Cardiology

Increased mental health needs, higher acuity from delayed appointments, and added questions and conversations surrounding COVID-19 are forcing primary care offices to rethink priorities in office visits.

Evidence of this came from the latest Primary Care Collaborative (PCC) survey, which found that primary care clinicians are seeing more complex patients requiring longer appointments in the wake of COVID-19.

The PCC with the Larry A. Green Center regularly surveys primary care clinicians. This round of questions came August 14-17 and included 1,263 respondents from 49 states, the District of Columbia, and two territories.

More than 7 in 10 (71%) respondents said their patients are more complex and nearly the same percentage said appointments are taking more time.

Ann Greiner, president and CEO of the PCC, said in an interview that 55% of respondents reported that clinicians are struggling to keep up with pent-up demand after patients have delayed or canceled care. Sixty-five percent in the survey said they had seen a rise in children’s mental health issues, and 58% said they were unsure how to help their patients with long COVID.

In addition, primary care clinicians are having repeated conversations with patients on why they should get a vaccine and which one.

“I think that’s adding to the complexity. There is a lot going on here with patient trust,” Ms. Greiner said.
 

‘We’re going to be playing catch-up’

Jacqueline Fincher, MD, an internist in Thompson, Ga., said in an interview that appointments have gotten longer and more complex in the wake of the pandemic – “no question.”

The immediate past president of the American College of Physicians is seeing patients with chronic disease that has gone untreated for sometimes a year or more, she said.

“Their blood pressure was not under good control, they were under more stress, their sugars were up and weren’t being followed as closely for conditions such as congestive heart failure,” she said.

Dr. Fincher, who works in a rural practice 40 miles from Augusta, Ga., with her physician husband and two other physicians, said patients are ready to come back in, “but I don’t have enough slots for them.”

She said she prioritizes what to help patients with first and schedules the next tier for the next appointment, but added, “honestly, over the next 2 years we’re going to be playing catch-up.”

At the same time, the CDC has estimated that 45% of U.S. adults are at increased risk for complications from COVID-19 because of cardiovascular disease, diabetes, respiratory disease, hypertension, or cancer. Rates ranged from 19.8% for people 18-29 years old to 80.7% for people over 80 years of age.
 

Long COVID could overwhelm existing health care capacity

Primary care physicians are also having to diagnose sometimes “invisible” symptoms after people have recovered from acute COVID-19 infection. Diagnosing takes intent listening to patients who describe symptoms that tests can’t confirm.

As this news organization has previously reported, half of COVID-19 survivors report postacute sequelae of COVID-19 (PASC) lasting longer than 6 months.

“These long-term PASC effects occur on a scale that could overwhelm existing health care capacity, particularly in low- and middle-income countries,” the authors wrote.
 

Anxiety, depression ‘have gone off the charts’

Danielle Loeb, MD, MPH, associate professor of internal medicine at the University of Colorado in Denver, who studies complexity in primary care, said in the wake of COVID-19, more patients have developed “new, serious anxiety.”

Courtesy Dr. Danielle Loeb

“That got extremely exacerbated during the pandemic. Anxiety and depression have gone off the charts,” said Dr. Loeb, who prefers the pronoun “they.”

Dr. Loeb cares for a large number of transgender patients. As offices reopen, some patients are having trouble reintegrating into the workplace and resuming social contacts. The primary care doctor says appointments can get longer because of the need to complete tasks, such as filling out forms for Family Medical Leave Act for those not yet ready to return to work.

COVID-19–related fears are keeping many patients from coming into the office, Dr. Loeb said, either from fear of exposure or because they have mental health issues that keep them from feeling safe leaving the house.

“That really affects my ability to care for them,” they said.

Loss of employment in the pandemic or fear of job loss and subsequent changing of insurance has complicated primary care in terms of treatment and administrative tasks, according to Dr. Loeb.

To help treat patients with acute mental health issues and manage other patients, Dr. Loeb’s practice has brought in a social worker and a therapist.

Team-based care is key in the survival of primary care practices, though providing that is difficult in the smaller clinics because of the critical mass of patients needed to make it viable, they said.

“It’s the only answer. It’s the only way you don’t drown,” Dr. Loeb added. “I’m not drowning, and I credit that to my clinic having the help to support the mental health piece of things.”
 

Rethinking workflow

Tricia McGinnis, MPP, MPH, executive vice president of the nonprofit Center for Health Care Strategies (CHCS) says complexity has forced rethinking workflow.

“A lot of the trends we’re seeing in primary care were there pre-COVID, but COVID has exacerbated those trends,” she said in an interview.

“The good news ... is that it was already becoming clear that primary care needed to provide basic mental health services and integrate with behavioral health. It had also become clear that effective primary care needed to address social issues that keep patients from accessing health care,” she said.

Expanding care teams, as Dr. Loeb mentioned, is a key strategy, according to Ms. McGinnis. Potential teams would include the clinical staff, but also social workers and community health workers – people who come from the community primary care is serving who can help build trust with patients and connect the patient to the primary care team.

“There’s a lot that needs to happen that the clinician doesn’t need to do,” she said.

Telehealth can be a big factor in coordinating the team, Ms. McGinnis added.

“It’s thinking less about who’s doing the work, but more about the work that needs to be done to keep people healthy. Then let’s think about the type of workers best suited to perform those tasks,” she said.

As for reimbursing more complex care, population-based, up-front capitated payments linked to high-quality care and better outcomes will need to replace fee-for-service models, according to Ms. McGinnis.

That will provide reliable incomes for primary care offices, but also flexibility in how each patient with different levels of complexity is managed, she said.

Ms. Greiner, Dr. Fincher, Dr. Loeb, and Ms. McGinnis have no relevant financial relationships.

Increased mental health needs, higher acuity from delayed appointments, and added questions and conversations surrounding COVID-19 are forcing primary care offices to rethink priorities in office visits.

Evidence of this came from the latest Primary Care Collaborative (PCC) survey, which found that primary care clinicians are seeing more complex patients requiring longer appointments in the wake of COVID-19.

The PCC with the Larry A. Green Center regularly surveys primary care clinicians. This round of questions came August 14-17 and included 1,263 respondents from 49 states, the District of Columbia, and two territories.

More than 7 in 10 (71%) respondents said their patients are more complex and nearly the same percentage said appointments are taking more time.

Ann Greiner, president and CEO of the PCC, said in an interview that 55% of respondents reported that clinicians are struggling to keep up with pent-up demand after patients have delayed or canceled care. Sixty-five percent in the survey said they had seen a rise in children’s mental health issues, and 58% said they were unsure how to help their patients with long COVID.

In addition, primary care clinicians are having repeated conversations with patients on why they should get a vaccine and which one.

“I think that’s adding to the complexity. There is a lot going on here with patient trust,” Ms. Greiner said.
 

‘We’re going to be playing catch-up’

Jacqueline Fincher, MD, an internist in Thompson, Ga., said in an interview that appointments have gotten longer and more complex in the wake of the pandemic – “no question.”

The immediate past president of the American College of Physicians is seeing patients with chronic disease that has gone untreated for sometimes a year or more, she said.

“Their blood pressure was not under good control, they were under more stress, their sugars were up and weren’t being followed as closely for conditions such as congestive heart failure,” she said.

Dr. Fincher, who works in a rural practice 40 miles from Augusta, Ga., with her physician husband and two other physicians, said patients are ready to come back in, “but I don’t have enough slots for them.”

She said she prioritizes what to help patients with first and schedules the next tier for the next appointment, but added, “honestly, over the next 2 years we’re going to be playing catch-up.”

At the same time, the CDC has estimated that 45% of U.S. adults are at increased risk for complications from COVID-19 because of cardiovascular disease, diabetes, respiratory disease, hypertension, or cancer. Rates ranged from 19.8% for people 18-29 years old to 80.7% for people over 80 years of age.
 

Long COVID could overwhelm existing health care capacity

Primary care physicians are also having to diagnose sometimes “invisible” symptoms after people have recovered from acute COVID-19 infection. Diagnosing takes intent listening to patients who describe symptoms that tests can’t confirm.

As this news organization has previously reported, half of COVID-19 survivors report postacute sequelae of COVID-19 (PASC) lasting longer than 6 months.

“These long-term PASC effects occur on a scale that could overwhelm existing health care capacity, particularly in low- and middle-income countries,” the authors wrote.
 

Anxiety, depression ‘have gone off the charts’

Danielle Loeb, MD, MPH, associate professor of internal medicine at the University of Colorado in Denver, who studies complexity in primary care, said in the wake of COVID-19, more patients have developed “new, serious anxiety.”

Courtesy Dr. Danielle Loeb

“That got extremely exacerbated during the pandemic. Anxiety and depression have gone off the charts,” said Dr. Loeb, who prefers the pronoun “they.”

Dr. Loeb cares for a large number of transgender patients. As offices reopen, some patients are having trouble reintegrating into the workplace and resuming social contacts. The primary care doctor says appointments can get longer because of the need to complete tasks, such as filling out forms for Family Medical Leave Act for those not yet ready to return to work.

COVID-19–related fears are keeping many patients from coming into the office, Dr. Loeb said, either from fear of exposure or because they have mental health issues that keep them from feeling safe leaving the house.

“That really affects my ability to care for them,” they said.

Loss of employment in the pandemic or fear of job loss and subsequent changing of insurance has complicated primary care in terms of treatment and administrative tasks, according to Dr. Loeb.

To help treat patients with acute mental health issues and manage other patients, Dr. Loeb’s practice has brought in a social worker and a therapist.

Team-based care is key in the survival of primary care practices, though providing that is difficult in the smaller clinics because of the critical mass of patients needed to make it viable, they said.

“It’s the only answer. It’s the only way you don’t drown,” Dr. Loeb added. “I’m not drowning, and I credit that to my clinic having the help to support the mental health piece of things.”
 

Rethinking workflow

Tricia McGinnis, MPP, MPH, executive vice president of the nonprofit Center for Health Care Strategies (CHCS) says complexity has forced rethinking workflow.

“A lot of the trends we’re seeing in primary care were there pre-COVID, but COVID has exacerbated those trends,” she said in an interview.

“The good news ... is that it was already becoming clear that primary care needed to provide basic mental health services and integrate with behavioral health. It had also become clear that effective primary care needed to address social issues that keep patients from accessing health care,” she said.

Expanding care teams, as Dr. Loeb mentioned, is a key strategy, according to Ms. McGinnis. Potential teams would include the clinical staff, but also social workers and community health workers – people who come from the community primary care is serving who can help build trust with patients and connect the patient to the primary care team.

“There’s a lot that needs to happen that the clinician doesn’t need to do,” she said.

Telehealth can be a big factor in coordinating the team, Ms. McGinnis added.

“It’s thinking less about who’s doing the work, but more about the work that needs to be done to keep people healthy. Then let’s think about the type of workers best suited to perform those tasks,” she said.

As for reimbursing more complex care, population-based, up-front capitated payments linked to high-quality care and better outcomes will need to replace fee-for-service models, according to Ms. McGinnis.

That will provide reliable incomes for primary care offices, but also flexibility in how each patient with different levels of complexity is managed, she said.

Ms. Greiner, Dr. Fincher, Dr. Loeb, and Ms. McGinnis have no relevant financial relationships.

Increased mental health needs, higher acuity from delayed appointments, and added questions and conversations surrounding COVID-19 are forcing primary care offices to rethink priorities in office visits.

Evidence of this came from the latest Primary Care Collaborative (PCC) survey, which found that primary care clinicians are seeing more complex patients requiring longer appointments in the wake of COVID-19.

The PCC with the Larry A. Green Center regularly surveys primary care clinicians. This round of questions came August 14-17 and included 1,263 respondents from 49 states, the District of Columbia, and two territories.

More than 7 in 10 (71%) respondents said their patients are more complex and nearly the same percentage said appointments are taking more time.

Ann Greiner, president and CEO of the PCC, said in an interview that 55% of respondents reported that clinicians are struggling to keep up with pent-up demand after patients have delayed or canceled care. Sixty-five percent in the survey said they had seen a rise in children’s mental health issues, and 58% said they were unsure how to help their patients with long COVID.

In addition, primary care clinicians are having repeated conversations with patients on why they should get a vaccine and which one.

“I think that’s adding to the complexity. There is a lot going on here with patient trust,” Ms. Greiner said.
 

‘We’re going to be playing catch-up’

Jacqueline Fincher, MD, an internist in Thompson, Ga., said in an interview that appointments have gotten longer and more complex in the wake of the pandemic – “no question.”

The immediate past president of the American College of Physicians is seeing patients with chronic disease that has gone untreated for sometimes a year or more, she said.

“Their blood pressure was not under good control, they were under more stress, their sugars were up and weren’t being followed as closely for conditions such as congestive heart failure,” she said.

Dr. Fincher, who works in a rural practice 40 miles from Augusta, Ga., with her physician husband and two other physicians, said patients are ready to come back in, “but I don’t have enough slots for them.”

She said she prioritizes what to help patients with first and schedules the next tier for the next appointment, but added, “honestly, over the next 2 years we’re going to be playing catch-up.”

At the same time, the CDC has estimated that 45% of U.S. adults are at increased risk for complications from COVID-19 because of cardiovascular disease, diabetes, respiratory disease, hypertension, or cancer. Rates ranged from 19.8% for people 18-29 years old to 80.7% for people over 80 years of age.
 

Long COVID could overwhelm existing health care capacity

Primary care physicians are also having to diagnose sometimes “invisible” symptoms after people have recovered from acute COVID-19 infection. Diagnosing takes intent listening to patients who describe symptoms that tests can’t confirm.

As this news organization has previously reported, half of COVID-19 survivors report postacute sequelae of COVID-19 (PASC) lasting longer than 6 months.

“These long-term PASC effects occur on a scale that could overwhelm existing health care capacity, particularly in low- and middle-income countries,” the authors wrote.
 

Anxiety, depression ‘have gone off the charts’

Danielle Loeb, MD, MPH, associate professor of internal medicine at the University of Colorado in Denver, who studies complexity in primary care, said in the wake of COVID-19, more patients have developed “new, serious anxiety.”

Courtesy Dr. Danielle Loeb

“That got extremely exacerbated during the pandemic. Anxiety and depression have gone off the charts,” said Dr. Loeb, who prefers the pronoun “they.”

Dr. Loeb cares for a large number of transgender patients. As offices reopen, some patients are having trouble reintegrating into the workplace and resuming social contacts. The primary care doctor says appointments can get longer because of the need to complete tasks, such as filling out forms for Family Medical Leave Act for those not yet ready to return to work.

COVID-19–related fears are keeping many patients from coming into the office, Dr. Loeb said, either from fear of exposure or because they have mental health issues that keep them from feeling safe leaving the house.

“That really affects my ability to care for them,” they said.

Loss of employment in the pandemic or fear of job loss and subsequent changing of insurance has complicated primary care in terms of treatment and administrative tasks, according to Dr. Loeb.

To help treat patients with acute mental health issues and manage other patients, Dr. Loeb’s practice has brought in a social worker and a therapist.

Team-based care is key in the survival of primary care practices, though providing that is difficult in the smaller clinics because of the critical mass of patients needed to make it viable, they said.

“It’s the only answer. It’s the only way you don’t drown,” Dr. Loeb added. “I’m not drowning, and I credit that to my clinic having the help to support the mental health piece of things.”
 

Rethinking workflow

Tricia McGinnis, MPP, MPH, executive vice president of the nonprofit Center for Health Care Strategies (CHCS) says complexity has forced rethinking workflow.

“A lot of the trends we’re seeing in primary care were there pre-COVID, but COVID has exacerbated those trends,” she said in an interview.

“The good news ... is that it was already becoming clear that primary care needed to provide basic mental health services and integrate with behavioral health. It had also become clear that effective primary care needed to address social issues that keep patients from accessing health care,” she said.

Expanding care teams, as Dr. Loeb mentioned, is a key strategy, according to Ms. McGinnis. Potential teams would include the clinical staff, but also social workers and community health workers – people who come from the community primary care is serving who can help build trust with patients and connect the patient to the primary care team.

“There’s a lot that needs to happen that the clinician doesn’t need to do,” she said.

Telehealth can be a big factor in coordinating the team, Ms. McGinnis added.

“It’s thinking less about who’s doing the work, but more about the work that needs to be done to keep people healthy. Then let’s think about the type of workers best suited to perform those tasks,” she said.

As for reimbursing more complex care, population-based, up-front capitated payments linked to high-quality care and better outcomes will need to replace fee-for-service models, according to Ms. McGinnis.

That will provide reliable incomes for primary care offices, but also flexibility in how each patient with different levels of complexity is managed, she said.

Ms. Greiner, Dr. Fincher, Dr. Loeb, and Ms. McGinnis have no relevant financial relationships.

In a new scientific statement on diet and lifestyle recommendations, the American Heart Association is highlighting, for the first time, structural challenges that impede the adoption of heart-healthy dietary patterns.

American Heart Association

This is in addition to stressing aspects of diet that improve cardiovascular health and reduce cardiovascular risk, with an emphasis on dietary patterns and food-based guidance beyond naming individual foods or nutrients.

The 2021 Dietary Guidance to Improve Cardiovascular Health scientific statement, developed under Alice H. Lichtenstein, DSc, chair of the AHA writing group, provides 10 evidence-based guidance recommendations to promote cardiometabolic health.

“The way to make heart-healthy choices every day,” said Dr. Lichtenstein, of the Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts University in Boston, in a statement, “is to step back, look at the environment in which you eat, whether it be at home, at work, during social interaction, and then identify what the best choices are. And if there are no good choices, then think about how you can modify your environment so that there are good choices.”

The statement, published in Circulation, underscores growing evidence that nutrition-related chronic diseases have maternal-nutritional origins, and that prevention of pediatric obesity is a key to preserving and prolonging ideal cardiovascular health.

The features are as follows:

• Adjust energy intake and expenditure to achieve and maintain a healthy body weight. To counter the shift toward higher energy intake and more sedentary lifestyles over the past 3 decades, the statement recommends at least 150 minutes of moderate physical activity per week, adjusted for individual’s age, activity level, sex, and size.
• Eat plenty of fruits and vegetables; choose a wide variety. Observational and intervention studies document that dietary patterns rich in varied fruits and vegetables, with the exception of white potatoes, are linked to a lower risk of cardiovascular disease (CVD). Also, whole fruits and vegetables, which more readily provide fiber and satiety, are preferred over juices.
• Choose whole grain foods and products made mostly with whole grains rather than refined grains. Evidence from observational, interventional, and clinical studies confirm the benefits of frequent consumption of whole grains over infrequent consumption or over refined grains in terms of CVD risk, coronary heart disease (CHD), stroke, metabolic syndrome, cardiometabolic risk factors, laxation, and gut microbiota.
• Choose healthy sources of protein, mostly from plants (legumes and nuts).
• Higher intake of legumes, which are rich in protein and fiber, is associated with lower CVD risk, while higher nut intake is associated with lower risks of CVD, CHD, and stroke mortality/incidence. Replacing animal-source foods with plant-source whole foods, beyond health benefits, lowers the diet’s carbon footprint. Meat alternatives are often ultraprocessed and evidence on their short- and long-term health effects is limited. Unsaturated fats are preferred, as are lean, nonprocessed meats.
• Use liquid plant oils rather than tropical oils (coconut, palm, and palm kernel), animal fats (butter and lard), and partially hydrogenated fats. Saturated and trans fats (animal and dairy fats, and partially hydrogenated fat) should be replaced with nontropical liquid plant oils. Evidence supports cardiovascular benefits of dietary unsaturated fats, especially polyunsaturated fats primarily from plant oils (e.g. soybean, corn, safflower and sunflower oils, walnuts, and flax seeds).
• Choose minimally processed foods instead of ultraprocessed foods. Because of their proven association with adverse health outcomes, including overweight and obesity, cardiometabolic disorders (type 2 diabetes, CVD), and all-cause mortality, the consumption of many ultraprocessed foods is of concern. Ultraprocessed foods include artificial colors and flavors and preservatives that promote shelf stability, preserve texture, and increase palatability. A general principle is to emphasize unprocessed or minimally processed foods.
• Minimize intake of beverages and foods with added sugars. Added sugars (commonly glucose, dextrose, sucrose, corn syrup, honey, maple syrup, and concentrated fruit juice) are tied to elevated risk for type 2 diabetes, high cholesterol, and excess body weight. Findings from meta-analyses on body weight and metabolic outcomes for replacing added sugars with low-energy sweeteners are mixed, and the possibility of reverse causality has been raised.
• Choose and prepare foods with little or no salt. In general, the effects of sodium reduction on blood pressure tend to be higher in Black people, middle-aged and older people, and those with hypertension. In the United States, the main combined sources of sodium intake are processed foods, those prepared outside the home, packaged foods, and restaurant foods. Potassium-enriched salts are a promising alternative.
• If you don’t drink alcohol, don’t start; if you choose to drink, limit intake.
• While relationships between alcohol intake and cardiovascular outcomes are complex, the 2020 Dietary Guidelines Advisory Committee recently concluded that those who do drink should consume no more than one drink per day and should not drink alcohol in binges; the 2020 Dietary Guidelines for Americans con­tinues to recommend no more than one drink per day for women and two drinks per day for men.
• Adhere to the guidance regardless in all settings. Food-based dietary guidance applies to all foods and beverages, regardless of where prepared, procured, and consumed. Policies should be enacted that encourage healthier default options (for example, whole grains, minimized sodium and sugar content).

