medicine (now the National Academy of Medicine) published a series of recommendations on how trustworthy recommendations and guidelines should be produced.^1,2 Key among the steps recommended is a full assessment of the totality of the literature on the subject by an independent, nonconflicted panel. This should be based on a systematic review that includes standard search methods to find all pertinent articles, an assessment of the quality of each study using standardized tools, and an overall assessment of the quality of the evidence. A high-quality systematic review meeting these standards was the basis for my review article on vitamin D.³

A “study” or 2 can be found to support any preconceived point of view.

To challenge the findings of the unproven benefits of vitamin D, Dr. Grant cited 4 studies to support the purported benefit of achieving a specific serum 25(OH)D level to prevent cardiovascular disease, diabetes, cancer, and COVID-19. After reading these studies, I would not consider any of them a “game changer.”

The first study was restricted to those with prediabetes, had limited follow-up (mean of 2.5 years), and found different results for those with the same 25(OH)D concentrations in the placebo and treatment groups.⁴ The second study was a large, well-conducted clinical trial that found no benefit of vitamin D supplementation in preventing cancer and cardiovascular disease.⁵ While Dr. Grant claims that benefits were found for some subgroups, I could locate only the statistics on cancer incidence in Black participants, and the confidence intervals showed no statistically significant benefit. It is always questionable to look at multiple outcomes in multiple subgroups without a prior hypothesis because of the likely occurrence of chance findings in so many comparisons. The third was a retrospective observational study with all the potential biases and challenges to validity that such studies present.⁶ A single study, especially 1 with observational methods, almost never conclusively settles a point.

The role of vitamin D in the prevention or treatment of COVID-19 is an aspect that was not covered in the systematic review by the US Preventive Services Task Force. The study on this issuecited by Dr. Grant was a large retrospective observational study that found an inverse relationship between serum 25(OH)D levels and SARS-CoV-2 positivity rates.⁷ This is 1 observational study with interesting results. However, I believe the conclusion of the National Institutes of Health is currently still the correct one: “There is insufficient evidence to recommend either for or against the use of vitamin D for the prevention or treatment of COVID-19.”⁸

With time and further research, Dr. Grant may eventually prove to be correct on specific points. However, when challenging a high-quality systematic review, one must assess the quality of the studies used while also placing them in context of the totality of the literature.

Doug Campos-Outcalt, MD, MPA
Phoenix, AZ

References

1. Institute of Medicine. Finding What Works in Health Care. The National Academy Press, 2011.

2. Institute of Medicine. Clinical Practice Guidelines We Can Trust. The National Academy Press, 2011.

3. Kahwati LC, LeBlanc E, Weber RP, et al. Screening for vitamin D deficiency in adults; updated evidence report and systematic review for the US Preventive Services Task Force. JAMA. 2021;325:1443-1463. doi: 10.1001/jama.2020.26498

4. Dawson-Hughes B, Staten MA, Knowler WC, et al. Intratrial exposure to vitamin D and new-onset diabetes among adults with prediabetes: a secondary analysis from the Vitamin D and Type 2 Diabetes (D2d) Study. Diabetes Care. 2020;43:2916-2922. doi: 10.2337/dc20-1765

5. Manson JE, Cook NR, Lee I-M, et al. Vitamin D supplements and prevention of cancer and cardiovascular disease. N Engl J Med. 2019;380:33-44. doi: 10.1056/NEJMoa1809944

6. Acharya P, Dalia T, Ranka S, et al. The effects of vitamin D supplementation and 25-hydroxyvitamin D levels on the risk of myocardial infarction and mortality. J Endocr Soc. 2021;5:bvab124. doi: 10.1210/jendso/bvab124

7. Kaufman HW, Niles JK, Kroll MH, et al. SARS-CoV-2 positivity rates associated with circulating 25-hydroxyvitamin D levels. PLoS One. 2020;15:e0239252. doi: 10.1371/journal.pone.0239252