Recognizing impediments

The AHA/ASA scientific statement closes with the declaration: “Creating an environment that facilitates, rather than impedes, adherence to heart-healthy dietary patterns among all individuals is a public health imperative.” It points to the National Institutes of Health’s 2020-2030 Strategic Plan for National Institutes of Health Nutrition Research, which focuses on precision nutrition as a means “to determine the impact on health of not only what individuals eat, but also of why, when, and how they eat throughout the life course.”

Ultimately, precision nutrition may provide personalized diets for CVD prevention. But the “food environment,” often conditioned by “rampant nutrition misinformation” through local, state, and federal practices and policies, may impede the adoption of heart-healthy dietary patterns. Factors such as targeted food marketing (for example, of processed food and beverages in minority neighborhoods), structural racism, neighborhood segregation, unhealthy built environments, and food insecurity create environments in which unhealthy foods are the default option.”

These factors compound adverse dietary and health effects, and underscore a need to “directly combat nutrition misinformation among the public and health care professionals.” They also explain why, despite widespread knowledge of heart-healthy dietary pattern components, little progress has been made in achieving dietary goals in the United States.

Dr. Lichtenstein’s office, in response to a request regarding AHA advocacy and consumer programs, provided the following links: Voices for Healthy Kids initiative site and choosing healthier processed foods and one on fresh, frozen, and canned fruits and vegetables.

Dr. Lichtenstein had no disclosures. Disclosures for the writing group members are included in the statement.

In a new scientific statement on diet and lifestyle recommendations, the American Heart Association is highlighting, for the first time, structural challenges that impede the adoption of heart-healthy dietary patterns.

American Heart Association

This is in addition to stressing aspects of diet that improve cardiovascular health and reduce cardiovascular risk, with an emphasis on dietary patterns and food-based guidance beyond naming individual foods or nutrients.

The 2021 Dietary Guidance to Improve Cardiovascular Health scientific statement, developed under Alice H. Lichtenstein, DSc, chair of the AHA writing group, provides 10 evidence-based guidance recommendations to promote cardiometabolic health.

“The way to make heart-healthy choices every day,” said Dr. Lichtenstein, of the Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts University in Boston, in a statement, “is to step back, look at the environment in which you eat, whether it be at home, at work, during social interaction, and then identify what the best choices are. And if there are no good choices, then think about how you can modify your environment so that there are good choices.”

The statement, published in Circulation, underscores growing evidence that nutrition-related chronic diseases have maternal-nutritional origins, and that prevention of pediatric obesity is a key to preserving and prolonging ideal cardiovascular health.

The features are as follows:

• Adjust energy intake and expenditure to achieve and maintain a healthy body weight. To counter the shift toward higher energy intake and more sedentary lifestyles over the past 3 decades, the statement recommends at least 150 minutes of moderate physical activity per week, adjusted for individual’s age, activity level, sex, and size.
• Eat plenty of fruits and vegetables; choose a wide variety. Observational and intervention studies document that dietary patterns rich in varied fruits and vegetables, with the exception of white potatoes, are linked to a lower risk of cardiovascular disease (CVD). Also, whole fruits and vegetables, which more readily provide fiber and satiety, are preferred over juices.
• Choose whole grain foods and products made mostly with whole grains rather than refined grains. Evidence from observational, interventional, and clinical studies confirm the benefits of frequent consumption of whole grains over infrequent consumption or over refined grains in terms of CVD risk, coronary heart disease (CHD), stroke, metabolic syndrome, cardiometabolic risk factors, laxation, and gut microbiota.
• Choose healthy sources of protein, mostly from plants (legumes and nuts).
• Higher intake of legumes, which are rich in protein and fiber, is associated with lower CVD risk, while higher nut intake is associated with lower risks of CVD, CHD, and stroke mortality/incidence. Replacing animal-source foods with plant-source whole foods, beyond health benefits, lowers the diet’s carbon footprint. Meat alternatives are often ultraprocessed and evidence on their short- and long-term health effects is limited. Unsaturated fats are preferred, as are lean, nonprocessed meats.
• Use liquid plant oils rather than tropical oils (coconut, palm, and palm kernel), animal fats (butter and lard), and partially hydrogenated fats. Saturated and trans fats (animal and dairy fats, and partially hydrogenated fat) should be replaced with nontropical liquid plant oils. Evidence supports cardiovascular benefits of dietary unsaturated fats, especially polyunsaturated fats primarily from plant oils (e.g. soybean, corn, safflower and sunflower oils, walnuts, and flax seeds).
• Choose minimally processed foods instead of ultraprocessed foods. Because of their proven association with adverse health outcomes, including overweight and obesity, cardiometabolic disorders (type 2 diabetes, CVD), and all-cause mortality, the consumption of many ultraprocessed foods is of concern. Ultraprocessed foods include artificial colors and flavors and preservatives that promote shelf stability, preserve texture, and increase palatability. A general principle is to emphasize unprocessed or minimally processed foods.
• Minimize intake of beverages and foods with added sugars. Added sugars (commonly glucose, dextrose, sucrose, corn syrup, honey, maple syrup, and concentrated fruit juice) are tied to elevated risk for type 2 diabetes, high cholesterol, and excess body weight. Findings from meta-analyses on body weight and metabolic outcomes for replacing added sugars with low-energy sweeteners are mixed, and the possibility of reverse causality has been raised.
• Choose and prepare foods with little or no salt. In general, the effects of sodium reduction on blood pressure tend to be higher in Black people, middle-aged and older people, and those with hypertension. In the United States, the main combined sources of sodium intake are processed foods, those prepared outside the home, packaged foods, and restaurant foods. Potassium-enriched salts are a promising alternative.
• If you don’t drink alcohol, don’t start; if you choose to drink, limit intake.
• While relationships between alcohol intake and cardiovascular outcomes are complex, the 2020 Dietary Guidelines Advisory Committee recently concluded that those who do drink should consume no more than one drink per day and should not drink alcohol in binges; the 2020 Dietary Guidelines for Americans con­tinues to recommend no more than one drink per day for women and two drinks per day for men.
• Adhere to the guidance regardless in all settings. Food-based dietary guidance applies to all foods and beverages, regardless of where prepared, procured, and consumed. Policies should be enacted that encourage healthier default options (for example, whole grains, minimized sodium and sugar content).

Recognizing impediments

The AHA/ASA scientific statement closes with the declaration: “Creating an environment that facilitates, rather than impedes, adherence to heart-healthy dietary patterns among all individuals is a public health imperative.” It points to the National Institutes of Health’s 2020-2030 Strategic Plan for National Institutes of Health Nutrition Research, which focuses on precision nutrition as a means “to determine the impact on health of not only what individuals eat, but also of why, when, and how they eat throughout the life course.”

Ultimately, precision nutrition may provide personalized diets for CVD prevention. But the “food environment,” often conditioned by “rampant nutrition misinformation” through local, state, and federal practices and policies, may impede the adoption of heart-healthy dietary patterns. Factors such as targeted food marketing (for example, of processed food and beverages in minority neighborhoods), structural racism, neighborhood segregation, unhealthy built environments, and food insecurity create environments in which unhealthy foods are the default option.”

These factors compound adverse dietary and health effects, and underscore a need to “directly combat nutrition misinformation among the public and health care professionals.” They also explain why, despite widespread knowledge of heart-healthy dietary pattern components, little progress has been made in achieving dietary goals in the United States.

Dr. Lichtenstein’s office, in response to a request regarding AHA advocacy and consumer programs, provided the following links: Voices for Healthy Kids initiative site and choosing healthier processed foods and one on fresh, frozen, and canned fruits and vegetables.

Dr. Lichtenstein had no disclosures. Disclosures for the writing group members are included in the statement.

In a new scientific statement on diet and lifestyle recommendations, the American Heart Association is highlighting, for the first time, structural challenges that impede the adoption of heart-healthy dietary patterns.

American Heart Association

This is in addition to stressing aspects of diet that improve cardiovascular health and reduce cardiovascular risk, with an emphasis on dietary patterns and food-based guidance beyond naming individual foods or nutrients.

The 2021 Dietary Guidance to Improve Cardiovascular Health scientific statement, developed under Alice H. Lichtenstein, DSc, chair of the AHA writing group, provides 10 evidence-based guidance recommendations to promote cardiometabolic health.

“The way to make heart-healthy choices every day,” said Dr. Lichtenstein, of the Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts University in Boston, in a statement, “is to step back, look at the environment in which you eat, whether it be at home, at work, during social interaction, and then identify what the best choices are. And if there are no good choices, then think about how you can modify your environment so that there are good choices.”

The statement, published in Circulation, underscores growing evidence that nutrition-related chronic diseases have maternal-nutritional origins, and that prevention of pediatric obesity is a key to preserving and prolonging ideal cardiovascular health.

The features are as follows:

• Adjust energy intake and expenditure to achieve and maintain a healthy body weight. To counter the shift toward higher energy intake and more sedentary lifestyles over the past 3 decades, the statement recommends at least 150 minutes of moderate physical activity per week, adjusted for individual’s age, activity level, sex, and size.
• Eat plenty of fruits and vegetables; choose a wide variety. Observational and intervention studies document that dietary patterns rich in varied fruits and vegetables, with the exception of white potatoes, are linked to a lower risk of cardiovascular disease (CVD). Also, whole fruits and vegetables, which more readily provide fiber and satiety, are preferred over juices.
• Choose whole grain foods and products made mostly with whole grains rather than refined grains. Evidence from observational, interventional, and clinical studies confirm the benefits of frequent consumption of whole grains over infrequent consumption or over refined grains in terms of CVD risk, coronary heart disease (CHD), stroke, metabolic syndrome, cardiometabolic risk factors, laxation, and gut microbiota.
• Choose healthy sources of protein, mostly from plants (legumes and nuts).
• Higher intake of legumes, which are rich in protein and fiber, is associated with lower CVD risk, while higher nut intake is associated with lower risks of CVD, CHD, and stroke mortality/incidence. Replacing animal-source foods with plant-source whole foods, beyond health benefits, lowers the diet’s carbon footprint. Meat alternatives are often ultraprocessed and evidence on their short- and long-term health effects is limited. Unsaturated fats are preferred, as are lean, nonprocessed meats.
• Use liquid plant oils rather than tropical oils (coconut, palm, and palm kernel), animal fats (butter and lard), and partially hydrogenated fats. Saturated and trans fats (animal and dairy fats, and partially hydrogenated fat) should be replaced with nontropical liquid plant oils. Evidence supports cardiovascular benefits of dietary unsaturated fats, especially polyunsaturated fats primarily from plant oils (e.g. soybean, corn, safflower and sunflower oils, walnuts, and flax seeds).
• Choose minimally processed foods instead of ultraprocessed foods. Because of their proven association with adverse health outcomes, including overweight and obesity, cardiometabolic disorders (type 2 diabetes, CVD), and all-cause mortality, the consumption of many ultraprocessed foods is of concern. Ultraprocessed foods include artificial colors and flavors and preservatives that promote shelf stability, preserve texture, and increase palatability. A general principle is to emphasize unprocessed or minimally processed foods.
• Minimize intake of beverages and foods with added sugars. Added sugars (commonly glucose, dextrose, sucrose, corn syrup, honey, maple syrup, and concentrated fruit juice) are tied to elevated risk for type 2 diabetes, high cholesterol, and excess body weight. Findings from meta-analyses on body weight and metabolic outcomes for replacing added sugars with low-energy sweeteners are mixed, and the possibility of reverse causality has been raised.
• Choose and prepare foods with little or no salt. In general, the effects of sodium reduction on blood pressure tend to be higher in Black people, middle-aged and older people, and those with hypertension. In the United States, the main combined sources of sodium intake are processed foods, those prepared outside the home, packaged foods, and restaurant foods. Potassium-enriched salts are a promising alternative.
• If you don’t drink alcohol, don’t start; if you choose to drink, limit intake.
• While relationships between alcohol intake and cardiovascular outcomes are complex, the 2020 Dietary Guidelines Advisory Committee recently concluded that those who do drink should consume no more than one drink per day and should not drink alcohol in binges; the 2020 Dietary Guidelines for Americans con­tinues to recommend no more than one drink per day for women and two drinks per day for men.
• Adhere to the guidance regardless in all settings. Food-based dietary guidance applies to all foods and beverages, regardless of where prepared, procured, and consumed. Policies should be enacted that encourage healthier default options (for example, whole grains, minimized sodium and sugar content).

Recognizing impediments

The AHA/ASA scientific statement closes with the declaration: “Creating an environment that facilitates, rather than impedes, adherence to heart-healthy dietary patterns among all individuals is a public health imperative.” It points to the National Institutes of Health’s 2020-2030 Strategic Plan for National Institutes of Health Nutrition Research, which focuses on precision nutrition as a means “to determine the impact on health of not only what individuals eat, but also of why, when, and how they eat throughout the life course.”

Ultimately, precision nutrition may provide personalized diets for CVD prevention. But the “food environment,” often conditioned by “rampant nutrition misinformation” through local, state, and federal practices and policies, may impede the adoption of heart-healthy dietary patterns. Factors such as targeted food marketing (for example, of processed food and beverages in minority neighborhoods), structural racism, neighborhood segregation, unhealthy built environments, and food insecurity create environments in which unhealthy foods are the default option.”

These factors compound adverse dietary and health effects, and underscore a need to “directly combat nutrition misinformation among the public and health care professionals.” They also explain why, despite widespread knowledge of heart-healthy dietary pattern components, little progress has been made in achieving dietary goals in the United States.

Dr. Lichtenstein’s office, in response to a request regarding AHA advocacy and consumer programs, provided the following links: Voices for Healthy Kids initiative site and choosing healthier processed foods and one on fresh, frozen, and canned fruits and vegetables.

Dr. Lichtenstein had no disclosures. Disclosures for the writing group members are included in the statement.

According to the latest meta-analysis of sham-controlled randomized trials, catheter-based renal sympathetic denervation produces clinically meaningful reductions in blood pressure with acceptable safety, but the strategy is not yet regarded as ready for prime time, according to a summary of the results to be presented at the Transcatheter Cardiovascular Therapeutics annual meeting.

This meta-analysis was based on seven blinded trials, all of which associated denervation with a reduction in systolic ambulatory BP, according to Yousif Ahmad, BMBS, PhD, an interventional cardiologist at Yale University, New Haven, Conn.

Although the BP-lowering advantage in two of these studies did not reach statistical significance, the other five did, and all the data moved in the same direction.

For ambulatory diastolic pressure, the effect was more modest. One of the studies showed essentially a neutral effect. The reductions were statistically significant in only two, but, again, the data moved in the same direction in six of the studies, and a random-effects analysis suggested that the reductions, although modest, were potentially meaningful, according to Dr. Ahmad.

Overall, at a mean follow-up of 4.5 months, the reductions in ambulatory systolic and diastolic BPs were 3.61 and 1.85 mm Hg, respectively. The benefit was about the same whether renal denervation was or was not performed on the background of antihypertensive drugs, which was permitted in five of the seven trials. In the other two, all patients were off hypertensive medication.
 

Office-based systolic reduction: 6 mm Hg

When the same analysis was performed for office-based BP reductions, which were available for five of the seven trials, the overall reductions based on the meta-analysis were 5.86 and 3.63 mm Hg for the systolic and diastolic pressures, respectively. Again, background antihypertensive therapy was not a factor.

Of the seven trials, three randomized fewer than 100 patients. The largest, SYMPLICITY HTN-3, randomized 491 patients in 2:1 ratio to denervation or sham.

Three of the studies in the meta-analysis were trials of the Symplicity flex device. Another two evaluated the Symplicity Spyral catheter. Both deliver radiofrequency energy to for denervation. The Paradise device, the focus of the remaining two trials, employs energy in the form of ultrasound.

According to Dr. Ahmad, adverse events regardless of device were rare and not more common among those in the active treatment arm than in those treated with a sham procedure. Although one of these trials, RADIANCE-HTN SOLO associated denervation with efficacy and safety out to 12 months , Dr. Ahmad concluded that the mean follow-up of 4.5 months is not sufficient to consider long-term effects.

More than 20 meta-analyses published so far

By one count, there have been more than 20 meta-analyses of renal denervation published previously yet this intervention is still considered “controversial,” according to Dr. Ahmad. Relative to the previous meta-analyses, this included the RADIANCE-HTN TRIO trial, which is the latest such sham-controlled study and added 136 patients to the dataset of high-quality trials.

Basically, the results led Dr. Ahmad to conclude that, although the treatment effect is modest, it could be valuable in specific groups of patients, such as those reluctant or unable to take multiple medications or any medications at all. In addition to generating more data on efficacy and safety, he said longer follow-up is also needed for calculations of cost-effectiveness. Larger-scale observational studies might be one way of collecting these data, he reported.

The results of this study were published online in JACC Cardiovascular Interventions with an accompanying editorial by David E. Kandzari, MD, director of interventional cardiology, Piedmont Hart Institute, Atlanta.

Commenting on the large pile of meta-analyses, sometimes published months apart, Dr. Kandzari explained that their “short half-life” is a product of the continuous updating of data with new trials. For a procedure that remains controversial, he said these constant relooks are inevitable.

“My point is that, with more studies, we can expect to see more meta-analyses. It is just the way this is going to work,” Dr. Kandzari said in an interview.
 

Individual study data also relevant

Even as the authors of these analyses attempt to cull the best data from the most rigorously performed trials, “we are also going to have to look at the individual studies, because of the differences in the trial designs, particularly the devices used,” according to Dr. Kandzari, who was the principle investigator of the sham-controlled SPYRAL HTN-ON MED trial.

So far, the data, despite some inconsistencies, have supported “clinically meaningful” BP reductions and acceptable safety regardless of the device used, according to Dr. Kandzari. Although he also agrees with the basic premise that more long-term data are needed to better determine how renal denervation should be applied in management of hypertension, he does think it will eventually find a role that is “complimentary to, rather than a replacement for, drugs.”

“The effect is modest, but keep in mind that the effect size is similar to that of a single oral medication, and there are some features, such as an always-on 24-hour effect that could be useful,” he said.

“We have enough of a signal to start thinking of how this will be enveloped into routine care,” he said.

But it is not ready yet. This was the point made by Dr. Ahmad, and it was seconded by Dr. Kandzari. One of the senior authors of the meta-analysis, Deepak Bhatt, MD, executive director of interventional cardiovascular programs, Brigham and Women’s Health, Boston, was also asked to weigh on when it will be ready for prime time.

“At a minimum, I would recommend completion of ongoing sham-controlled randomized trials before considering clinical use of renal denervation. Longer term safety and durability data, as well as data on cost-effectiveness, are all still needed – preferably from randomized trials as opposed to registries,” he said.

“Ideally, larger sham-controlled trials with longer follow-up and clinical endpoints, as opposed to only blood pressure measurements, would be performed, although I am not aware of any plans at present,” he added.

Dr. Ahmad reported no financial relationships relevant to this research. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, including those developing products relevant to hypertension and renal denervation. Dr. Kandzari reported financial relationships with Ablative Solutions and Medtronic.

According to the latest meta-analysis of sham-controlled randomized trials, catheter-based renal sympathetic denervation produces clinically meaningful reductions in blood pressure with acceptable safety, but the strategy is not yet regarded as ready for prime time, according to a summary of the results to be presented at the Transcatheter Cardiovascular Therapeutics annual meeting.

This meta-analysis was based on seven blinded trials, all of which associated denervation with a reduction in systolic ambulatory BP, according to Yousif Ahmad, BMBS, PhD, an interventional cardiologist at Yale University, New Haven, Conn.

Although the BP-lowering advantage in two of these studies did not reach statistical significance, the other five did, and all the data moved in the same direction.

For ambulatory diastolic pressure, the effect was more modest. One of the studies showed essentially a neutral effect. The reductions were statistically significant in only two, but, again, the data moved in the same direction in six of the studies, and a random-effects analysis suggested that the reductions, although modest, were potentially meaningful, according to Dr. Ahmad.

Overall, at a mean follow-up of 4.5 months, the reductions in ambulatory systolic and diastolic BPs were 3.61 and 1.85 mm Hg, respectively. The benefit was about the same whether renal denervation was or was not performed on the background of antihypertensive drugs, which was permitted in five of the seven trials. In the other two, all patients were off hypertensive medication.
 

Office-based systolic reduction: 6 mm Hg

When the same analysis was performed for office-based BP reductions, which were available for five of the seven trials, the overall reductions based on the meta-analysis were 5.86 and 3.63 mm Hg for the systolic and diastolic pressures, respectively. Again, background antihypertensive therapy was not a factor.

Of the seven trials, three randomized fewer than 100 patients. The largest, SYMPLICITY HTN-3, randomized 491 patients in 2:1 ratio to denervation or sham.

Three of the studies in the meta-analysis were trials of the Symplicity flex device. Another two evaluated the Symplicity Spyral catheter. Both deliver radiofrequency energy to for denervation. The Paradise device, the focus of the remaining two trials, employs energy in the form of ultrasound.

According to Dr. Ahmad, adverse events regardless of device were rare and not more common among those in the active treatment arm than in those treated with a sham procedure. Although one of these trials, RADIANCE-HTN SOLO associated denervation with efficacy and safety out to 12 months , Dr. Ahmad concluded that the mean follow-up of 4.5 months is not sufficient to consider long-term effects.

More than 20 meta-analyses published so far

By one count, there have been more than 20 meta-analyses of renal denervation published previously yet this intervention is still considered “controversial,” according to Dr. Ahmad. Relative to the previous meta-analyses, this included the RADIANCE-HTN TRIO trial, which is the latest such sham-controlled study and added 136 patients to the dataset of high-quality trials.

Basically, the results led Dr. Ahmad to conclude that, although the treatment effect is modest, it could be valuable in specific groups of patients, such as those reluctant or unable to take multiple medications or any medications at all. In addition to generating more data on efficacy and safety, he said longer follow-up is also needed for calculations of cost-effectiveness. Larger-scale observational studies might be one way of collecting these data, he reported.

The results of this study were published online in JACC Cardiovascular Interventions with an accompanying editorial by David E. Kandzari, MD, director of interventional cardiology, Piedmont Hart Institute, Atlanta.

Commenting on the large pile of meta-analyses, sometimes published months apart, Dr. Kandzari explained that their “short half-life” is a product of the continuous updating of data with new trials. For a procedure that remains controversial, he said these constant relooks are inevitable.

“My point is that, with more studies, we can expect to see more meta-analyses. It is just the way this is going to work,” Dr. Kandzari said in an interview.
 

Individual study data also relevant

Even as the authors of these analyses attempt to cull the best data from the most rigorously performed trials, “we are also going to have to look at the individual studies, because of the differences in the trial designs, particularly the devices used,” according to Dr. Kandzari, who was the principle investigator of the sham-controlled SPYRAL HTN-ON MED trial.

So far, the data, despite some inconsistencies, have supported “clinically meaningful” BP reductions and acceptable safety regardless of the device used, according to Dr. Kandzari. Although he also agrees with the basic premise that more long-term data are needed to better determine how renal denervation should be applied in management of hypertension, he does think it will eventually find a role that is “complimentary to, rather than a replacement for, drugs.”

“The effect is modest, but keep in mind that the effect size is similar to that of a single oral medication, and there are some features, such as an always-on 24-hour effect that could be useful,” he said.

“We have enough of a signal to start thinking of how this will be enveloped into routine care,” he said.

But it is not ready yet. This was the point made by Dr. Ahmad, and it was seconded by Dr. Kandzari. One of the senior authors of the meta-analysis, Deepak Bhatt, MD, executive director of interventional cardiovascular programs, Brigham and Women’s Health, Boston, was also asked to weigh on when it will be ready for prime time.

“At a minimum, I would recommend completion of ongoing sham-controlled randomized trials before considering clinical use of renal denervation. Longer term safety and durability data, as well as data on cost-effectiveness, are all still needed – preferably from randomized trials as opposed to registries,” he said.

“Ideally, larger sham-controlled trials with longer follow-up and clinical endpoints, as opposed to only blood pressure measurements, would be performed, although I am not aware of any plans at present,” he added.

Dr. Ahmad reported no financial relationships relevant to this research. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, including those developing products relevant to hypertension and renal denervation. Dr. Kandzari reported financial relationships with Ablative Solutions and Medtronic.

According to the latest meta-analysis of sham-controlled randomized trials, catheter-based renal sympathetic denervation produces clinically meaningful reductions in blood pressure with acceptable safety, but the strategy is not yet regarded as ready for prime time, according to a summary of the results to be presented at the Transcatheter Cardiovascular Therapeutics annual meeting.

This meta-analysis was based on seven blinded trials, all of which associated denervation with a reduction in systolic ambulatory BP, according to Yousif Ahmad, BMBS, PhD, an interventional cardiologist at Yale University, New Haven, Conn.

Although the BP-lowering advantage in two of these studies did not reach statistical significance, the other five did, and all the data moved in the same direction.

For ambulatory diastolic pressure, the effect was more modest. One of the studies showed essentially a neutral effect. The reductions were statistically significant in only two, but, again, the data moved in the same direction in six of the studies, and a random-effects analysis suggested that the reductions, although modest, were potentially meaningful, according to Dr. Ahmad.

Overall, at a mean follow-up of 4.5 months, the reductions in ambulatory systolic and diastolic BPs were 3.61 and 1.85 mm Hg, respectively. The benefit was about the same whether renal denervation was or was not performed on the background of antihypertensive drugs, which was permitted in five of the seven trials. In the other two, all patients were off hypertensive medication.
 

Office-based systolic reduction: 6 mm Hg

When the same analysis was performed for office-based BP reductions, which were available for five of the seven trials, the overall reductions based on the meta-analysis were 5.86 and 3.63 mm Hg for the systolic and diastolic pressures, respectively. Again, background antihypertensive therapy was not a factor.

Of the seven trials, three randomized fewer than 100 patients. The largest, SYMPLICITY HTN-3, randomized 491 patients in 2:1 ratio to denervation or sham.

Three of the studies in the meta-analysis were trials of the Symplicity flex device. Another two evaluated the Symplicity Spyral catheter. Both deliver radiofrequency energy to for denervation. The Paradise device, the focus of the remaining two trials, employs energy in the form of ultrasound.

According to Dr. Ahmad, adverse events regardless of device were rare and not more common among those in the active treatment arm than in those treated with a sham procedure. Although one of these trials, RADIANCE-HTN SOLO associated denervation with efficacy and safety out to 12 months , Dr. Ahmad concluded that the mean follow-up of 4.5 months is not sufficient to consider long-term effects.

More than 20 meta-analyses published so far

By one count, there have been more than 20 meta-analyses of renal denervation published previously yet this intervention is still considered “controversial,” according to Dr. Ahmad. Relative to the previous meta-analyses, this included the RADIANCE-HTN TRIO trial, which is the latest such sham-controlled study and added 136 patients to the dataset of high-quality trials.

Basically, the results led Dr. Ahmad to conclude that, although the treatment effect is modest, it could be valuable in specific groups of patients, such as those reluctant or unable to take multiple medications or any medications at all. In addition to generating more data on efficacy and safety, he said longer follow-up is also needed for calculations of cost-effectiveness. Larger-scale observational studies might be one way of collecting these data, he reported.

The results of this study were published online in JACC Cardiovascular Interventions with an accompanying editorial by David E. Kandzari, MD, director of interventional cardiology, Piedmont Hart Institute, Atlanta.

Commenting on the large pile of meta-analyses, sometimes published months apart, Dr. Kandzari explained that their “short half-life” is a product of the continuous updating of data with new trials. For a procedure that remains controversial, he said these constant relooks are inevitable.

“My point is that, with more studies, we can expect to see more meta-analyses. It is just the way this is going to work,” Dr. Kandzari said in an interview.
 

Individual study data also relevant

Even as the authors of these analyses attempt to cull the best data from the most rigorously performed trials, “we are also going to have to look at the individual studies, because of the differences in the trial designs, particularly the devices used,” according to Dr. Kandzari, who was the principle investigator of the sham-controlled SPYRAL HTN-ON MED trial.

So far, the data, despite some inconsistencies, have supported “clinically meaningful” BP reductions and acceptable safety regardless of the device used, according to Dr. Kandzari. Although he also agrees with the basic premise that more long-term data are needed to better determine how renal denervation should be applied in management of hypertension, he does think it will eventually find a role that is “complimentary to, rather than a replacement for, drugs.”

“The effect is modest, but keep in mind that the effect size is similar to that of a single oral medication, and there are some features, such as an always-on 24-hour effect that could be useful,” he said.

“We have enough of a signal to start thinking of how this will be enveloped into routine care,” he said.

But it is not ready yet. This was the point made by Dr. Ahmad, and it was seconded by Dr. Kandzari. One of the senior authors of the meta-analysis, Deepak Bhatt, MD, executive director of interventional cardiovascular programs, Brigham and Women’s Health, Boston, was also asked to weigh on when it will be ready for prime time.

“At a minimum, I would recommend completion of ongoing sham-controlled randomized trials before considering clinical use of renal denervation. Longer term safety and durability data, as well as data on cost-effectiveness, are all still needed – preferably from randomized trials as opposed to registries,” he said.

“Ideally, larger sham-controlled trials with longer follow-up and clinical endpoints, as opposed to only blood pressure measurements, would be performed, although I am not aware of any plans at present,” he added.

Dr. Ahmad reported no financial relationships relevant to this research. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, including those developing products relevant to hypertension and renal denervation. Dr. Kandzari reported financial relationships with Ablative Solutions and Medtronic.

Datascope/Getinge/Maquet is recalling CardioSave Hybrid and Rescue intra-aortic balloon pumps (IABPs) because some battery packs may have a shortened run time and fail unexpectedly, according to a medical device recall notice posted on the U.S. Food and Drug Administration website.

The FDA has identified this as a class I recall, the most serious type of recall, because of the risk for serious injury or death.

The recalled IABPs have substandard batteries that do not meet performance specifications and were mistakenly released to a limited number of customers.

If a patient requires life-supporting therapy with an IABP and the device does not work or stops working during use because of battery failure, the patient will be at risk for serious injury, including death, the FDA cautions.

Both IABP monitors display battery life and have low battery alarms when alternative power sources are needed.

Datascope/Getting/Maquet has received six complaints but no reports of injury or death related to this issue.

“However, there is a potential for underreporting since the end user reporting a failed battery or short battery run time cannot be aware that they originally received a substandard battery,” the FDA said.

The recall involves 137 battery packs distributed in the United States between Sept. 23, 2017, and Aug. 17, 2021. Product codes and lot numbers are available in the recall notice.  

The company sent an urgent medical device removal letter to customers requesting that they check inventory to determine if there are any CardioSave LiIon battery packs with part number/reference number 0146-00-0097 and with serial numbers listed in the letter.

Customers are asked to replace any affected battery with an unaffected battery and remove the affected product from areas of use.

The company will issue credit or a replacement battery at no cost to the facility upon receipt of the response form attached to the letter.

Distributors who shipped any affected product to customers are asked to forward the device removal letter to customers.

All customers, regardless of whether or not they have defective batteries, are asked to complete and sign the response form to acknowledge that they received the notification and disposed of the affected batteries.

Completed forms can be scanned and emailed to Datascope/Getinge/Maquet at Li-Ionbattery.Datascope@getinge.com or by FAX to 1-877-446-3360.

Customers who have questions about this recall should contact their Datascope/Getinge/Maquet sales representative or, for technical questions, customer service (1-888-943-8872, option 2), Monday through Friday, 8:00 a.m. to 6:00 p.m. ET.

Any adverse events or suspected adverse events related to the recalled CardioSave Hybrid/Rescue IABPs should be reported to the FDA through MedWatch, its adverse event reporting program.

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

Datascope/Getinge/Maquet is recalling CardioSave Hybrid and Rescue intra-aortic balloon pumps (IABPs) because some battery packs may have a shortened run time and fail unexpectedly, according to a medical device recall notice posted on the U.S. Food and Drug Administration website.

The FDA has identified this as a class I recall, the most serious type of recall, because of the risk for serious injury or death.

The recalled IABPs have substandard batteries that do not meet performance specifications and were mistakenly released to a limited number of customers.

If a patient requires life-supporting therapy with an IABP and the device does not work or stops working during use because of battery failure, the patient will be at risk for serious injury, including death, the FDA cautions.

Both IABP monitors display battery life and have low battery alarms when alternative power sources are needed.

Datascope/Getting/Maquet has received six complaints but no reports of injury or death related to this issue.

“However, there is a potential for underreporting since the end user reporting a failed battery or short battery run time cannot be aware that they originally received a substandard battery,” the FDA said.

The recall involves 137 battery packs distributed in the United States between Sept. 23, 2017, and Aug. 17, 2021. Product codes and lot numbers are available in the recall notice.  

The company sent an urgent medical device removal letter to customers requesting that they check inventory to determine if there are any CardioSave LiIon battery packs with part number/reference number 0146-00-0097 and with serial numbers listed in the letter.

Customers are asked to replace any affected battery with an unaffected battery and remove the affected product from areas of use.

The company will issue credit or a replacement battery at no cost to the facility upon receipt of the response form attached to the letter.

Distributors who shipped any affected product to customers are asked to forward the device removal letter to customers.

All customers, regardless of whether or not they have defective batteries, are asked to complete and sign the response form to acknowledge that they received the notification and disposed of the affected batteries.

Completed forms can be scanned and emailed to Datascope/Getinge/Maquet at Li-Ionbattery.Datascope@getinge.com or by FAX to 1-877-446-3360.

Customers who have questions about this recall should contact their Datascope/Getinge/Maquet sales representative or, for technical questions, customer service (1-888-943-8872, option 2), Monday through Friday, 8:00 a.m. to 6:00 p.m. ET.

Any adverse events or suspected adverse events related to the recalled CardioSave Hybrid/Rescue IABPs should be reported to the FDA through MedWatch, its adverse event reporting program.

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

Datascope/Getinge/Maquet is recalling CardioSave Hybrid and Rescue intra-aortic balloon pumps (IABPs) because some battery packs may have a shortened run time and fail unexpectedly, according to a medical device recall notice posted on the U.S. Food and Drug Administration website.

The FDA has identified this as a class I recall, the most serious type of recall, because of the risk for serious injury or death.

The recalled IABPs have substandard batteries that do not meet performance specifications and were mistakenly released to a limited number of customers.

If a patient requires life-supporting therapy with an IABP and the device does not work or stops working during use because of battery failure, the patient will be at risk for serious injury, including death, the FDA cautions.

Both IABP monitors display battery life and have low battery alarms when alternative power sources are needed.

Datascope/Getting/Maquet has received six complaints but no reports of injury or death related to this issue.

“However, there is a potential for underreporting since the end user reporting a failed battery or short battery run time cannot be aware that they originally received a substandard battery,” the FDA said.

The recall involves 137 battery packs distributed in the United States between Sept. 23, 2017, and Aug. 17, 2021. Product codes and lot numbers are available in the recall notice.  

The company sent an urgent medical device removal letter to customers requesting that they check inventory to determine if there are any CardioSave LiIon battery packs with part number/reference number 0146-00-0097 and with serial numbers listed in the letter.

Customers are asked to replace any affected battery with an unaffected battery and remove the affected product from areas of use.

The company will issue credit or a replacement battery at no cost to the facility upon receipt of the response form attached to the letter.

Distributors who shipped any affected product to customers are asked to forward the device removal letter to customers.

All customers, regardless of whether or not they have defective batteries, are asked to complete and sign the response form to acknowledge that they received the notification and disposed of the affected batteries.

Completed forms can be scanned and emailed to Datascope/Getinge/Maquet at Li-Ionbattery.Datascope@getinge.com or by FAX to 1-877-446-3360.

Customers who have questions about this recall should contact their Datascope/Getinge/Maquet sales representative or, for technical questions, customer service (1-888-943-8872, option 2), Monday through Friday, 8:00 a.m. to 6:00 p.m. ET.

Any adverse events or suspected adverse events related to the recalled CardioSave Hybrid/Rescue IABPs should be reported to the FDA through MedWatch, its adverse event reporting program.

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

It was Oct. 28 when the two big North American cardiology societies issued a joint practice guideline on evaluating and managing chest pain that was endorsed by five other subspecialty groups. The next day, another group that had taken part in the document’s genesis explained why it wasn’t one of those five.

Although the American Society of Nuclear Cardiology (ASNC) was “actively engaged at every stage of the guideline-writing and review process,” the society “could not endorse the guideline,” the society announced in a statement released to clinicians and the media. The most prominent cited reason: It doesn’t adequately “support the principle of Patient First Imaging.”

The guideline was published in Circulation and the Journal of the American College of Cardiology, flagship journals of the American Heart Association and American College of Cardiology, respectively.

The document notes at least two clinicians represented ASNC as peer reviewers, and another was on the writing committee, but the organization does not appear in the list of societies endorsing the document.

“We believe that the document fails to provide unbiased guidance to health care professionals on the optimal evaluation of patients with chest pain,” contends an editorial ASNC board members have scheduled for the Jan. 10 issue of the Journal of Nuclear Medicine but is available now on an open-access preprint server.

“Despite the many important and helpful recommendations in the new guideline, there are several recommendations that we could not support,” it states.

“The ASNC board of directors reviewed the document twice during the endorsement process,” and the society “offered substantive comments after the first endorsement review, several of which were addressed,” Randall C. Thompson, MD, St. Luke’s Mid America Heart Institute and University of Missouri–Kansas City, said in an interview.

“However, some of the board’s concerns went unresolved. It was after the board’s second review, when the document had been declared finalized, that they voted not to endorse,” said Dr. Thompson, who is ASNC president.

“When we gather multiple organizations together to review and summarize the evidence, we work collaboratively to interpret the extensive catalog of peer-reviewed, published literature and create clinical practice recommendations,” Guideline Writing Committee Chair Martha Gulati, MD, University of Arizona, Phoenix, told this news organization in a prepared statement.

“The ASNC had a representative on the writing committee who is a coauthor on the paper and actively participated throughout the writing process the past 4 years,” she said. “The final guideline reflects the latest evidence-based recommendations for the evaluation and diagnosis of chest pain, as agreed by the seven endorsing organizations.”

The document does not clearly note that an ASNC representative was on the writing committee. However, ASNC confirmed that Renee Bullock-Palmer, MD, Deborah Heart and Lung Center, Browns Mills, N.J., is a fellow of the ASNC and had represented the group as one of the coauthors. Two “official reviewers” of the document, however, are listed as ASNC representatives.
 

Points of contention

“The decision about which test to order can be a nuanced one, and cardiac imaging tests tend to be complementary,” elaborates the editorial on the issue of patient-centered management.

Careful patient selection for different tests is important, “and physician and technical local expertise, availability, quality of equipment, and patient preference are extremely important factors to consider. There is not enough emphasis on this important point,” contend the authors. “This is an important limitation of the guideline.”

Other issues of concern include “lack of balance in the document’s presentation of the science on FFR-CT [fractional flow reserve assessment with computed tomography] and its inappropriately prominent endorsement,” the editorial states.

The U.S. Food and Drug Administration–recognized “limitations and contraindications” to FFR-CT tend to be glossed over in the document, Dr. Thompson said. And most ASNC board members were “concerned with the prominent location of the recommendations for FFR-CT in various tables – especially since there was minimal-to-no discussion of the fact that it is currently provided by only one company, that it is not widely available nor covered routinely by health insurance carriers, and [that] the accuracy in the most relevant population is disputed.”

In other concerns, the document “inadequately discusses the benefit” of combining coronary artery calcium (CAC) scores with functional testing, which ASNC said it supports. For example, adding CAC scores to myocardial perfusion imaging improves its diagnostic accuracy and prognostic power.
 

Functional vs. anatomic testing?

Moreover, “it is no longer appropriate to bundle all types of stress testing together. All stress imaging tests have their unique advantages and limitations.” Yet, “the concept of the dichotomy of functional testing versus anatomic testing is a common theme in the guideline in many important patient groups,” the editorial states. That could overemphasize CT angiography and thus “blur distinction between different types of functional tests.”

Such concerns about “imbalance” in the portrayals of the two kinds of tests were “amplified by the problem of health insurance companies and radiologic benefits managers inappropriately substituting a test that was ordered by a physician with a different test,” Dr. Thompson elaborated. “There is the impression that some of them ‘cherry-pick’ certain guidelines and that this practice is harmful to patients.”

The ASNC currently does not plan its own corresponding guideline, he said. But the editorial says that “over the coming weeks and months ASNC will offer a series of webinars and other programs that address specific patient populations and dilemmas.” Also, “we will enhance our focus on programs to address quality and efficiency to support a patient-first approach to imaging.”

The five subspecialty groups that have endorsed the document are the American Society of Echocardiography, American College of Chest Physicians, Society for Academic Emergency Medicine, Society of Cardiovascular Computed Tomography, and Society for Cardiovascular Magnetic Resonance.

Dr. Thompson has reported no relevant financial relationships. Statements of disclosure for the other editorial writers are listed in the publication.

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

It was Oct. 28 when the two big North American cardiology societies issued a joint practice guideline on evaluating and managing chest pain that was endorsed by five other subspecialty groups. The next day, another group that had taken part in the document’s genesis explained why it wasn’t one of those five.

Although the American Society of Nuclear Cardiology (ASNC) was “actively engaged at every stage of the guideline-writing and review process,” the society “could not endorse the guideline,” the society announced in a statement released to clinicians and the media. The most prominent cited reason: It doesn’t adequately “support the principle of Patient First Imaging.”

The guideline was published in Circulation and the Journal of the American College of Cardiology, flagship journals of the American Heart Association and American College of Cardiology, respectively.

The document notes at least two clinicians represented ASNC as peer reviewers, and another was on the writing committee, but the organization does not appear in the list of societies endorsing the document.

“We believe that the document fails to provide unbiased guidance to health care professionals on the optimal evaluation of patients with chest pain,” contends an editorial ASNC board members have scheduled for the Jan. 10 issue of the Journal of Nuclear Medicine but is available now on an open-access preprint server.

“Despite the many important and helpful recommendations in the new guideline, there are several recommendations that we could not support,” it states.

“The ASNC board of directors reviewed the document twice during the endorsement process,” and the society “offered substantive comments after the first endorsement review, several of which were addressed,” Randall C. Thompson, MD, St. Luke’s Mid America Heart Institute and University of Missouri–Kansas City, said in an interview.