8. National Institutes of Health. Vitamin D. COVID-19 treatment guidelines. Updated April 21, 2021. Accessed November 18, 2021. www.covid19treatmentguidelines.nih.gov/therapies/supplements/vitamin-d/

The recent Practice Alert by Dr. Campos-Outcalt, “How to proceed when it comes to vitamin D” (J Fam Pract. 2021;70:289-292) claimed that the value of vitamin D supplements for prevention is nil or still unknown.¹ Most of the references cited in support of this statement were centered on randomized controlled trials (RCTs) based on vitamin D dose rather than achieved 25-­hydroxyvitamin D [25(OH)D] concentration. Since the health effects of vitamin D supplementation are correlated with 25(OH)D concentration, the latter should be used to evaluate the results of vitamin D RCTs—a point I made in my 2018 article on the topic.²

For example, in the Vitamin D and Type 2 Diabetes (D2d) Study, in which participants in the treatment arm received 4000 IU/d vitamin D₃, there was no reduced rate of progression from prediabetes to diabetes. However, when 25(OH)D concentrations were analyzed for those in the vitamin D arm during the trial, the risk was found to be reduced by 25% (hazard ratio [HR] = 0.75; 95% CI, 0.68-0.82) per 10 ng/mL increase in 25(OH)D.³

There are significant benefits of vitamin D supplementation to achieve a 25(OH)D concentration of 30 to 60 ng/mL for important health outcomes.

Another trial, the Harvard-led VITamin D and OmegA-3 TriaL (VITAL), enrolled more than 25,000 participants, with the treatment arm receiving 2000 IU/d vitamin D₃.⁴ There were no significant reductions in incidence of either cancer or cardiovascular disease for the entire group. The mean baseline 25(OH)D concentration for those for whom values were provided was 31 ng/mL (32.2 ng/mL for White participants, 24.9 ng/mL for Black participants). However, there were ~25% reductions in cancer risk among Black participants (who had lower 25(OH)D concentrations than White participants) and those with a body mass index < 25. A posthoc analysis suggested a possible benefit related to the rate of total cancer deaths.

A recent article reported the results of long-term vitamin D supplementation among Veterans Health Administration patients who had an initial 25(OH)D concentration of < 20 ng/mL.⁵ For those who were treated with vitamin D and achieved a 25(OH)D concentration of > 30 ng/mL (compared to those who were untreated and had an average concentration of < 20 ng/mL), the risk of myocardial infarction was 27% lower (HR = 0.73; 95% CI, 0.55-0.96) and the risk of all-cause mortality was reduced by 39% (HR = 0.61; 95% CI, 0.56-0.67).

An analysis of SARS-CoV-2 positivity examined data for more than 190,000 patients in the United States who had serum 25(OH)D concentration measurements taken up to 1 year prior to their SARS-CoV-2 test. Positivity rates were 12.5% (95% CI, 12.2%-12.8%) for those with a 25(OH)D concentration < 20 ng/mL vs 5.9% (95% CI, 5.5%-6.4%) for those with a 25(OH)D concentration ≥55 ng/mL.⁶

Thus, there are significant benefits of vitamin D supplementation to achieve a 25(OH)D concentration of 30 to 60 ng/mL for important health outcomes.

Continue to: Author's Response

Author's response

I appreciate the letter from Dr. Grant in response to my previous Practice Alert, as it provides an opportunity to make some important points about assessment of scientific evidence and drawing conclusions based on sound methodology. There is an overabundance of scientific literature published, much of which is of questionable quality, meaning a “study” or 2 can be found to support any preconceived point of view.

In 2011, the Institute of Medicine (now the National Academy of Medicine) published a series of recommendations on how trustworthy recommendations and guidelines should be produced.^1,2 Key among the steps recommended is a full assessment of the totality of the literature on the subject by an independent, nonconflicted panel. This should be based on a systematic review that includes standard search methods to find all pertinent articles, an assessment of the quality of each study using standardized tools, and an overall assessment of the quality of the evidence. A high-quality systematic review meeting these standards was the basis for my review article on vitamin D.³

A “study” or 2 can be found to support any preconceived point of view.