“However, some of the board’s concerns went unresolved. It was after the board’s second review, when the document had been declared finalized, that they voted not to endorse,” said Dr. Thompson, who is ASNC president.

“When we gather multiple organizations together to review and summarize the evidence, we work collaboratively to interpret the extensive catalog of peer-reviewed, published literature and create clinical practice recommendations,” Guideline Writing Committee Chair Martha Gulati, MD, University of Arizona, Phoenix, told this news organization in a prepared statement.

“The ASNC had a representative on the writing committee who is a coauthor on the paper and actively participated throughout the writing process the past 4 years,” she said. “The final guideline reflects the latest evidence-based recommendations for the evaluation and diagnosis of chest pain, as agreed by the seven endorsing organizations.”

The document does not clearly note that an ASNC representative was on the writing committee. However, ASNC confirmed that Renee Bullock-Palmer, MD, Deborah Heart and Lung Center, Browns Mills, N.J., is a fellow of the ASNC and had represented the group as one of the coauthors. Two “official reviewers” of the document, however, are listed as ASNC representatives.
 

Points of contention

“The decision about which test to order can be a nuanced one, and cardiac imaging tests tend to be complementary,” elaborates the editorial on the issue of patient-centered management.

Careful patient selection for different tests is important, “and physician and technical local expertise, availability, quality of equipment, and patient preference are extremely important factors to consider. There is not enough emphasis on this important point,” contend the authors. “This is an important limitation of the guideline.”

Other issues of concern include “lack of balance in the document’s presentation of the science on FFR-CT [fractional flow reserve assessment with computed tomography] and its inappropriately prominent endorsement,” the editorial states.

The U.S. Food and Drug Administration–recognized “limitations and contraindications” to FFR-CT tend to be glossed over in the document, Dr. Thompson said. And most ASNC board members were “concerned with the prominent location of the recommendations for FFR-CT in various tables – especially since there was minimal-to-no discussion of the fact that it is currently provided by only one company, that it is not widely available nor covered routinely by health insurance carriers, and [that] the accuracy in the most relevant population is disputed.”

In other concerns, the document “inadequately discusses the benefit” of combining coronary artery calcium (CAC) scores with functional testing, which ASNC said it supports. For example, adding CAC scores to myocardial perfusion imaging improves its diagnostic accuracy and prognostic power.
 

Functional vs. anatomic testing?

Moreover, “it is no longer appropriate to bundle all types of stress testing together. All stress imaging tests have their unique advantages and limitations.” Yet, “the concept of the dichotomy of functional testing versus anatomic testing is a common theme in the guideline in many important patient groups,” the editorial states. That could overemphasize CT angiography and thus “blur distinction between different types of functional tests.”

Such concerns about “imbalance” in the portrayals of the two kinds of tests were “amplified by the problem of health insurance companies and radiologic benefits managers inappropriately substituting a test that was ordered by a physician with a different test,” Dr. Thompson elaborated. “There is the impression that some of them ‘cherry-pick’ certain guidelines and that this practice is harmful to patients.”

The ASNC currently does not plan its own corresponding guideline, he said. But the editorial says that “over the coming weeks and months ASNC will offer a series of webinars and other programs that address specific patient populations and dilemmas.” Also, “we will enhance our focus on programs to address quality and efficiency to support a patient-first approach to imaging.”

The five subspecialty groups that have endorsed the document are the American Society of Echocardiography, American College of Chest Physicians, Society for Academic Emergency Medicine, Society of Cardiovascular Computed Tomography, and Society for Cardiovascular Magnetic Resonance.

Dr. Thompson has reported no relevant financial relationships. Statements of disclosure for the other editorial writers are listed in the publication.

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

It was Oct. 28 when the two big North American cardiology societies issued a joint practice guideline on evaluating and managing chest pain that was endorsed by five other subspecialty groups. The next day, another group that had taken part in the document’s genesis explained why it wasn’t one of those five.

Although the American Society of Nuclear Cardiology (ASNC) was “actively engaged at every stage of the guideline-writing and review process,” the society “could not endorse the guideline,” the society announced in a statement released to clinicians and the media. The most prominent cited reason: It doesn’t adequately “support the principle of Patient First Imaging.”

The guideline was published in Circulation and the Journal of the American College of Cardiology, flagship journals of the American Heart Association and American College of Cardiology, respectively.

The document notes at least two clinicians represented ASNC as peer reviewers, and another was on the writing committee, but the organization does not appear in the list of societies endorsing the document.

“We believe that the document fails to provide unbiased guidance to health care professionals on the optimal evaluation of patients with chest pain,” contends an editorial ASNC board members have scheduled for the Jan. 10 issue of the Journal of Nuclear Medicine but is available now on an open-access preprint server.

“Despite the many important and helpful recommendations in the new guideline, there are several recommendations that we could not support,” it states.

“The ASNC board of directors reviewed the document twice during the endorsement process,” and the society “offered substantive comments after the first endorsement review, several of which were addressed,” Randall C. Thompson, MD, St. Luke’s Mid America Heart Institute and University of Missouri–Kansas City, said in an interview.

“However, some of the board’s concerns went unresolved. It was after the board’s second review, when the document had been declared finalized, that they voted not to endorse,” said Dr. Thompson, who is ASNC president.

“When we gather multiple organizations together to review and summarize the evidence, we work collaboratively to interpret the extensive catalog of peer-reviewed, published literature and create clinical practice recommendations,” Guideline Writing Committee Chair Martha Gulati, MD, University of Arizona, Phoenix, told this news organization in a prepared statement.

“The ASNC had a representative on the writing committee who is a coauthor on the paper and actively participated throughout the writing process the past 4 years,” she said. “The final guideline reflects the latest evidence-based recommendations for the evaluation and diagnosis of chest pain, as agreed by the seven endorsing organizations.”

The document does not clearly note that an ASNC representative was on the writing committee. However, ASNC confirmed that Renee Bullock-Palmer, MD, Deborah Heart and Lung Center, Browns Mills, N.J., is a fellow of the ASNC and had represented the group as one of the coauthors. Two “official reviewers” of the document, however, are listed as ASNC representatives.
 

Points of contention

“The decision about which test to order can be a nuanced one, and cardiac imaging tests tend to be complementary,” elaborates the editorial on the issue of patient-centered management.

Careful patient selection for different tests is important, “and physician and technical local expertise, availability, quality of equipment, and patient preference are extremely important factors to consider. There is not enough emphasis on this important point,” contend the authors. “This is an important limitation of the guideline.”

Other issues of concern include “lack of balance in the document’s presentation of the science on FFR-CT [fractional flow reserve assessment with computed tomography] and its inappropriately prominent endorsement,” the editorial states.

The U.S. Food and Drug Administration–recognized “limitations and contraindications” to FFR-CT tend to be glossed over in the document, Dr. Thompson said. And most ASNC board members were “concerned with the prominent location of the recommendations for FFR-CT in various tables – especially since there was minimal-to-no discussion of the fact that it is currently provided by only one company, that it is not widely available nor covered routinely by health insurance carriers, and [that] the accuracy in the most relevant population is disputed.”

In other concerns, the document “inadequately discusses the benefit” of combining coronary artery calcium (CAC) scores with functional testing, which ASNC said it supports. For example, adding CAC scores to myocardial perfusion imaging improves its diagnostic accuracy and prognostic power.
 

Functional vs. anatomic testing?

Moreover, “it is no longer appropriate to bundle all types of stress testing together. All stress imaging tests have their unique advantages and limitations.” Yet, “the concept of the dichotomy of functional testing versus anatomic testing is a common theme in the guideline in many important patient groups,” the editorial states. That could overemphasize CT angiography and thus “blur distinction between different types of functional tests.”

Such concerns about “imbalance” in the portrayals of the two kinds of tests were “amplified by the problem of health insurance companies and radiologic benefits managers inappropriately substituting a test that was ordered by a physician with a different test,” Dr. Thompson elaborated. “There is the impression that some of them ‘cherry-pick’ certain guidelines and that this practice is harmful to patients.”

The ASNC currently does not plan its own corresponding guideline, he said. But the editorial says that “over the coming weeks and months ASNC will offer a series of webinars and other programs that address specific patient populations and dilemmas.” Also, “we will enhance our focus on programs to address quality and efficiency to support a patient-first approach to imaging.”

The five subspecialty groups that have endorsed the document are the American Society of Echocardiography, American College of Chest Physicians, Society for Academic Emergency Medicine, Society of Cardiovascular Computed Tomography, and Society for Cardiovascular Magnetic Resonance.

Dr. Thompson has reported no relevant financial relationships. Statements of disclosure for the other editorial writers are listed in the publication.

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

Clinicians should use standardized risk assessments, clinical pathways, and tools to evaluate and communicate with patients who present with chest pain (angina), advises a joint clinical practice guideline released by American Heart Association and American College of Cardiology.

Rawpixel/iStock/Getty Images

While evaluation of chest pain has been covered in previous guidelines, this is the first comprehensive guideline from the AHA and ACC focused exclusively on the evaluation and diagnosis of chest pain.

“As our imaging technologies have evolved, we needed a contemporary approach to which patients need further testing, and which do not, in addition to what testing is effective,” Martha Gulati, MD, University of Arizona, Phoenix, and chair of the guideline writing group, said in an interview.

“Our hope is that we have provided an evidence-based approach to evaluating patients that will assist all of us who manage, diagnose, and treat patients who experience chest pain,” said Dr. Gulati, who is also president-elect of the American Society for Preventive Cardiology.

The guideline was simultaneously published online Oct. 28, 2021, in Circulation and the Journal of the American College of Cardiology.
 

‘Atypical’ is out, ‘noncardiac’ is in

Each year, chest pain sends more than 6.5 million adults to the ED and more than 4 million to outpatient clinics in the United States.

Yet, among all patients who come to the ED, only 5% will have acute coronary syndrome (ACS). More than half will ultimately have a noncardiac reason for their chest pain, including respiratory, musculoskeletal, gastrointestinal, psychological, or other causes.

The guideline says evaluating the severity and the cause of chest pain is essential and advises using standard risk assessments to determine if a patient is at low, intermediate, or high risk for having a cardiac event.

“I hope clinicians take from our guidelines the understanding that low-risk patients often do not need additional testing. And if we communicate this effectively with our patients – incorporating shared decision-making into our practice – we can reduce ‘overtesting’ in low-risk patients,” Dr. Gulati said in an interview.

The guideline notes that women are unique when presenting with ACS symptoms. While chest pain is the dominant and most common symptom for both men and women, women may be more likely to also have symptoms such as nausea and shortness of breath.

The guideline also encourages using the term “noncardiac” if heart disease is not suspected in a patient with angina and says the term “atypical” is a “misleading” descriptor of chest pain and should not be used.

“Words matter, and we need to move away from describing chest pain as ‘atypical’ because it has resulted in confusion when these words are used,” Dr. Gulati stressed.

“Rather than meaning a different way of presenting, it has taken on a meaning to imply it is not cardiac. It is more useful to talk about the probability of the pain being cardiac vs noncardiac,” Dr. Gulati explained.
 

No one best test for everyone

There is also a focus on evaluation of patients with chest pain who present to the ED. The initial goals of ED physicians should be to identify if there are life-threatening causes and to determine if there is a need for hospital admission or testing, the guideline states.

Thorough screening in the ED may help determine who is at high risk versus intermediate or low risk for a cardiac event. An individual deemed to be at low risk may be referred for additional evaluation in an outpatient setting rather than being admitted to the hospital, the authors wrote.

High-sensitivity cardiac troponins are the “preferred standard” for establishing a biomarker diagnosis of acute myocardial infarction, allowing for more accurate detection and exclusion of myocardial injury, they added.

“While there is no one ‘best test’ for every patient, the guideline emphasizes the tests that may be most appropriate, depending on the individual situation, and which ones won’t provide additional information; therefore, these tests should not be done just for the sake of doing them,” Dr. Gulati said in a news release.

“Appropriate testing is also dependent upon the technology and screening devices that are available at the hospital or healthcare center where the patient is receiving care. All imaging modalities highlighted in the guideline have an important role in the assessment of chest pain to help determine the underlying cause, with the goal of preventing a serious cardiac event,” Dr. Gulati added.

The guideline was prepared on behalf of and approved by the AHA and ACC Joint Committee on Clinical Practice Guidelines.

Five other partnering organizations participated in and approved the guideline: the American Society of Echocardiography, the American College of Chest Physicians, the Society for Academic Emergency Medicine, the Society of Cardiovascular Computed Tomography, and the Society for Cardiovascular Magnetic Resonance.

The writing group included representatives from each of the partnering organizations and experts in the field (cardiac intensivists, cardiac interventionalists, cardiac surgeons, cardiologists, emergency physicians, and epidemiologists), as well as a lay/patient representative.

The research had no commercial funding.

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

Clinicians should use standardized risk assessments, clinical pathways, and tools to evaluate and communicate with patients who present with chest pain (angina), advises a joint clinical practice guideline released by American Heart Association and American College of Cardiology.

Rawpixel/iStock/Getty Images

While evaluation of chest pain has been covered in previous guidelines, this is the first comprehensive guideline from the AHA and ACC focused exclusively on the evaluation and diagnosis of chest pain.

“As our imaging technologies have evolved, we needed a contemporary approach to which patients need further testing, and which do not, in addition to what testing is effective,” Martha Gulati, MD, University of Arizona, Phoenix, and chair of the guideline writing group, said in an interview.

“Our hope is that we have provided an evidence-based approach to evaluating patients that will assist all of us who manage, diagnose, and treat patients who experience chest pain,” said Dr. Gulati, who is also president-elect of the American Society for Preventive Cardiology.

The guideline was simultaneously published online Oct. 28, 2021, in Circulation and the Journal of the American College of Cardiology.
 

‘Atypical’ is out, ‘noncardiac’ is in

Each year, chest pain sends more than 6.5 million adults to the ED and more than 4 million to outpatient clinics in the United States.

Yet, among all patients who come to the ED, only 5% will have acute coronary syndrome (ACS). More than half will ultimately have a noncardiac reason for their chest pain, including respiratory, musculoskeletal, gastrointestinal, psychological, or other causes.

The guideline says evaluating the severity and the cause of chest pain is essential and advises using standard risk assessments to determine if a patient is at low, intermediate, or high risk for having a cardiac event.

“I hope clinicians take from our guidelines the understanding that low-risk patients often do not need additional testing. And if we communicate this effectively with our patients – incorporating shared decision-making into our practice – we can reduce ‘overtesting’ in low-risk patients,” Dr. Gulati said in an interview.

The guideline notes that women are unique when presenting with ACS symptoms. While chest pain is the dominant and most common symptom for both men and women, women may be more likely to also have symptoms such as nausea and shortness of breath.

The guideline also encourages using the term “noncardiac” if heart disease is not suspected in a patient with angina and says the term “atypical” is a “misleading” descriptor of chest pain and should not be used.

“Words matter, and we need to move away from describing chest pain as ‘atypical’ because it has resulted in confusion when these words are used,” Dr. Gulati stressed.

“Rather than meaning a different way of presenting, it has taken on a meaning to imply it is not cardiac. It is more useful to talk about the probability of the pain being cardiac vs noncardiac,” Dr. Gulati explained.
 

No one best test for everyone

There is also a focus on evaluation of patients with chest pain who present to the ED. The initial goals of ED physicians should be to identify if there are life-threatening causes and to determine if there is a need for hospital admission or testing, the guideline states.

Thorough screening in the ED may help determine who is at high risk versus intermediate or low risk for a cardiac event. An individual deemed to be at low risk may be referred for additional evaluation in an outpatient setting rather than being admitted to the hospital, the authors wrote.

High-sensitivity cardiac troponins are the “preferred standard” for establishing a biomarker diagnosis of acute myocardial infarction, allowing for more accurate detection and exclusion of myocardial injury, they added.

“While there is no one ‘best test’ for every patient, the guideline emphasizes the tests that may be most appropriate, depending on the individual situation, and which ones won’t provide additional information; therefore, these tests should not be done just for the sake of doing them,” Dr. Gulati said in a news release.

“Appropriate testing is also dependent upon the technology and screening devices that are available at the hospital or healthcare center where the patient is receiving care. All imaging modalities highlighted in the guideline have an important role in the assessment of chest pain to help determine the underlying cause, with the goal of preventing a serious cardiac event,” Dr. Gulati added.

The guideline was prepared on behalf of and approved by the AHA and ACC Joint Committee on Clinical Practice Guidelines.

Five other partnering organizations participated in and approved the guideline: the American Society of Echocardiography, the American College of Chest Physicians, the Society for Academic Emergency Medicine, the Society of Cardiovascular Computed Tomography, and the Society for Cardiovascular Magnetic Resonance.

The writing group included representatives from each of the partnering organizations and experts in the field (cardiac intensivists, cardiac interventionalists, cardiac surgeons, cardiologists, emergency physicians, and epidemiologists), as well as a lay/patient representative.

The research had no commercial funding.

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

Clinicians should use standardized risk assessments, clinical pathways, and tools to evaluate and communicate with patients who present with chest pain (angina), advises a joint clinical practice guideline released by American Heart Association and American College of Cardiology.

Rawpixel/iStock/Getty Images

While evaluation of chest pain has been covered in previous guidelines, this is the first comprehensive guideline from the AHA and ACC focused exclusively on the evaluation and diagnosis of chest pain.

“As our imaging technologies have evolved, we needed a contemporary approach to which patients need further testing, and which do not, in addition to what testing is effective,” Martha Gulati, MD, University of Arizona, Phoenix, and chair of the guideline writing group, said in an interview.

“Our hope is that we have provided an evidence-based approach to evaluating patients that will assist all of us who manage, diagnose, and treat patients who experience chest pain,” said Dr. Gulati, who is also president-elect of the American Society for Preventive Cardiology.

The guideline was simultaneously published online Oct. 28, 2021, in Circulation and the Journal of the American College of Cardiology.
 

‘Atypical’ is out, ‘noncardiac’ is in

Each year, chest pain sends more than 6.5 million adults to the ED and more than 4 million to outpatient clinics in the United States.

Yet, among all patients who come to the ED, only 5% will have acute coronary syndrome (ACS). More than half will ultimately have a noncardiac reason for their chest pain, including respiratory, musculoskeletal, gastrointestinal, psychological, or other causes.

The guideline says evaluating the severity and the cause of chest pain is essential and advises using standard risk assessments to determine if a patient is at low, intermediate, or high risk for having a cardiac event.

“I hope clinicians take from our guidelines the understanding that low-risk patients often do not need additional testing. And if we communicate this effectively with our patients – incorporating shared decision-making into our practice – we can reduce ‘overtesting’ in low-risk patients,” Dr. Gulati said in an interview.

The guideline notes that women are unique when presenting with ACS symptoms. While chest pain is the dominant and most common symptom for both men and women, women may be more likely to also have symptoms such as nausea and shortness of breath.

The guideline also encourages using the term “noncardiac” if heart disease is not suspected in a patient with angina and says the term “atypical” is a “misleading” descriptor of chest pain and should not be used.

“Words matter, and we need to move away from describing chest pain as ‘atypical’ because it has resulted in confusion when these words are used,” Dr. Gulati stressed.

“Rather than meaning a different way of presenting, it has taken on a meaning to imply it is not cardiac. It is more useful to talk about the probability of the pain being cardiac vs noncardiac,” Dr. Gulati explained.
 

No one best test for everyone

There is also a focus on evaluation of patients with chest pain who present to the ED. The initial goals of ED physicians should be to identify if there are life-threatening causes and to determine if there is a need for hospital admission or testing, the guideline states.

Thorough screening in the ED may help determine who is at high risk versus intermediate or low risk for a cardiac event. An individual deemed to be at low risk may be referred for additional evaluation in an outpatient setting rather than being admitted to the hospital, the authors wrote.

High-sensitivity cardiac troponins are the “preferred standard” for establishing a biomarker diagnosis of acute myocardial infarction, allowing for more accurate detection and exclusion of myocardial injury, they added.

“While there is no one ‘best test’ for every patient, the guideline emphasizes the tests that may be most appropriate, depending on the individual situation, and which ones won’t provide additional information; therefore, these tests should not be done just for the sake of doing them,” Dr. Gulati said in a news release.

“Appropriate testing is also dependent upon the technology and screening devices that are available at the hospital or healthcare center where the patient is receiving care. All imaging modalities highlighted in the guideline have an important role in the assessment of chest pain to help determine the underlying cause, with the goal of preventing a serious cardiac event,” Dr. Gulati added.

The guideline was prepared on behalf of and approved by the AHA and ACC Joint Committee on Clinical Practice Guidelines.

Five other partnering organizations participated in and approved the guideline: the American Society of Echocardiography, the American College of Chest Physicians, the Society for Academic Emergency Medicine, the Society of Cardiovascular Computed Tomography, and the Society for Cardiovascular Magnetic Resonance.

The writing group included representatives from each of the partnering organizations and experts in the field (cardiac intensivists, cardiac interventionalists, cardiac surgeons, cardiologists, emergency physicians, and epidemiologists), as well as a lay/patient representative.

The research had no commercial funding.

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

A “green” adaptation to the traditional Mediterranean diet could help improve insulin sensitivity and reduce visceral fat by increasing levels of ghrelin, the “hunger hormone,” new research suggests.

The current study is a new analysis of data from the randomized DIRECT-PLUS trial, which showed that the addition of green tea and substitution of red meat for a plant-based (Mankai) protein shake at dinner – dubbed the “green Mediterranean diet” – resulted in further improved cardiometabolic benefits compared with the traditional Mediterranean diet among people with baseline abdominal obesity and/or dyslipidemia, according to the researchers.

They specifically looked at ghrelin, nicknamed the “hunger hormone,” a neuropeptide mainly secreted by the gastric epithelium. It acts on the pituitary gland to release growth hormone. Ghrelin concentrations increase during fasting and decrease after eating. Lower levels are associated with insulin resistance and obesity.

Fasting ghrelin levels were elevated with weight loss, but those increases were associated with improved insulin sensitivity and regression of visceral adipose tissue even beyond weight loss.

Although the caloric restriction and weight loss were comparable with the two Mediterranean diets, the green Mediterranean diet group had double the increase in fasting ghrelin as the traditional Mediterranean diet group, the researchers point out in their report .
 

‘Hypothesis-generating’ study pushes many hot topic buttons

“This specific study is the first to show that ghrelin levels play an important role in metabolic adaptation to a dietary or lifestyle intervention and that ghrelin is an important player in the axis of adiposity, insulin resistance, and metabolic health,” lead researcher Gal Tsaban, MD, told this news organization.

The data partially explain some of the prior beneficial effects seen with the Green Mediterranean diet, even after adjustment for weight loss, he explained, noting that the revised version of the diet “could be considered as an alternative lifestyle intervention with possible metabolic benefits even beyond the Mediterranean diet, which is what we currently recommend for patients.”

Asked for comment, Christopher Gardner, PhD, was not as enthusiastic.

He took issue with the fact that ghrelin wasn’t a primary or even a prespecified secondary outcome of the DIRECT-PLUS trial and because the specific plant-based ingredients of the green Mediterranean diet used in the study may not be widely available or desirable and therefore limit the study’s generalizability.

Dr. Gardner, who is director of nutrition studies at the Stanford Prevention Research Center, California, also said: “They’re tying lots of interesting things together. The Mediterranean diet is a cool thing, ghrelin is a cool thing, and insulin resistance is hugely important in this day and age, even though we don’t all agree on how to measure it.”

“But it gets tough as you try to link them all together for an exploratory outcome. ... To me it’s an interesting hypothesis-generating study that pushes a lot of interesting buttons that are hot topics in the field.”
 

Green Mediterranean diet led to higher ghrelin, metabolic benefits

In DIRECT-PLUS, a total of 294 adults (88% men) older than 30 years of age with abdominal obesity (waist circumference >102 cm for men or >88 cm for women), or dyslipidemia (triglycerides >150 mg/dL and HDL-cholesterol ≤40 mg/dL for men or ≤50 mg/dL for women) were included. Half had prediabetes or type 2 diabetes.

They were randomized to one of three diets: a diet based on standard healthy dietary guidelines; a traditional Mediterranean diet low in simple carbohydrates, rich in vegetables, with poultry and fish replacing beef and lamb and 28 g/day of walnuts; or the Green-Mediterranean diet, including 3-4 cups/day of green tea and 100 g/day of a green shake made from the Mankai strain of Wolffia globosa (also known as duckweed) replacing dinner, and 28 g/day of walnuts.

The Green Mediterranean diet included 800 mg more polyphenols than the traditional Mediterranean diet. Both were equally calorie-restricted, at about 1,500-1,800 kcal/day for men and 1,200-1,400 kcal/day for women. All three groups were instructed to engage in regular physical activity and were given free gym memberships.

The retention rate was 98.3% after 6 months and 89.8% after 18 months.

Weight loss was similar between the two Mediterranean diet groups (2.9% and 3.9% for the traditional and green versions, respectively) compared with the standard healthy diet (0.6%) (P < .05 for both Mediterranean diet groups vs. control).

After 6 months, fasting ghrelin increased in the traditional (8.0%; P = .015) and green (10.5%; P = 0.031) Mediterranean groups versus baseline, with no significant change in the control group.

By 18 months, fasting ghrelin was significantly greater compared with baseline only in the green Mediterranean group (P = .012).

Because the differences in fasting ghrelin trajectories were only significant in men – likely due to the small sample size of women – a subsequent 18-month analysis was limited to the men. In a multivariate model adjusted for age, intervention group, baseline biomarker values, and 18-month weight changes, the 18-month change in fasting ghrelin remained a significant predictor for changes in A1c and homeostatic model of insulin resistance (HOMA-IR; P = .022).

Because weight loss remained the most significant predictor of improved insulin resistance, a further analysis examined the association between changes in fasting ghrelin levels with changes in the fraction of insulin resistance marker that were not attributed to weight loss, per se. With the other adjustments, fasting ghrelin was associated with residual reductions in A1c (P = .003), HOMA-IR (P = .021), increased HDL-cholesterol (P = .024), and relative visceral adipose tissue loss (P = .003).  
 

No specific product needed to push Mediterranean diet towards vegan

Dr. Tsaban, a nutritional researcher and cardiologist at Ben-Gurion University and Soroka University Medical Center, Be’er-Sheva, Israel, said the Mankai shake is commonly consumed in Israel but is also available worldwide. The study participants, all employees at an isolated nuclear research facility in the Negev, were particularly motivated. “They didn’t have a satiety problem with the drink. It made them very full,” he said. The manufacturer supplied the shakes but didn’t fund the study, he added.

However, Dr. Tsaban said that the “green Mediterranean diet” doesn’t depend on specific products.

Rather, “the concept is to push the Mediterranean diet a bit further and to replace the animal-based protein with vegetable-based protein, to shift your dietary habits towards a more vegan lifestyle. It’s not completely vegan, but it’s trending there. ... Our main goal was to increase the polyphenol intake, the antioxidant intake from vegetables. ... I think it can be replicated.”

Dr. Gardner said, “At the end of the day, it’s an exploratory study. ... It raises some interesting points that give the rest of us room to follow-up on.”

The study was funded by grants from the German Research Foundation, the Israel Ministry of Health, the Israel Ministry of Science and Technology, and the California Walnut Commission. Dr. Tsaban has reported no further relevant financial relationships. Dr. Gardner has reported receiving study funding from Beyond Meat.

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

A “green” adaptation to the traditional Mediterranean diet could help improve insulin sensitivity and reduce visceral fat by increasing levels of ghrelin, the “hunger hormone,” new research suggests.

The current study is a new analysis of data from the randomized DIRECT-PLUS trial, which showed that the addition of green tea and substitution of red meat for a plant-based (Mankai) protein shake at dinner – dubbed the “green Mediterranean diet” – resulted in further improved cardiometabolic benefits compared with the traditional Mediterranean diet among people with baseline abdominal obesity and/or dyslipidemia, according to the researchers.

They specifically looked at ghrelin, nicknamed the “hunger hormone,” a neuropeptide mainly secreted by the gastric epithelium. It acts on the pituitary gland to release growth hormone. Ghrelin concentrations increase during fasting and decrease after eating. Lower levels are associated with insulin resistance and obesity.

Fasting ghrelin levels were elevated with weight loss, but those increases were associated with improved insulin sensitivity and regression of visceral adipose tissue even beyond weight loss.

Although the caloric restriction and weight loss were comparable with the two Mediterranean diets, the green Mediterranean diet group had double the increase in fasting ghrelin as the traditional Mediterranean diet group, the researchers point out in their report .
 

‘Hypothesis-generating’ study pushes many hot topic buttons

“This specific study is the first to show that ghrelin levels play an important role in metabolic adaptation to a dietary or lifestyle intervention and that ghrelin is an important player in the axis of adiposity, insulin resistance, and metabolic health,” lead researcher Gal Tsaban, MD, told this news organization.

The data partially explain some of the prior beneficial effects seen with the Green Mediterranean diet, even after adjustment for weight loss, he explained, noting that the revised version of the diet “could be considered as an alternative lifestyle intervention with possible metabolic benefits even beyond the Mediterranean diet, which is what we currently recommend for patients.”

Asked for comment, Christopher Gardner, PhD, was not as enthusiastic.

He took issue with the fact that ghrelin wasn’t a primary or even a prespecified secondary outcome of the DIRECT-PLUS trial and because the specific plant-based ingredients of the green Mediterranean diet used in the study may not be widely available or desirable and therefore limit the study’s generalizability.

Dr. Gardner, who is director of nutrition studies at the Stanford Prevention Research Center, California, also said: “They’re tying lots of interesting things together. The Mediterranean diet is a cool thing, ghrelin is a cool thing, and insulin resistance is hugely important in this day and age, even though we don’t all agree on how to measure it.”

“But it gets tough as you try to link them all together for an exploratory outcome. ... To me it’s an interesting hypothesis-generating study that pushes a lot of interesting buttons that are hot topics in the field.”
 

Green Mediterranean diet led to higher ghrelin, metabolic benefits

In DIRECT-PLUS, a total of 294 adults (88% men) older than 30 years of age with abdominal obesity (waist circumference >102 cm for men or >88 cm for women), or dyslipidemia (triglycerides >150 mg/dL and HDL-cholesterol ≤40 mg/dL for men or ≤50 mg/dL for women) were included. Half had prediabetes or type 2 diabetes.

They were randomized to one of three diets: a diet based on standard healthy dietary guidelines; a traditional Mediterranean diet low in simple carbohydrates, rich in vegetables, with poultry and fish replacing beef and lamb and 28 g/day of walnuts; or the Green-Mediterranean diet, including 3-4 cups/day of green tea and 100 g/day of a green shake made from the Mankai strain of Wolffia globosa (also known as duckweed) replacing dinner, and 28 g/day of walnuts.

The Green Mediterranean diet included 800 mg more polyphenols than the traditional Mediterranean diet. Both were equally calorie-restricted, at about 1,500-1,800 kcal/day for men and 1,200-1,400 kcal/day for women. All three groups were instructed to engage in regular physical activity and were given free gym memberships.

The retention rate was 98.3% after 6 months and 89.8% after 18 months.

Weight loss was similar between the two Mediterranean diet groups (2.9% and 3.9% for the traditional and green versions, respectively) compared with the standard healthy diet (0.6%) (P < .05 for both Mediterranean diet groups vs. control).

After 6 months, fasting ghrelin increased in the traditional (8.0%; P = .015) and green (10.5%; P = 0.031) Mediterranean groups versus baseline, with no significant change in the control group.

By 18 months, fasting ghrelin was significantly greater compared with baseline only in the green Mediterranean group (P = .012).

Because the differences in fasting ghrelin trajectories were only significant in men – likely due to the small sample size of women – a subsequent 18-month analysis was limited to the men. In a multivariate model adjusted for age, intervention group, baseline biomarker values, and 18-month weight changes, the 18-month change in fasting ghrelin remained a significant predictor for changes in A1c and homeostatic model of insulin resistance (HOMA-IR; P = .022).

Because weight loss remained the most significant predictor of improved insulin resistance, a further analysis examined the association between changes in fasting ghrelin levels with changes in the fraction of insulin resistance marker that were not attributed to weight loss, per se. With the other adjustments, fasting ghrelin was associated with residual reductions in A1c (P = .003), HOMA-IR (P = .021), increased HDL-cholesterol (P = .024), and relative visceral adipose tissue loss (P = .003).  
 

No specific product needed to push Mediterranean diet towards vegan

Dr. Tsaban, a nutritional researcher and cardiologist at Ben-Gurion University and Soroka University Medical Center, Be’er-Sheva, Israel, said the Mankai shake is commonly consumed in Israel but is also available worldwide. The study participants, all employees at an isolated nuclear research facility in the Negev, were particularly motivated. “They didn’t have a satiety problem with the drink. It made them very full,” he said. The manufacturer supplied the shakes but didn’t fund the study, he added.

However, Dr. Tsaban said that the “green Mediterranean diet” doesn’t depend on specific products.

Rather, “the concept is to push the Mediterranean diet a bit further and to replace the animal-based protein with vegetable-based protein, to shift your dietary habits towards a more vegan lifestyle. It’s not completely vegan, but it’s trending there. ... Our main goal was to increase the polyphenol intake, the antioxidant intake from vegetables. ... I think it can be replicated.”

Dr. Gardner said, “At the end of the day, it’s an exploratory study. ... It raises some interesting points that give the rest of us room to follow-up on.”

The study was funded by grants from the German Research Foundation, the Israel Ministry of Health, the Israel Ministry of Science and Technology, and the California Walnut Commission. Dr. Tsaban has reported no further relevant financial relationships. Dr. Gardner has reported receiving study funding from Beyond Meat.

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

A “green” adaptation to the traditional Mediterranean diet could help improve insulin sensitivity and reduce visceral fat by increasing levels of ghrelin, the “hunger hormone,” new research suggests.

The current study is a new analysis of data from the randomized DIRECT-PLUS trial, which showed that the addition of green tea and substitution of red meat for a plant-based (Mankai) protein shake at dinner – dubbed the “green Mediterranean diet” – resulted in further improved cardiometabolic benefits compared with the traditional Mediterranean diet among people with baseline abdominal obesity and/or dyslipidemia, according to the researchers.

They specifically looked at ghrelin, nicknamed the “hunger hormone,” a neuropeptide mainly secreted by the gastric epithelium. It acts on the pituitary gland to release growth hormone. Ghrelin concentrations increase during fasting and decrease after eating. Lower levels are associated with insulin resistance and obesity.

Fasting ghrelin levels were elevated with weight loss, but those increases were associated with improved insulin sensitivity and regression of visceral adipose tissue even beyond weight loss.

Although the caloric restriction and weight loss were comparable with the two Mediterranean diets, the green Mediterranean diet group had double the increase in fasting ghrelin as the traditional Mediterranean diet group, the researchers point out in their report .
 

‘Hypothesis-generating’ study pushes many hot topic buttons

“This specific study is the first to show that ghrelin levels play an important role in metabolic adaptation to a dietary or lifestyle intervention and that ghrelin is an important player in the axis of adiposity, insulin resistance, and metabolic health,” lead researcher Gal Tsaban, MD, told this news organization.

The data partially explain some of the prior beneficial effects seen with the Green Mediterranean diet, even after adjustment for weight loss, he explained, noting that the revised version of the diet “could be considered as an alternative lifestyle intervention with possible metabolic benefits even beyond the Mediterranean diet, which is what we currently recommend for patients.”

Asked for comment, Christopher Gardner, PhD, was not as enthusiastic.

He took issue with the fact that ghrelin wasn’t a primary or even a prespecified secondary outcome of the DIRECT-PLUS trial and because the specific plant-based ingredients of the green Mediterranean diet used in the study may not be widely available or desirable and therefore limit the study’s generalizability.

Dr. Gardner, who is director of nutrition studies at the Stanford Prevention Research Center, California, also said: “They’re tying lots of interesting things together. The Mediterranean diet is a cool thing, ghrelin is a cool thing, and insulin resistance is hugely important in this day and age, even though we don’t all agree on how to measure it.”

“But it gets tough as you try to link them all together for an exploratory outcome. ... To me it’s an interesting hypothesis-generating study that pushes a lot of interesting buttons that are hot topics in the field.”
 

Green Mediterranean diet led to higher ghrelin, metabolic benefits

In DIRECT-PLUS, a total of 294 adults (88% men) older than 30 years of age with abdominal obesity (waist circumference >102 cm for men or >88 cm for women), or dyslipidemia (triglycerides >150 mg/dL and HDL-cholesterol ≤40 mg/dL for men or ≤50 mg/dL for women) were included. Half had prediabetes or type 2 diabetes.

They were randomized to one of three diets: a diet based on standard healthy dietary guidelines; a traditional Mediterranean diet low in simple carbohydrates, rich in vegetables, with poultry and fish replacing beef and lamb and 28 g/day of walnuts; or the Green-Mediterranean diet, including 3-4 cups/day of green tea and 100 g/day of a green shake made from the Mankai strain of Wolffia globosa (also known as duckweed) replacing dinner, and 28 g/day of walnuts.

The Green Mediterranean diet included 800 mg more polyphenols than the traditional Mediterranean diet. Both were equally calorie-restricted, at about 1,500-1,800 kcal/day for men and 1,200-1,400 kcal/day for women. All three groups were instructed to engage in regular physical activity and were given free gym memberships.

The retention rate was 98.3% after 6 months and 89.8% after 18 months.

Weight loss was similar between the two Mediterranean diet groups (2.9% and 3.9% for the traditional and green versions, respectively) compared with the standard healthy diet (0.6%) (P < .05 for both Mediterranean diet groups vs. control).

After 6 months, fasting ghrelin increased in the traditional (8.0%; P = .015) and green (10.5%; P = 0.031) Mediterranean groups versus baseline, with no significant change in the control group.

By 18 months, fasting ghrelin was significantly greater compared with baseline only in the green Mediterranean group (P = .012).

Because the differences in fasting ghrelin trajectories were only significant in men – likely due to the small sample size of women – a subsequent 18-month analysis was limited to the men. In a multivariate model adjusted for age, intervention group, baseline biomarker values, and 18-month weight changes, the 18-month change in fasting ghrelin remained a significant predictor for changes in A1c and homeostatic model of insulin resistance (HOMA-IR; P = .022).

Because weight loss remained the most significant predictor of improved insulin resistance, a further analysis examined the association between changes in fasting ghrelin levels with changes in the fraction of insulin resistance marker that were not attributed to weight loss, per se. With the other adjustments, fasting ghrelin was associated with residual reductions in A1c (P = .003), HOMA-IR (P = .021), increased HDL-cholesterol (P = .024), and relative visceral adipose tissue loss (P = .003).  
 

No specific product needed to push Mediterranean diet towards vegan

Dr. Tsaban, a nutritional researcher and cardiologist at Ben-Gurion University and Soroka University Medical Center, Be’er-Sheva, Israel, said the Mankai shake is commonly consumed in Israel but is also available worldwide. The study participants, all employees at an isolated nuclear research facility in the Negev, were particularly motivated. “They didn’t have a satiety problem with the drink. It made them very full,” he said. The manufacturer supplied the shakes but didn’t fund the study, he added.

However, Dr. Tsaban said that the “green Mediterranean diet” doesn’t depend on specific products.

Rather, “the concept is to push the Mediterranean diet a bit further and to replace the animal-based protein with vegetable-based protein, to shift your dietary habits towards a more vegan lifestyle. It’s not completely vegan, but it’s trending there. ... Our main goal was to increase the polyphenol intake, the antioxidant intake from vegetables. ... I think it can be replicated.”

Dr. Gardner said, “At the end of the day, it’s an exploratory study. ... It raises some interesting points that give the rest of us room to follow-up on.”

The study was funded by grants from the German Research Foundation, the Israel Ministry of Health, the Israel Ministry of Science and Technology, and the California Walnut Commission. Dr. Tsaban has reported no further relevant financial relationships. Dr. Gardner has reported receiving study funding from Beyond Meat.

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

“Short-term hospitalization [for reasons other than diabetes] may not be the time to intervene in long-term diabetes management,” researchers conclude.

They found that, in a national cohort of older almost entirely male veterans with non–insulin-treated type 2 diabetes who were hospitalized for non–diabetes-related common medical conditions, intensified diabetes treatment on hospital discharge was linked to an increased risk of severe hypoglycemia in the immediate postdischarge period.

However, diabetes treatment intensification – that is, receiving a prescription for a new or higher dose of diabetes medicine – was not associated with decreased risks of severe hyperglycemia or with improved glycemic (hemoglobin A1c) control at 30 days or 1 year, according to study results, published in JAMA Network Open.

“We didn’t see a reduction in diabetes emergencies in more intensively treated patients,” lead investigator Timothy S. Anderson, MD, said in an interview.

Also, importantly, there was a low rate of persistence with the new treatment. “Half of the patients were no longer taking these [intensified diabetes medicines] at 1 year, which tells me that context is key,” he pointed out. “If a patient is in the hospital for diabetes [unlike the patients in this study], I think it makes a lot of sense to modify and adjust their regimen to try to help them right then and there.”

The overall risk of severe hyperglycemia or severe hypoglycemia was pretty small in the overall cohort, Dr. Anderson noted, “but we do put people at risk of leaving the hospital and ending up back in the hospital with low blood sugar when we intensify medications, and there’s not necessarily a good signal to suggest that it’s all that urgent to change these medicines.”

Instead, the “safer path” may be to make recommendations to the patient’s outpatient physician and also inform the patient – for example, “We saw some concerns about your diabetes while you were in the hospital, and this is really something that should be looked at when you’re recovered and feeling better from the rest of your health standpoint” – rather than making a diabetes medication change while the person is acutely ill or recovering from illness, said Dr. Anderson, from Beth Israel Deaconess Medical Center and Harvard Medical School, Boston.

The researchers also found an “unexpected” significant decrease in 30-day mortality in the patients with intensified diabetes treatment, which was probably because of confounding that was not accounted for, Dr. Anderson speculated, since clinical trials have consistently shown that benefits from diabetes medications take a longer time to show an effect.
 

‘Important study,’ but lacked newer meds

This is an “important” study for primary care and in-hospital physicians that shows that “hospitalization is really not the time and the place” to intensify diabetes medication, Rozalina G. McCoy, MD, coauthor of an invited commentary, told this news organization in an interview.