To challenge the findings of the unproven benefits of vitamin D, Dr. Grant cited 4 studies to support the purported benefit of achieving a specific serum 25(OH)D level to prevent cardiovascular disease, diabetes, cancer, and COVID-19. After reading these studies, I would not consider any of them a “game changer.”

The first study was restricted to those with prediabetes, had limited follow-up (mean of 2.5 years), and found different results for those with the same 25(OH)D concentrations in the placebo and treatment groups.⁴ The second study was a large, well-conducted clinical trial that found no benefit of vitamin D supplementation in preventing cancer and cardiovascular disease.⁵ While Dr. Grant claims that benefits were found for some subgroups, I could locate only the statistics on cancer incidence in Black participants, and the confidence intervals showed no statistically significant benefit. It is always questionable to look at multiple outcomes in multiple subgroups without a prior hypothesis because of the likely occurrence of chance findings in so many comparisons. The third was a retrospective observational study with all the potential biases and challenges to validity that such studies present.⁶ A single study, especially 1 with observational methods, almost never conclusively settles a point.

The role of vitamin D in the prevention or treatment of COVID-19 is an aspect that was not covered in the systematic review by the US Preventive Services Task Force. The study on this issuecited by Dr. Grant was a large retrospective observational study that found an inverse relationship between serum 25(OH)D levels and SARS-CoV-2 positivity rates.⁷ This is 1 observational study with interesting results. However, I believe the conclusion of the National Institutes of Health is currently still the correct one: “There is insufficient evidence to recommend either for or against the use of vitamin D for the prevention or treatment of COVID-19.”⁸

With time and further research, Dr. Grant may eventually prove to be correct on specific points. However, when challenging a high-quality systematic review, one must assess the quality of the studies used while also placing them in context of the totality of the literature.

Doug Campos-Outcalt, MD, MPA
Phoenix, AZ

References

1. Institute of Medicine. Finding What Works in Health Care. The National Academy Press, 2011.

2. Institute of Medicine. Clinical Practice Guidelines We Can Trust. The National Academy Press, 2011.

3. Kahwati LC, LeBlanc E, Weber RP, et al. Screening for vitamin D deficiency in adults; updated evidence report and systematic review for the US Preventive Services Task Force. JAMA. 2021;325:1443-1463. doi: 10.1001/jama.2020.26498

4. Dawson-Hughes B, Staten MA, Knowler WC, et al. Intratrial exposure to vitamin D and new-onset diabetes among adults with prediabetes: a secondary analysis from the Vitamin D and Type 2 Diabetes (D2d) Study. Diabetes Care. 2020;43:2916-2922. doi: 10.2337/dc20-1765

5. Manson JE, Cook NR, Lee I-M, et al. Vitamin D supplements and prevention of cancer and cardiovascular disease. N Engl J Med. 2019;380:33-44. doi: 10.1056/NEJMoa1809944

6. Acharya P, Dalia T, Ranka S, et al. The effects of vitamin D supplementation and 25-hydroxyvitamin D levels on the risk of myocardial infarction and mortality. J Endocr Soc. 2021;5:bvab124. doi: 10.1210/jendso/bvab124

7. Kaufman HW, Niles JK, Kroll MH, et al. SARS-CoV-2 positivity rates associated with circulating 25-hydroxyvitamin D levels. PLoS One. 2020;15:e0239252. doi: 10.1371/journal.pone.0239252

8. National Institutes of Health. Vitamin D. COVID-19 treatment guidelines. Updated April 21, 2021. Accessed November 18, 2021. www.covid19treatmentguidelines.nih.gov/therapies/supplements/vitamin-d/