“While overcoming treatment inertia is important, [it should be] done appropriately, so that we don’t overtreat patients,” Dr. McCoy, of the Mayo Clinic in Rochester, Minn., stressed.

The very low rate of persistence of taking intensified medications is a major finding, she agreed. Hospitalized patients “are not in their usual state of health, so if we make long-term treatment decisions based on their acute abnormal situation, that may not be appropriate.”

However, patients with high A1c may benefit from a change at hospital discharge rather than when they see their primary care provider, with the caveat that they need close follow-up as an outpatient.

The study emphasizes the “need for longitudinal patient care rather than episodic patches,” according to Dr. McCoy.

For example, a patient who is hospitalized for a chronic obstructive pulmonary disease or asthma exacerbation may be receiving steroids that cause high blood glucose levels but as soon as they’re done with their steroid course, blood glucose will decrease, so the “need for close outpatient follow-up is very important.”

One limitation of the current work is that an earlier study in the same population by the research group showed that 49% of patients whose treatment regimens were intensified had limited life expectancy or were at or below their A1c goal, so they would not have benefited from the stepped-up treatment, she noted.

Another limitation is that the findings cannot be generalized to women or younger patients, or to patients treated with glucagonlike peptide 1 (GLP-1)–receptor agonists or sodium-glucose cotransporter 2 (SGLT2) inhibitors.

The study patients were seen in the U.S. Veterans Health Administration health system when these newer agents were not used. Three-quarters of patients received intensified treatment with sulfonylurea or insulin, and only one patient received a new GLP-1–receptor agonist.

Ideally, Dr. McCoy said, patients should have been prescribed a GLP-1–receptor agonist if they had atherosclerotic cardiovascular disease or kidney disease, or an SGLT2 inhibitor if they had kidney disease or heart failure, which may have led to different results, and would need to be determined in further study.

Dr. Anderson agreed that “SGLT2 inhibitors and GLP1 agonists are broadly much safer than the older diabetes medicines, at least when it comes to risk of hypoglycemia, and may have more clear benefits in heart disease and mortality. So I would not want to extrapolate our findings to those new classes,” he said. “A similar set of studies would need to be done.”
 

Study rationale and findings

Hospitalized older adults with diabetes commonly have transiently elevated blood glucose levels that might lead clinicians to discharge them from hospital with a prescription for more intensive diabetes medications than they were on before they were hospitalized, but it is not clear if these diabetes medication changes would improve outcomes.

To investigate this, the researchers analyzed data from patients with diabetes who were 65 and older and hospitalized for common medical conditions in VHA hospitals during January 2011–September 2016, and then discharged to the community.

They excluded patients who were hospitalized for things that require immediate change in diabetes treatment and patients who were using insulin before their hospitalization (because instructions to modify insulin dosing frequently don’t have a new prescription).

The researchers identified 28,198 adults with diabetes who were not on insulin and were hospitalized in the VHA health system for heart failure (18%), coronary artery disease (13%), chronic obstructive pulmonary disease (10%), pneumonia (9.6%), and urinary tract infection (7.5%), and less often and not in decreasing order, for acute coronary syndrome, arrhythmia, asthma, chest pain, conduction disorders, heart valve disorders, sepsis, skin infection, stroke, and transient ischemic attack.

Of these patients, 2,768 patients (9.8%) received diabetes medication intensification, and the researchers matched 2,648 of these patients with an equal number of patients who did not receive this treatment intensification.

The patients in each group had a mean age of 73 and 98.5% were male; 78% were White.

They had a mean A1c of 7.9%. Most were receiving sulfonylurea (43%) or metformin (39%), and few were receiving thiazolidinediones (4.1%), alpha-glucosidase inhibitors (2.7%), dipeptidyl peptidase 4 inhibitors (2.0%), or other types of diabetes drugs (0.1%).

Of the 2,768 patients who received intensified diabetes medication, most received a prescription for insulin (51%) or sulfonylurea (23%).

In the propensity-matched cohort, patients with intensified diabetes medication had a higher rate of severe hypoglycemia at 30 days (1% vs. 0.5%), which translated into a significant twofold higher risk (hazard ratio, 2.17).

The rates of severe hypoglycemia at 1 year were similar in both groups (3.1% and 2.9%).

The incidence of severe hyperglycemia was the same in both groups at 30 days (0.3%) and 1 year (1.3%).

In secondary outcomes, at 1 year, 48% of new oral diabetes medications and 39% of new insulin prescriptions were no longer being filled.

Overall, patients who were discharged with intensified diabetes medication were significantly less likely to die within 30 days than the other patients (1.3% vs. 2.4%; HR, 0.55).

However, this mortality benefit was found only in the subgroup of 2,524 patients who had uncontrolled diabetes when they were admitted to hospital (A1c >7.5%; mean A1c, 9.1%), and not in the propensity-matched subgroup of 2,672 patients who had controlled diabetes then (A1c up to 7.5%; mean A1c, 6.8%).

There was no significant difference in 1-year mortality in patients with versus without intensified treatment (15.8% vs. 17.8%).

There were also no significant between-group difference in rates of hospital readmission at 30 days (roughly 17%) or 1 year (roughly 51%).

The decreases in mean A1c from hospital discharge to 1 year later were also the same in both groups (going from 7.9% to 7.7%).

The study was funded by grants from the National Institute on Aging and the American College of Cardiology. Dr. Anderson has no relevant financial disclosures. Dr. McCoy reported receiving grants from the National Institute of Diabetes and Digestive and Kidney Diseases, AARP, and the Patient-Centered Outcomes Research Institute outside the submitted work. The disclosures of the other authors and the editorial coauthor are available with the article and commentary.

“Short-term hospitalization [for reasons other than diabetes] may not be the time to intervene in long-term diabetes management,” researchers conclude.

They found that, in a national cohort of older almost entirely male veterans with non–insulin-treated type 2 diabetes who were hospitalized for non–diabetes-related common medical conditions, intensified diabetes treatment on hospital discharge was linked to an increased risk of severe hypoglycemia in the immediate postdischarge period.

However, diabetes treatment intensification – that is, receiving a prescription for a new or higher dose of diabetes medicine – was not associated with decreased risks of severe hyperglycemia or with improved glycemic (hemoglobin A1c) control at 30 days or 1 year, according to study results, published in JAMA Network Open.

“We didn’t see a reduction in diabetes emergencies in more intensively treated patients,” lead investigator Timothy S. Anderson, MD, said in an interview.

Also, importantly, there was a low rate of persistence with the new treatment. “Half of the patients were no longer taking these [intensified diabetes medicines] at 1 year, which tells me that context is key,” he pointed out. “If a patient is in the hospital for diabetes [unlike the patients in this study], I think it makes a lot of sense to modify and adjust their regimen to try to help them right then and there.”

The overall risk of severe hyperglycemia or severe hypoglycemia was pretty small in the overall cohort, Dr. Anderson noted, “but we do put people at risk of leaving the hospital and ending up back in the hospital with low blood sugar when we intensify medications, and there’s not necessarily a good signal to suggest that it’s all that urgent to change these medicines.”

Instead, the “safer path” may be to make recommendations to the patient’s outpatient physician and also inform the patient – for example, “We saw some concerns about your diabetes while you were in the hospital, and this is really something that should be looked at when you’re recovered and feeling better from the rest of your health standpoint” – rather than making a diabetes medication change while the person is acutely ill or recovering from illness, said Dr. Anderson, from Beth Israel Deaconess Medical Center and Harvard Medical School, Boston.

The researchers also found an “unexpected” significant decrease in 30-day mortality in the patients with intensified diabetes treatment, which was probably because of confounding that was not accounted for, Dr. Anderson speculated, since clinical trials have consistently shown that benefits from diabetes medications take a longer time to show an effect.
 

‘Important study,’ but lacked newer meds

This is an “important” study for primary care and in-hospital physicians that shows that “hospitalization is really not the time and the place” to intensify diabetes medication, Rozalina G. McCoy, MD, coauthor of an invited commentary, told this news organization in an interview.

“While overcoming treatment inertia is important, [it should be] done appropriately, so that we don’t overtreat patients,” Dr. McCoy, of the Mayo Clinic in Rochester, Minn., stressed.

The very low rate of persistence of taking intensified medications is a major finding, she agreed. Hospitalized patients “are not in their usual state of health, so if we make long-term treatment decisions based on their acute abnormal situation, that may not be appropriate.”

However, patients with high A1c may benefit from a change at hospital discharge rather than when they see their primary care provider, with the caveat that they need close follow-up as an outpatient.

The study emphasizes the “need for longitudinal patient care rather than episodic patches,” according to Dr. McCoy.

For example, a patient who is hospitalized for a chronic obstructive pulmonary disease or asthma exacerbation may be receiving steroids that cause high blood glucose levels but as soon as they’re done with their steroid course, blood glucose will decrease, so the “need for close outpatient follow-up is very important.”

One limitation of the current work is that an earlier study in the same population by the research group showed that 49% of patients whose treatment regimens were intensified had limited life expectancy or were at or below their A1c goal, so they would not have benefited from the stepped-up treatment, she noted.

Another limitation is that the findings cannot be generalized to women or younger patients, or to patients treated with glucagonlike peptide 1 (GLP-1)–receptor agonists or sodium-glucose cotransporter 2 (SGLT2) inhibitors.

The study patients were seen in the U.S. Veterans Health Administration health system when these newer agents were not used. Three-quarters of patients received intensified treatment with sulfonylurea or insulin, and only one patient received a new GLP-1–receptor agonist.

Ideally, Dr. McCoy said, patients should have been prescribed a GLP-1–receptor agonist if they had atherosclerotic cardiovascular disease or kidney disease, or an SGLT2 inhibitor if they had kidney disease or heart failure, which may have led to different results, and would need to be determined in further study.

Dr. Anderson agreed that “SGLT2 inhibitors and GLP1 agonists are broadly much safer than the older diabetes medicines, at least when it comes to risk of hypoglycemia, and may have more clear benefits in heart disease and mortality. So I would not want to extrapolate our findings to those new classes,” he said. “A similar set of studies would need to be done.”
 

Study rationale and findings

Hospitalized older adults with diabetes commonly have transiently elevated blood glucose levels that might lead clinicians to discharge them from hospital with a prescription for more intensive diabetes medications than they were on before they were hospitalized, but it is not clear if these diabetes medication changes would improve outcomes.

To investigate this, the researchers analyzed data from patients with diabetes who were 65 and older and hospitalized for common medical conditions in VHA hospitals during January 2011–September 2016, and then discharged to the community.

They excluded patients who were hospitalized for things that require immediate change in diabetes treatment and patients who were using insulin before their hospitalization (because instructions to modify insulin dosing frequently don’t have a new prescription).

The researchers identified 28,198 adults with diabetes who were not on insulin and were hospitalized in the VHA health system for heart failure (18%), coronary artery disease (13%), chronic obstructive pulmonary disease (10%), pneumonia (9.6%), and urinary tract infection (7.5%), and less often and not in decreasing order, for acute coronary syndrome, arrhythmia, asthma, chest pain, conduction disorders, heart valve disorders, sepsis, skin infection, stroke, and transient ischemic attack.

Of these patients, 2,768 patients (9.8%) received diabetes medication intensification, and the researchers matched 2,648 of these patients with an equal number of patients who did not receive this treatment intensification.

The patients in each group had a mean age of 73 and 98.5% were male; 78% were White.

They had a mean A1c of 7.9%. Most were receiving sulfonylurea (43%) or metformin (39%), and few were receiving thiazolidinediones (4.1%), alpha-glucosidase inhibitors (2.7%), dipeptidyl peptidase 4 inhibitors (2.0%), or other types of diabetes drugs (0.1%).

Of the 2,768 patients who received intensified diabetes medication, most received a prescription for insulin (51%) or sulfonylurea (23%).

In the propensity-matched cohort, patients with intensified diabetes medication had a higher rate of severe hypoglycemia at 30 days (1% vs. 0.5%), which translated into a significant twofold higher risk (hazard ratio, 2.17).

The rates of severe hypoglycemia at 1 year were similar in both groups (3.1% and 2.9%).

The incidence of severe hyperglycemia was the same in both groups at 30 days (0.3%) and 1 year (1.3%).

In secondary outcomes, at 1 year, 48% of new oral diabetes medications and 39% of new insulin prescriptions were no longer being filled.

Overall, patients who were discharged with intensified diabetes medication were significantly less likely to die within 30 days than the other patients (1.3% vs. 2.4%; HR, 0.55).

However, this mortality benefit was found only in the subgroup of 2,524 patients who had uncontrolled diabetes when they were admitted to hospital (A1c >7.5%; mean A1c, 9.1%), and not in the propensity-matched subgroup of 2,672 patients who had controlled diabetes then (A1c up to 7.5%; mean A1c, 6.8%).

There was no significant difference in 1-year mortality in patients with versus without intensified treatment (15.8% vs. 17.8%).

There were also no significant between-group difference in rates of hospital readmission at 30 days (roughly 17%) or 1 year (roughly 51%).

The decreases in mean A1c from hospital discharge to 1 year later were also the same in both groups (going from 7.9% to 7.7%).

The study was funded by grants from the National Institute on Aging and the American College of Cardiology. Dr. Anderson has no relevant financial disclosures. Dr. McCoy reported receiving grants from the National Institute of Diabetes and Digestive and Kidney Diseases, AARP, and the Patient-Centered Outcomes Research Institute outside the submitted work. The disclosures of the other authors and the editorial coauthor are available with the article and commentary.

“Short-term hospitalization [for reasons other than diabetes] may not be the time to intervene in long-term diabetes management,” researchers conclude.

They found that, in a national cohort of older almost entirely male veterans with non–insulin-treated type 2 diabetes who were hospitalized for non–diabetes-related common medical conditions, intensified diabetes treatment on hospital discharge was linked to an increased risk of severe hypoglycemia in the immediate postdischarge period.

However, diabetes treatment intensification – that is, receiving a prescription for a new or higher dose of diabetes medicine – was not associated with decreased risks of severe hyperglycemia or with improved glycemic (hemoglobin A1c) control at 30 days or 1 year, according to study results, published in JAMA Network Open.

“We didn’t see a reduction in diabetes emergencies in more intensively treated patients,” lead investigator Timothy S. Anderson, MD, said in an interview.

Also, importantly, there was a low rate of persistence with the new treatment. “Half of the patients were no longer taking these [intensified diabetes medicines] at 1 year, which tells me that context is key,” he pointed out. “If a patient is in the hospital for diabetes [unlike the patients in this study], I think it makes a lot of sense to modify and adjust their regimen to try to help them right then and there.”

The overall risk of severe hyperglycemia or severe hypoglycemia was pretty small in the overall cohort, Dr. Anderson noted, “but we do put people at risk of leaving the hospital and ending up back in the hospital with low blood sugar when we intensify medications, and there’s not necessarily a good signal to suggest that it’s all that urgent to change these medicines.”

Instead, the “safer path” may be to make recommendations to the patient’s outpatient physician and also inform the patient – for example, “We saw some concerns about your diabetes while you were in the hospital, and this is really something that should be looked at when you’re recovered and feeling better from the rest of your health standpoint” – rather than making a diabetes medication change while the person is acutely ill or recovering from illness, said Dr. Anderson, from Beth Israel Deaconess Medical Center and Harvard Medical School, Boston.

The researchers also found an “unexpected” significant decrease in 30-day mortality in the patients with intensified diabetes treatment, which was probably because of confounding that was not accounted for, Dr. Anderson speculated, since clinical trials have consistently shown that benefits from diabetes medications take a longer time to show an effect.
 

‘Important study,’ but lacked newer meds

This is an “important” study for primary care and in-hospital physicians that shows that “hospitalization is really not the time and the place” to intensify diabetes medication, Rozalina G. McCoy, MD, coauthor of an invited commentary, told this news organization in an interview.

“While overcoming treatment inertia is important, [it should be] done appropriately, so that we don’t overtreat patients,” Dr. McCoy, of the Mayo Clinic in Rochester, Minn., stressed.

The very low rate of persistence of taking intensified medications is a major finding, she agreed. Hospitalized patients “are not in their usual state of health, so if we make long-term treatment decisions based on their acute abnormal situation, that may not be appropriate.”

However, patients with high A1c may benefit from a change at hospital discharge rather than when they see their primary care provider, with the caveat that they need close follow-up as an outpatient.

The study emphasizes the “need for longitudinal patient care rather than episodic patches,” according to Dr. McCoy.

For example, a patient who is hospitalized for a chronic obstructive pulmonary disease or asthma exacerbation may be receiving steroids that cause high blood glucose levels but as soon as they’re done with their steroid course, blood glucose will decrease, so the “need for close outpatient follow-up is very important.”

One limitation of the current work is that an earlier study in the same population by the research group showed that 49% of patients whose treatment regimens were intensified had limited life expectancy or were at or below their A1c goal, so they would not have benefited from the stepped-up treatment, she noted.

Another limitation is that the findings cannot be generalized to women or younger patients, or to patients treated with glucagonlike peptide 1 (GLP-1)–receptor agonists or sodium-glucose cotransporter 2 (SGLT2) inhibitors.

The study patients were seen in the U.S. Veterans Health Administration health system when these newer agents were not used. Three-quarters of patients received intensified treatment with sulfonylurea or insulin, and only one patient received a new GLP-1–receptor agonist.

Ideally, Dr. McCoy said, patients should have been prescribed a GLP-1–receptor agonist if they had atherosclerotic cardiovascular disease or kidney disease, or an SGLT2 inhibitor if they had kidney disease or heart failure, which may have led to different results, and would need to be determined in further study.

Dr. Anderson agreed that “SGLT2 inhibitors and GLP1 agonists are broadly much safer than the older diabetes medicines, at least when it comes to risk of hypoglycemia, and may have more clear benefits in heart disease and mortality. So I would not want to extrapolate our findings to those new classes,” he said. “A similar set of studies would need to be done.”
 

Study rationale and findings

Hospitalized older adults with diabetes commonly have transiently elevated blood glucose levels that might lead clinicians to discharge them from hospital with a prescription for more intensive diabetes medications than they were on before they were hospitalized, but it is not clear if these diabetes medication changes would improve outcomes.

To investigate this, the researchers analyzed data from patients with diabetes who were 65 and older and hospitalized for common medical conditions in VHA hospitals during January 2011–September 2016, and then discharged to the community.

They excluded patients who were hospitalized for things that require immediate change in diabetes treatment and patients who were using insulin before their hospitalization (because instructions to modify insulin dosing frequently don’t have a new prescription).

The researchers identified 28,198 adults with diabetes who were not on insulin and were hospitalized in the VHA health system for heart failure (18%), coronary artery disease (13%), chronic obstructive pulmonary disease (10%), pneumonia (9.6%), and urinary tract infection (7.5%), and less often and not in decreasing order, for acute coronary syndrome, arrhythmia, asthma, chest pain, conduction disorders, heart valve disorders, sepsis, skin infection, stroke, and transient ischemic attack.

Of these patients, 2,768 patients (9.8%) received diabetes medication intensification, and the researchers matched 2,648 of these patients with an equal number of patients who did not receive this treatment intensification.

The patients in each group had a mean age of 73 and 98.5% were male; 78% were White.

They had a mean A1c of 7.9%. Most were receiving sulfonylurea (43%) or metformin (39%), and few were receiving thiazolidinediones (4.1%), alpha-glucosidase inhibitors (2.7%), dipeptidyl peptidase 4 inhibitors (2.0%), or other types of diabetes drugs (0.1%).

Of the 2,768 patients who received intensified diabetes medication, most received a prescription for insulin (51%) or sulfonylurea (23%).

In the propensity-matched cohort, patients with intensified diabetes medication had a higher rate of severe hypoglycemia at 30 days (1% vs. 0.5%), which translated into a significant twofold higher risk (hazard ratio, 2.17).

The rates of severe hypoglycemia at 1 year were similar in both groups (3.1% and 2.9%).

The incidence of severe hyperglycemia was the same in both groups at 30 days (0.3%) and 1 year (1.3%).

In secondary outcomes, at 1 year, 48% of new oral diabetes medications and 39% of new insulin prescriptions were no longer being filled.

Overall, patients who were discharged with intensified diabetes medication were significantly less likely to die within 30 days than the other patients (1.3% vs. 2.4%; HR, 0.55).

However, this mortality benefit was found only in the subgroup of 2,524 patients who had uncontrolled diabetes when they were admitted to hospital (A1c >7.5%; mean A1c, 9.1%), and not in the propensity-matched subgroup of 2,672 patients who had controlled diabetes then (A1c up to 7.5%; mean A1c, 6.8%).

There was no significant difference in 1-year mortality in patients with versus without intensified treatment (15.8% vs. 17.8%).

There were also no significant between-group difference in rates of hospital readmission at 30 days (roughly 17%) or 1 year (roughly 51%).

The decreases in mean A1c from hospital discharge to 1 year later were also the same in both groups (going from 7.9% to 7.7%).

The study was funded by grants from the National Institute on Aging and the American College of Cardiology. Dr. Anderson has no relevant financial disclosures. Dr. McCoy reported receiving grants from the National Institute of Diabetes and Digestive and Kidney Diseases, AARP, and the Patient-Centered Outcomes Research Institute outside the submitted work. The disclosures of the other authors and the editorial coauthor are available with the article and commentary.

Agents that form the sodium-glucose cotransporter 2 inhibitor class – including canagliflozin (Invokana), dapagliflozin (Farxiga), and empagliflozin (Jardiance) – have show remarkably consistent cardiovascular efficacy and safety for treating patients with heart failure, chronic kidney disease, and higher-risk patients with type 2 diabetes.

But despite an essential role now established for drugs in the SGLT2 inhibitor class for patients with heart failure with reduced ejection fraction, progressive renal dysfunction, or – most recently – patients with heart failure with preserved ejection fraction, the scope may be less clear when using these agents in patients with type 2 diabetes because they fall across a broad spectrum of risk for cardiorenal disease.

“What makes patients with type 2 diabetes distinct from other patients in whom SGLT2 inhibitors have been studied, such as patients with heart failure, is that they have a much wider spectrum of risk. Low-risk patients with type 2 diabetes were not included in the SGLT2 inhibitor trials. Defining risk in patients with type 2 diabetes has the potential to inform prioritization” for treatment with an SGLT2 inhibitor, explained David D. Berg, MD, who has led one effort to develop risk scores that can risk-stratify patients with type 2 diabetes based on their vulnerability to incident heart failure and hospitalization for these episodes,

The hefty cost for these drugs, with retail prices that run over $6,000 annually for the most widely used and most potent agents in the class, has spurred researchers to try to find cost-effective ways to identify patients with type 2 diabetes who stand to benefit most from taking an SGLT2 inhibitor.
 

‘Cost must be considered’

“Cost must be considered, and at this point it’s probably more responsible on a societal level to advise using SGLT2 inhibitors mainly in patients [with type 2 diabetes] with compelling indications,” said Silvio Inzucchi, MD, professor and director of the Yale Medicine Diabetes Center in New Haven, Conn. Dr. Inzucchi added, however, that “I can easily foresee a day when these agents are considered foundational therapy for all patients with type 2 diabetes, after they go generic and cost is not a major issue. I’m starting to lean toward this very simplified approach, but the costs are prohibitive at this time.”

“If the SGLT2 inhibitors were available at a low cost, I’d argue that they should be used in all patients with type 2 diabetes who have no contraindications or tolerability issues; but we live in a world where they are not yet low cost,” agreed Mikhail N. Kosiborod, MD, a cardiologist and codirector of the Cardiometabolic Center of Excellence at Saint Luke’s Mid-America Heart Institute in Kansas City, Mo.

“We can’t give SGLT2 inhibitors to everyone with type 2 diabetes right now because that would be too costly; these agents are so expensive. You start by targeting the patients with the highest risk” for incident heart failure, said Ambarish Pandey, MD, a cardiologist at the University of Texas Southwestern Medical Center, Dallas.

The spotlight the SGLT2 inhibitor class has received, based on its unexpectedly potent efficacy in cutting rates of acute heart failure episodes in patients with type 2 diabetes, has also sharply raised the profile of this complication of type 2 diabetes, an outcome that until recently many clinicians had largely ignored, overshadowed by a focus on adverse outcomes from atherosclerotic cardiovascular disease such as MIs and strokes.

“Results from the SGLT2 inhibitor trials have reignited interest in the relationship between type 2 diabetes and heart failure and have started to shift the mindset of clinicians toward thinking about reducing both atherothrombotic risk and heart failure risk in patients with type 2 diabetes,” said Dr. Berg, a cardiologist at Brigham and Women’s Hospital in Boston.

“Prior to the SGLT2 inhibitor trials, heart failure was on the radar of diabetes clinicians only as something to watch for as a potential side effect of certain glucose-lowering therapies. Now that there are therapies that can lower heart failure hospitalization, it’s made us think more about heart failure, how common it is in patients with type 2 diabetes, and what can we do to lower this risk,” commented Alice Y.Y. Cheng, MD, a diabetes specialist at the University of Toronto.
 

Banking on biomarkers

Risk scores for assessing the likelihood of people developing incident heart failure date back more than a decade. More recent efforts have focused on patients with type 2 diabetes, starting with scores that relied entirely on clinical markers of risk such as prior heart failure, established coronary artery disease, and chronic kidney disease. Reports of two of these validated scores appeared in 2019, one from a team led by Dr. Berg and associates in 2019, and a second score developed by Dr. Pandey and associates.

More recently, both research teams behind these two scores validated newer versions that further refined assessment of patients with diabetes by including biomarkers of incipient heart failure, such as N-terminal of the prohormone brain natriuretic peptide (NT-proBNP). The UT Southwestern group’s biomarker-based score relies on levels of NT-proBNP as well as on levels of high sensitivity troponin T (hsTnT) and C-reactive protein, plus ECG-based assessment of left ventricular hypertrophy to assess risk for incident heart failure. Developers reported in 2021 that this biomarker score could account for 74% (C-statistic) of the 5-year risk for heart failure among patients with diabetes.

The biomarker-based score devised by Dr. Berg and associates, relies on NT-proBNP, hsTnT, and a history of heart failure to predict the risk for a future hospitalization for heart failure. They reported in Diabetes Care that in validation testing this score accounted for 84% of the risk.

“I’m hopeful that both our original clinically-based risk score and our new biomarker-based score will be endorsed by professional society guidelines. The intent of the biomarker-based score is not to replace the clinical one,” Dr. Berg stressed in an interview. But he acknowledged that it uses biomarker values that currently are not routinely collected in U.S. practice. Biomarkers like NT-proBNP “are highly associated with future heart failure risk, but are not yet routinely assessed,” he said. Because of this, “widespread adoption of the [biomarker] risk tool will require some education.”

It may also require some sort of preliminary screening to determine the appropriateness of using it in a specific patient because of the relative expense of a test for NT-proBNP.

A Texas two-step process

“We can’t perform a [NT-proBNP] test on every patient with type 2 diabetes because cost is a huge barrier,” with a U.K. price of roughly £28 (about $40) per test, commented Naveed Sattar, MD, PhD, professor of metabolic medicine at the University of Glasgow. “NT-proBNP is the best biomarker by far to predict risk” for heart failure,” but “it’s too expensive. It’s not going to happen in everyone,” he said in an interview. He suggested taking a two-step approach to identify patients to test for NT-proBNP based on clinical measures like blood pressure, weight and height, lipid levels and renal function and the presence of suggestive symptoms like dyspnea, fatigue, and peripheral edema, an argument he recently spelled out in detail in an editorial he coauthored.

“More work is needed to define which patients would usefully have cardiac biomarkers measured,” Dr. Sattar wrote with his associate.

Two-step is the approach used in routine practice by clinicians at UT Southwestern Medical Center. “We screen all patients with type 2 diabetes and no diagnosed heart failure who are not already on an SGLT2 inhibitor” using their 2019 screening tool, called the WATCH-DM Risk score, said Dr. Pandey. Patients flagged at high risk by their clinical score receive an SGLT2 inhibitor (presuming no contraindications). The remaining patients with low or intermediate risk may then undergo biomarker-based assessment to find additional patients who warrant SGLT2 inhibitor treatment, he said in an interview.

Often, a record of the most important biomarker, NT-proBNP, is already in the patient’s record and less than a year old, in which case clinicians use that value. An NT-proBNP level of at least 125 pg/mL indicates increased risk in people with a body mass index of less than 30 kg/m², while for those with higher body mass indexes clinicians at Southwestern apply a threshold for higher risk of at least 100 pg/mL.

In addition to starting those patients on an SGLT2 inhibitor, the Southwestern protocol calls for intensified efforts at weight loss and improved fitness to further lower incident heart failure risk, and they are also considering targeting treatment with a glucagonlike peptide–1 receptor agonist to these patients as well. They have a research protocol in place, called WATCH-DM, that will prospectively assess the efficacy of this strategy.

Despite the cost, others also believe that the time is right for biomarker-based tests to boost access to the benefits that treatment with SGLT2 inhibitors can give patients with type 2 diabetes.

“In theory it’s reasonable” to use a risk score like the recent one reported by Dr. Berg and coauthors, said Vanita R. Aroda, MD, an endocrinologist and director of diabetes clinical research at Brigham and Women’s Hospital in Boston. “We need to pay attention to heart failure as an outcome and use risk stratification” to decide which patients with type 2 diabetes but without established cardiovascular disease warrant treatment with an SGLT2 inhibitor, she said in an interview. “Given the data, we need more concrete recommendations” from medical societies on how to reasonably use biomarkers and imaging to identify patients with type 2 diabetes who are at increased risk for heart failure and hence would benefit from treatment. “This should be of high interest to guidelines committees,” she added.

The earlier version of Dr. Berg’s score, based exclusively on clinical observations and conventional measures like estimated glomerular filtration rate and urinary creatinine to albumin ratio, had overlap with established criteria for starting treatment with an SGLT2 inhibitor, such as the presence of chronic kidney disease, she noted. “A biomarker-based score may provide the additional level of discrimination needed to characterize risk and potential benefit.”
 

Asymptomatic diabetic cardiomyopathy

Dr. Aroda and several coauthors recently published a review that describes a subset of patients with type 2 diabetes who might get picked up by intensified screening for heart failure risk: those with asymptomatic diabetic cardiomyopathy, a clinical state that they said represents patients with stage B heart failure based on the new Universal Definition and Classification of Heart Failure. Until recently, these patients with type 2 diabetes and asymptomatic cardiomyopathy have mostly gone unrecognized.

A recent report from Dr. Pandey and associates reviewed records from 2,900 U.S. patients with diabetes and no symptoms who had been included in any of three cohort studies and found echocardiographic evidence of early-stage cardiomyopathy in as many as two-thirds. In an editorial about this report, Dr. Aroda and coauthors called these patients a potential “window of opportunity for prevention and treatment of heart failure.”

“There is evidence of structural cardiac changes that progress through the stages of heart failure,” and starting treatment with an SGLT2 inhibitor during an earlier stage can potentially slow or prevent this progression and thereby limit future functional decline, Dr. Aroda said.

Dr. Sattar agreed. Type 2 diabetes appears to help cause “fluid derangements” and abnormal hemodynamics that produces cardiac stress, changes in heart structure, and adverse remodeling of the heart, a process that “some call cardiomyopathy,” which is exacerbated by other pathologic forces that are also often present in these patients such as obesity and hypertension. SGLT2 inhibitors can help these patients by producing “reverse remodeling of the heart.”

“This process was neglected because for many years our focus was on ischemic heart disease in patients with type 2 diabetes. It was there in plain sight, but we were missing it,” explained Dr. Sattar. Having agents from the SGLT2 inhibitor class “has allowed us to better understand this mechanism.”

The SGLT2 inhibitors are “absolutely the driving reason” why the diabetes–heart failure link has become so important, said Dr. Inzucchi. Having drugs that reduce heart failure risk provided clinicians with a tool that has “changed our mindset.”

“Heart failure prevention has been largely neglected in patients with type 2 diabetes. Reprioritizing heart failure prevention to first and foremost among patients with type 2 diabetes is long overdue,” commented Gregg C. Fonarow, MD, professor and chief of cardiology at the University of California, Los Angeles.
 

Clinicians don’t like risk scores

Will systematic screening for heart failure risk in selected patients with type 2 diabetes take hold, and with it expanded and better-targeted use of SGLT2 inhibitors?

“I hope so,” said Dr. Kosiborod, but one challenge is that “for the most part clinicians don’t like using risk scores.” Only a few have ever been widely incorporated into practice; mostly they become tools for research. Plus, SGLT2 inhibitor uptake has in general been slow to catch on, which Dr. Kosiborod blames primarily on clinical inertia, a pervasive issue that has also hampered optimal use of drugs as commonplace as statins, ACE inhibitors, and angiotensin-receptor blockers.

“Given the avalanche of positive data, uptake of SGLT2 inhibitors will continue to improve and accelerate; but unfortunately, unless something dramatic happens we’ll likely see their continued underuse for several more years,” he predicted. “Designing better systems of care that prioritize prevention are absolutely needed to improve implementation of effective therapies, including SGLT2 inhibitors.”

Despite their underuse the SGLT2 inhibitor class has, in just 6 years since results from the EMPA-REG OUTCOME trial came out and launched the current treatment era, transformed thinking about the risk that heart failure poses to patients with type 2 diabetes and the need to manage this risk.

“I thank the SGLT2 inhibitors for raising awareness of heart failure risk in patients with diabetes,” and for giving clinicians a new way to mitigate this risk, said Dr. Cheng.

Dr. Berg has been a consultant to AstraZeneca, and received research grant support to his institution from AstraZeneca and Pfizer. Dr. Cheng has received personal fees from multiple pharmaceutical companies. Dr. Kosiborod has been an adviser and consultant to multiple pharmaceutical companies; has received research grants from AstraZeneca and Boehringer Ingelheim; and has received other research support from AstraZeneca. Dr. Pandey has been an adviser to Roche Diagnostics; has received nonfinancial support from Pfizer and Merck; and has received research support from Gilead Sciences, Myovista, and Applied Therapeutics. Dr. Sattar has received consulting honoraria from multiple pharmaceutical companies, and has received grant support from Boehringer Ingelheim, Roche Diagnostics, and Novartis. Dr. Aroda has been a consultant for several pharmaceutical companies; has a spouse employed with Janssen; and has received research support (institutional contracts) from multiple pharmaceutical companies. Dr. Fonarow has been a consultant to several pharmaceutical companies.

mzoler@mdedge.com

Agents that form the sodium-glucose cotransporter 2 inhibitor class – including canagliflozin (Invokana), dapagliflozin (Farxiga), and empagliflozin (Jardiance) – have show remarkably consistent cardiovascular efficacy and safety for treating patients with heart failure, chronic kidney disease, and higher-risk patients with type 2 diabetes.

But despite an essential role now established for drugs in the SGLT2 inhibitor class for patients with heart failure with reduced ejection fraction, progressive renal dysfunction, or – most recently – patients with heart failure with preserved ejection fraction, the scope may be less clear when using these agents in patients with type 2 diabetes because they fall across a broad spectrum of risk for cardiorenal disease.

“What makes patients with type 2 diabetes distinct from other patients in whom SGLT2 inhibitors have been studied, such as patients with heart failure, is that they have a much wider spectrum of risk. Low-risk patients with type 2 diabetes were not included in the SGLT2 inhibitor trials. Defining risk in patients with type 2 diabetes has the potential to inform prioritization” for treatment with an SGLT2 inhibitor, explained David D. Berg, MD, who has led one effort to develop risk scores that can risk-stratify patients with type 2 diabetes based on their vulnerability to incident heart failure and hospitalization for these episodes,

The hefty cost for these drugs, with retail prices that run over $6,000 annually for the most widely used and most potent agents in the class, has spurred researchers to try to find cost-effective ways to identify patients with type 2 diabetes who stand to benefit most from taking an SGLT2 inhibitor.
 

‘Cost must be considered’

“Cost must be considered, and at this point it’s probably more responsible on a societal level to advise using SGLT2 inhibitors mainly in patients [with type 2 diabetes] with compelling indications,” said Silvio Inzucchi, MD, professor and director of the Yale Medicine Diabetes Center in New Haven, Conn. Dr. Inzucchi added, however, that “I can easily foresee a day when these agents are considered foundational therapy for all patients with type 2 diabetes, after they go generic and cost is not a major issue. I’m starting to lean toward this very simplified approach, but the costs are prohibitive at this time.”

“If the SGLT2 inhibitors were available at a low cost, I’d argue that they should be used in all patients with type 2 diabetes who have no contraindications or tolerability issues; but we live in a world where they are not yet low cost,” agreed Mikhail N. Kosiborod, MD, a cardiologist and codirector of the Cardiometabolic Center of Excellence at Saint Luke’s Mid-America Heart Institute in Kansas City, Mo.

“We can’t give SGLT2 inhibitors to everyone with type 2 diabetes right now because that would be too costly; these agents are so expensive. You start by targeting the patients with the highest risk” for incident heart failure, said Ambarish Pandey, MD, a cardiologist at the University of Texas Southwestern Medical Center, Dallas.

The spotlight the SGLT2 inhibitor class has received, based on its unexpectedly potent efficacy in cutting rates of acute heart failure episodes in patients with type 2 diabetes, has also sharply raised the profile of this complication of type 2 diabetes, an outcome that until recently many clinicians had largely ignored, overshadowed by a focus on adverse outcomes from atherosclerotic cardiovascular disease such as MIs and strokes.

“Results from the SGLT2 inhibitor trials have reignited interest in the relationship between type 2 diabetes and heart failure and have started to shift the mindset of clinicians toward thinking about reducing both atherothrombotic risk and heart failure risk in patients with type 2 diabetes,” said Dr. Berg, a cardiologist at Brigham and Women’s Hospital in Boston.

“Prior to the SGLT2 inhibitor trials, heart failure was on the radar of diabetes clinicians only as something to watch for as a potential side effect of certain glucose-lowering therapies. Now that there are therapies that can lower heart failure hospitalization, it’s made us think more about heart failure, how common it is in patients with type 2 diabetes, and what can we do to lower this risk,” commented Alice Y.Y. Cheng, MD, a diabetes specialist at the University of Toronto.
 

Banking on biomarkers

Risk scores for assessing the likelihood of people developing incident heart failure date back more than a decade. More recent efforts have focused on patients with type 2 diabetes, starting with scores that relied entirely on clinical markers of risk such as prior heart failure, established coronary artery disease, and chronic kidney disease. Reports of two of these validated scores appeared in 2019, one from a team led by Dr. Berg and associates in 2019, and a second score developed by Dr. Pandey and associates.

More recently, both research teams behind these two scores validated newer versions that further refined assessment of patients with diabetes by including biomarkers of incipient heart failure, such as N-terminal of the prohormone brain natriuretic peptide (NT-proBNP). The UT Southwestern group’s biomarker-based score relies on levels of NT-proBNP as well as on levels of high sensitivity troponin T (hsTnT) and C-reactive protein, plus ECG-based assessment of left ventricular hypertrophy to assess risk for incident heart failure. Developers reported in 2021 that this biomarker score could account for 74% (C-statistic) of the 5-year risk for heart failure among patients with diabetes.

The biomarker-based score devised by Dr. Berg and associates, relies on NT-proBNP, hsTnT, and a history of heart failure to predict the risk for a future hospitalization for heart failure. They reported in Diabetes Care that in validation testing this score accounted for 84% of the risk.

“I’m hopeful that both our original clinically-based risk score and our new biomarker-based score will be endorsed by professional society guidelines. The intent of the biomarker-based score is not to replace the clinical one,” Dr. Berg stressed in an interview. But he acknowledged that it uses biomarker values that currently are not routinely collected in U.S. practice. Biomarkers like NT-proBNP “are highly associated with future heart failure risk, but are not yet routinely assessed,” he said. Because of this, “widespread adoption of the [biomarker] risk tool will require some education.”

It may also require some sort of preliminary screening to determine the appropriateness of using it in a specific patient because of the relative expense of a test for NT-proBNP.

A Texas two-step process

“We can’t perform a [NT-proBNP] test on every patient with type 2 diabetes because cost is a huge barrier,” with a U.K. price of roughly £28 (about $40) per test, commented Naveed Sattar, MD, PhD, professor of metabolic medicine at the University of Glasgow. “NT-proBNP is the best biomarker by far to predict risk” for heart failure,” but “it’s too expensive. It’s not going to happen in everyone,” he said in an interview. He suggested taking a two-step approach to identify patients to test for NT-proBNP based on clinical measures like blood pressure, weight and height, lipid levels and renal function and the presence of suggestive symptoms like dyspnea, fatigue, and peripheral edema, an argument he recently spelled out in detail in an editorial he coauthored.

“More work is needed to define which patients would usefully have cardiac biomarkers measured,” Dr. Sattar wrote with his associate.

Two-step is the approach used in routine practice by clinicians at UT Southwestern Medical Center. “We screen all patients with type 2 diabetes and no diagnosed heart failure who are not already on an SGLT2 inhibitor” using their 2019 screening tool, called the WATCH-DM Risk score, said Dr. Pandey. Patients flagged at high risk by their clinical score receive an SGLT2 inhibitor (presuming no contraindications). The remaining patients with low or intermediate risk may then undergo biomarker-based assessment to find additional patients who warrant SGLT2 inhibitor treatment, he said in an interview.

Often, a record of the most important biomarker, NT-proBNP, is already in the patient’s record and less than a year old, in which case clinicians use that value. An NT-proBNP level of at least 125 pg/mL indicates increased risk in people with a body mass index of less than 30 kg/m², while for those with higher body mass indexes clinicians at Southwestern apply a threshold for higher risk of at least 100 pg/mL.

In addition to starting those patients on an SGLT2 inhibitor, the Southwestern protocol calls for intensified efforts at weight loss and improved fitness to further lower incident heart failure risk, and they are also considering targeting treatment with a glucagonlike peptide–1 receptor agonist to these patients as well. They have a research protocol in place, called WATCH-DM, that will prospectively assess the efficacy of this strategy.

Despite the cost, others also believe that the time is right for biomarker-based tests to boost access to the benefits that treatment with SGLT2 inhibitors can give patients with type 2 diabetes.

“In theory it’s reasonable” to use a risk score like the recent one reported by Dr. Berg and coauthors, said Vanita R. Aroda, MD, an endocrinologist and director of diabetes clinical research at Brigham and Women’s Hospital in Boston. “We need to pay attention to heart failure as an outcome and use risk stratification” to decide which patients with type 2 diabetes but without established cardiovascular disease warrant treatment with an SGLT2 inhibitor, she said in an interview. “Given the data, we need more concrete recommendations” from medical societies on how to reasonably use biomarkers and imaging to identify patients with type 2 diabetes who are at increased risk for heart failure and hence would benefit from treatment. “This should be of high interest to guidelines committees,” she added.

The earlier version of Dr. Berg’s score, based exclusively on clinical observations and conventional measures like estimated glomerular filtration rate and urinary creatinine to albumin ratio, had overlap with established criteria for starting treatment with an SGLT2 inhibitor, such as the presence of chronic kidney disease, she noted. “A biomarker-based score may provide the additional level of discrimination needed to characterize risk and potential benefit.”
 

Asymptomatic diabetic cardiomyopathy

Dr. Aroda and several coauthors recently published a review that describes a subset of patients with type 2 diabetes who might get picked up by intensified screening for heart failure risk: those with asymptomatic diabetic cardiomyopathy, a clinical state that they said represents patients with stage B heart failure based on the new Universal Definition and Classification of Heart Failure. Until recently, these patients with type 2 diabetes and asymptomatic cardiomyopathy have mostly gone unrecognized.

A recent report from Dr. Pandey and associates reviewed records from 2,900 U.S. patients with diabetes and no symptoms who had been included in any of three cohort studies and found echocardiographic evidence of early-stage cardiomyopathy in as many as two-thirds. In an editorial about this report, Dr. Aroda and coauthors called these patients a potential “window of opportunity for prevention and treatment of heart failure.”

“There is evidence of structural cardiac changes that progress through the stages of heart failure,” and starting treatment with an SGLT2 inhibitor during an earlier stage can potentially slow or prevent this progression and thereby limit future functional decline, Dr. Aroda said.

Dr. Sattar agreed. Type 2 diabetes appears to help cause “fluid derangements” and abnormal hemodynamics that produces cardiac stress, changes in heart structure, and adverse remodeling of the heart, a process that “some call cardiomyopathy,” which is exacerbated by other pathologic forces that are also often present in these patients such as obesity and hypertension. SGLT2 inhibitors can help these patients by producing “reverse remodeling of the heart.”

“This process was neglected because for many years our focus was on ischemic heart disease in patients with type 2 diabetes. It was there in plain sight, but we were missing it,” explained Dr. Sattar. Having agents from the SGLT2 inhibitor class “has allowed us to better understand this mechanism.”

The SGLT2 inhibitors are “absolutely the driving reason” why the diabetes–heart failure link has become so important, said Dr. Inzucchi. Having drugs that reduce heart failure risk provided clinicians with a tool that has “changed our mindset.”

“Heart failure prevention has been largely neglected in patients with type 2 diabetes. Reprioritizing heart failure prevention to first and foremost among patients with type 2 diabetes is long overdue,” commented Gregg C. Fonarow, MD, professor and chief of cardiology at the University of California, Los Angeles.
 

Clinicians don’t like risk scores

Will systematic screening for heart failure risk in selected patients with type 2 diabetes take hold, and with it expanded and better-targeted use of SGLT2 inhibitors?

“I hope so,” said Dr. Kosiborod, but one challenge is that “for the most part clinicians don’t like using risk scores.” Only a few have ever been widely incorporated into practice; mostly they become tools for research. Plus, SGLT2 inhibitor uptake has in general been slow to catch on, which Dr. Kosiborod blames primarily on clinical inertia, a pervasive issue that has also hampered optimal use of drugs as commonplace as statins, ACE inhibitors, and angiotensin-receptor blockers.

“Given the avalanche of positive data, uptake of SGLT2 inhibitors will continue to improve and accelerate; but unfortunately, unless something dramatic happens we’ll likely see their continued underuse for several more years,” he predicted. “Designing better systems of care that prioritize prevention are absolutely needed to improve implementation of effective therapies, including SGLT2 inhibitors.”

Despite their underuse the SGLT2 inhibitor class has, in just 6 years since results from the EMPA-REG OUTCOME trial came out and launched the current treatment era, transformed thinking about the risk that heart failure poses to patients with type 2 diabetes and the need to manage this risk.

“I thank the SGLT2 inhibitors for raising awareness of heart failure risk in patients with diabetes,” and for giving clinicians a new way to mitigate this risk, said Dr. Cheng.

Dr. Berg has been a consultant to AstraZeneca, and received research grant support to his institution from AstraZeneca and Pfizer. Dr. Cheng has received personal fees from multiple pharmaceutical companies. Dr. Kosiborod has been an adviser and consultant to multiple pharmaceutical companies; has received research grants from AstraZeneca and Boehringer Ingelheim; and has received other research support from AstraZeneca. Dr. Pandey has been an adviser to Roche Diagnostics; has received nonfinancial support from Pfizer and Merck; and has received research support from Gilead Sciences, Myovista, and Applied Therapeutics. Dr. Sattar has received consulting honoraria from multiple pharmaceutical companies, and has received grant support from Boehringer Ingelheim, Roche Diagnostics, and Novartis. Dr. Aroda has been a consultant for several pharmaceutical companies; has a spouse employed with Janssen; and has received research support (institutional contracts) from multiple pharmaceutical companies. Dr. Fonarow has been a consultant to several pharmaceutical companies.

mzoler@mdedge.com

Agents that form the sodium-glucose cotransporter 2 inhibitor class – including canagliflozin (Invokana), dapagliflozin (Farxiga), and empagliflozin (Jardiance) – have show remarkably consistent cardiovascular efficacy and safety for treating patients with heart failure, chronic kidney disease, and higher-risk patients with type 2 diabetes.

But despite an essential role now established for drugs in the SGLT2 inhibitor class for patients with heart failure with reduced ejection fraction, progressive renal dysfunction, or – most recently – patients with heart failure with preserved ejection fraction, the scope may be less clear when using these agents in patients with type 2 diabetes because they fall across a broad spectrum of risk for cardiorenal disease.

“What makes patients with type 2 diabetes distinct from other patients in whom SGLT2 inhibitors have been studied, such as patients with heart failure, is that they have a much wider spectrum of risk. Low-risk patients with type 2 diabetes were not included in the SGLT2 inhibitor trials. Defining risk in patients with type 2 diabetes has the potential to inform prioritization” for treatment with an SGLT2 inhibitor, explained David D. Berg, MD, who has led one effort to develop risk scores that can risk-stratify patients with type 2 diabetes based on their vulnerability to incident heart failure and hospitalization for these episodes,

The hefty cost for these drugs, with retail prices that run over $6,000 annually for the most widely used and most potent agents in the class, has spurred researchers to try to find cost-effective ways to identify patients with type 2 diabetes who stand to benefit most from taking an SGLT2 inhibitor.
 

‘Cost must be considered’

“Cost must be considered, and at this point it’s probably more responsible on a societal level to advise using SGLT2 inhibitors mainly in patients [with type 2 diabetes] with compelling indications,” said Silvio Inzucchi, MD, professor and director of the Yale Medicine Diabetes Center in New Haven, Conn. Dr. Inzucchi added, however, that “I can easily foresee a day when these agents are considered foundational therapy for all patients with type 2 diabetes, after they go generic and cost is not a major issue. I’m starting to lean toward this very simplified approach, but the costs are prohibitive at this time.”

“If the SGLT2 inhibitors were available at a low cost, I’d argue that they should be used in all patients with type 2 diabetes who have no contraindications or tolerability issues; but we live in a world where they are not yet low cost,” agreed Mikhail N. Kosiborod, MD, a cardiologist and codirector of the Cardiometabolic Center of Excellence at Saint Luke’s Mid-America Heart Institute in Kansas City, Mo.

“We can’t give SGLT2 inhibitors to everyone with type 2 diabetes right now because that would be too costly; these agents are so expensive. You start by targeting the patients with the highest risk” for incident heart failure, said Ambarish Pandey, MD, a cardiologist at the University of Texas Southwestern Medical Center, Dallas.

The spotlight the SGLT2 inhibitor class has received, based on its unexpectedly potent efficacy in cutting rates of acute heart failure episodes in patients with type 2 diabetes, has also sharply raised the profile of this complication of type 2 diabetes, an outcome that until recently many clinicians had largely ignored, overshadowed by a focus on adverse outcomes from atherosclerotic cardiovascular disease such as MIs and strokes.

“Results from the SGLT2 inhibitor trials have reignited interest in the relationship between type 2 diabetes and heart failure and have started to shift the mindset of clinicians toward thinking about reducing both atherothrombotic risk and heart failure risk in patients with type 2 diabetes,” said Dr. Berg, a cardiologist at Brigham and Women’s Hospital in Boston.

“Prior to the SGLT2 inhibitor trials, heart failure was on the radar of diabetes clinicians only as something to watch for as a potential side effect of certain glucose-lowering therapies. Now that there are therapies that can lower heart failure hospitalization, it’s made us think more about heart failure, how common it is in patients with type 2 diabetes, and what can we do to lower this risk,” commented Alice Y.Y. Cheng, MD, a diabetes specialist at the University of Toronto.
 

Banking on biomarkers

Risk scores for assessing the likelihood of people developing incident heart failure date back more than a decade. More recent efforts have focused on patients with type 2 diabetes, starting with scores that relied entirely on clinical markers of risk such as prior heart failure, established coronary artery disease, and chronic kidney disease. Reports of two of these validated scores appeared in 2019, one from a team led by Dr. Berg and associates in 2019, and a second score developed by Dr. Pandey and associates.

More recently, both research teams behind these two scores validated newer versions that further refined assessment of patients with diabetes by including biomarkers of incipient heart failure, such as N-terminal of the prohormone brain natriuretic peptide (NT-proBNP). The UT Southwestern group’s biomarker-based score relies on levels of NT-proBNP as well as on levels of high sensitivity troponin T (hsTnT) and C-reactive protein, plus ECG-based assessment of left ventricular hypertrophy to assess risk for incident heart failure. Developers reported in 2021 that this biomarker score could account for 74% (C-statistic) of the 5-year risk for heart failure among patients with diabetes.

The biomarker-based score devised by Dr. Berg and associates, relies on NT-proBNP, hsTnT, and a history of heart failure to predict the risk for a future hospitalization for heart failure. They reported in Diabetes Care that in validation testing this score accounted for 84% of the risk.

“I’m hopeful that both our original clinically-based risk score and our new biomarker-based score will be endorsed by professional society guidelines. The intent of the biomarker-based score is not to replace the clinical one,” Dr. Berg stressed in an interview. But he acknowledged that it uses biomarker values that currently are not routinely collected in U.S. practice. Biomarkers like NT-proBNP “are highly associated with future heart failure risk, but are not yet routinely assessed,” he said. Because of this, “widespread adoption of the [biomarker] risk tool will require some education.”

It may also require some sort of preliminary screening to determine the appropriateness of using it in a specific patient because of the relative expense of a test for NT-proBNP.

A Texas two-step process

“We can’t perform a [NT-proBNP] test on every patient with type 2 diabetes because cost is a huge barrier,” with a U.K. price of roughly £28 (about $40) per test, commented Naveed Sattar, MD, PhD, professor of metabolic medicine at the University of Glasgow. “NT-proBNP is the best biomarker by far to predict risk” for heart failure,” but “it’s too expensive. It’s not going to happen in everyone,” he said in an interview. He suggested taking a two-step approach to identify patients to test for NT-proBNP based on clinical measures like blood pressure, weight and height, lipid levels and renal function and the presence of suggestive symptoms like dyspnea, fatigue, and peripheral edema, an argument he recently spelled out in detail in an editorial he coauthored.

“More work is needed to define which patients would usefully have cardiac biomarkers measured,” Dr. Sattar wrote with his associate.

Two-step is the approach used in routine practice by clinicians at UT Southwestern Medical Center. “We screen all patients with type 2 diabetes and no diagnosed heart failure who are not already on an SGLT2 inhibitor” using their 2019 screening tool, called the WATCH-DM Risk score, said Dr. Pandey. Patients flagged at high risk by their clinical score receive an SGLT2 inhibitor (presuming no contraindications). The remaining patients with low or intermediate risk may then undergo biomarker-based assessment to find additional patients who warrant SGLT2 inhibitor treatment, he said in an interview.

Often, a record of the most important biomarker, NT-proBNP, is already in the patient’s record and less than a year old, in which case clinicians use that value. An NT-proBNP level of at least 125 pg/mL indicates increased risk in people with a body mass index of less than 30 kg/m², while for those with higher body mass indexes clinicians at Southwestern apply a threshold for higher risk of at least 100 pg/mL.

In addition to starting those patients on an SGLT2 inhibitor, the Southwestern protocol calls for intensified efforts at weight loss and improved fitness to further lower incident heart failure risk, and they are also considering targeting treatment with a glucagonlike peptide–1 receptor agonist to these patients as well. They have a research protocol in place, called WATCH-DM, that will prospectively assess the efficacy of this strategy.

Despite the cost, others also believe that the time is right for biomarker-based tests to boost access to the benefits that treatment with SGLT2 inhibitors can give patients with type 2 diabetes.

“In theory it’s reasonable” to use a risk score like the recent one reported by Dr. Berg and coauthors, said Vanita R. Aroda, MD, an endocrinologist and director of diabetes clinical research at Brigham and Women’s Hospital in Boston. “We need to pay attention to heart failure as an outcome and use risk stratification” to decide which patients with type 2 diabetes but without established cardiovascular disease warrant treatment with an SGLT2 inhibitor, she said in an interview. “Given the data, we need more concrete recommendations” from medical societies on how to reasonably use biomarkers and imaging to identify patients with type 2 diabetes who are at increased risk for heart failure and hence would benefit from treatment. “This should be of high interest to guidelines committees,” she added.

The earlier version of Dr. Berg’s score, based exclusively on clinical observations and conventional measures like estimated glomerular filtration rate and urinary creatinine to albumin ratio, had overlap with established criteria for starting treatment with an SGLT2 inhibitor, such as the presence of chronic kidney disease, she noted. “A biomarker-based score may provide the additional level of discrimination needed to characterize risk and potential benefit.”
 

Asymptomatic diabetic cardiomyopathy

Dr. Aroda and several coauthors recently published a review that describes a subset of patients with type 2 diabetes who might get picked up by intensified screening for heart failure risk: those with asymptomatic diabetic cardiomyopathy, a clinical state that they said represents patients with stage B heart failure based on the new Universal Definition and Classification of Heart Failure. Until recently, these patients with type 2 diabetes and asymptomatic cardiomyopathy have mostly gone unrecognized.

A recent report from Dr. Pandey and associates reviewed records from 2,900 U.S. patients with diabetes and no symptoms who had been included in any of three cohort studies and found echocardiographic evidence of early-stage cardiomyopathy in as many as two-thirds. In an editorial about this report, Dr. Aroda and coauthors called these patients a potential “window of opportunity for prevention and treatment of heart failure.”

“There is evidence of structural cardiac changes that progress through the stages of heart failure,” and starting treatment with an SGLT2 inhibitor during an earlier stage can potentially slow or prevent this progression and thereby limit future functional decline, Dr. Aroda said.

Dr. Sattar agreed. Type 2 diabetes appears to help cause “fluid derangements” and abnormal hemodynamics that produces cardiac stress, changes in heart structure, and adverse remodeling of the heart, a process that “some call cardiomyopathy,” which is exacerbated by other pathologic forces that are also often present in these patients such as obesity and hypertension. SGLT2 inhibitors can help these patients by producing “reverse remodeling of the heart.”

“This process was neglected because for many years our focus was on ischemic heart disease in patients with type 2 diabetes. It was there in plain sight, but we were missing it,” explained Dr. Sattar. Having agents from the SGLT2 inhibitor class “has allowed us to better understand this mechanism.”

The SGLT2 inhibitors are “absolutely the driving reason” why the diabetes–heart failure link has become so important, said Dr. Inzucchi. Having drugs that reduce heart failure risk provided clinicians with a tool that has “changed our mindset.”

“Heart failure prevention has been largely neglected in patients with type 2 diabetes. Reprioritizing heart failure prevention to first and foremost among patients with type 2 diabetes is long overdue,” commented Gregg C. Fonarow, MD, professor and chief of cardiology at the University of California, Los Angeles.
 

Clinicians don’t like risk scores

Will systematic screening for heart failure risk in selected patients with type 2 diabetes take hold, and with it expanded and better-targeted use of SGLT2 inhibitors?

“I hope so,” said Dr. Kosiborod, but one challenge is that “for the most part clinicians don’t like using risk scores.” Only a few have ever been widely incorporated into practice; mostly they become tools for research. Plus, SGLT2 inhibitor uptake has in general been slow to catch on, which Dr. Kosiborod blames primarily on clinical inertia, a pervasive issue that has also hampered optimal use of drugs as commonplace as statins, ACE inhibitors, and angiotensin-receptor blockers.

“Given the avalanche of positive data, uptake of SGLT2 inhibitors will continue to improve and accelerate; but unfortunately, unless something dramatic happens we’ll likely see their continued underuse for several more years,” he predicted. “Designing better systems of care that prioritize prevention are absolutely needed to improve implementation of effective therapies, including SGLT2 inhibitors.”

Despite their underuse the SGLT2 inhibitor class has, in just 6 years since results from the EMPA-REG OUTCOME trial came out and launched the current treatment era, transformed thinking about the risk that heart failure poses to patients with type 2 diabetes and the need to manage this risk.

“I thank the SGLT2 inhibitors for raising awareness of heart failure risk in patients with diabetes,” and for giving clinicians a new way to mitigate this risk, said Dr. Cheng.

Dr. Berg has been a consultant to AstraZeneca, and received research grant support to his institution from AstraZeneca and Pfizer. Dr. Cheng has received personal fees from multiple pharmaceutical companies. Dr. Kosiborod has been an adviser and consultant to multiple pharmaceutical companies; has received research grants from AstraZeneca and Boehringer Ingelheim; and has received other research support from AstraZeneca. Dr. Pandey has been an adviser to Roche Diagnostics; has received nonfinancial support from Pfizer and Merck; and has received research support from Gilead Sciences, Myovista, and Applied Therapeutics. Dr. Sattar has received consulting honoraria from multiple pharmaceutical companies, and has received grant support from Boehringer Ingelheim, Roche Diagnostics, and Novartis. Dr. Aroda has been a consultant for several pharmaceutical companies; has a spouse employed with Janssen; and has received research support (institutional contracts) from multiple pharmaceutical companies. Dr. Fonarow has been a consultant to several pharmaceutical companies.

mzoler@mdedge.com

Most patients with advanced chronic kidney disease (CKD) and non–ST-elevation myocardial infarction (NSTEMI) fare better with coronary angiography with and without revascularization than with medical therapy, a large nationwide study suggests.

Bruce Jancin/MDedge News

“Invasive management was associated with lower mortality, major adverse cardiovascular events (MACE), and need for revascularization, with a minimal increased risk of in-hospital, postprocedural acute kidney injury (AKI) requiring dialysis and major bleeding,” said lead researcher Ankur Kalra, MD, Cleveland Clinic.

Also, similar post-discharge safety outcomes were seen at 6 months, he said in an online presentation of “key abstracts” released in advance of next month’s Transcatheter Cardiovascular Therapeutics (TCT) 2021 hybrid meeting.

Advanced CKD is an independent predictor of mortality and morbidity in patients with NSTEMI. In CKD, however, current guidelines lack evidence on the efficacy and safety of invasive versus medical management, he noted.

A rare randomized clinical trial in this high-risk population, ISCHEMIA-CKD, recently found no benefit and an increase in stroke with initial invasive management compared with optimal medical therapy.

Session co-moderator Ziad A. Ali, MD, DPhil, St. Francis Hospital & Heart Center, New York, said the current study is “incredibly clinically impactful and answers a question that’s very difficult to answer because these patients aren’t randomized in randomized controlled trials, and there’s a general avoidance, which we’ve now coined ‘renalism,’ like racism, where people don’t really want to touch these patients.”

He questioned, however, how the authors reconcile the results of ISCHEMIA-CKD, a “small but meaningful randomized controlled trial,” with their findings from a large dataset. “Perhaps this is all selection bias, even though the numbers are very large.”

Dr. Kalra replied that ISCHEMIA-CKD examined stable ischemic heart disease, whereas they looked at NSTEMI. “Even though it may fall under the same rubric, I truly believe it is a different set of patients – they are at a heightened risk for future cardiovascular events and have had an acute coronary event.”

For the study, ICD-10 coding data from 2016-2018 in the Nationwide Readmission Database was used to identify NSTEMI patients with CKD stages 3, 4, 5, and end-stage renal disease (ESRD). A total of 141,052 patients were available for in-hospital outcomes and 133,642 patients for post-discharge outcomes.

In-hospital and 6-month mortality – the study’s primary outcome – favored invasive management across all CKD stages and ESRD but did not achieve statistical significance for CKD stage 5. The number needed to treat (NNT) for CKD stages 3, 4, 5, and ESRD were 26, 56, 48, and 18, respectively.

Six-month MACE, including mortality, MI, stroke, and heart failure readmission, was significantly better in all groups with invasive management.

Kaplan-Meier curves for mortality showed similar benefits with an invasive strategy across CKD stages, again barring stage 5 disease. 

With regard to in-hospital safety, stroke rates were not significantly different between the two treatment strategies across all groups.

Rates of AKI requiring dialysis, however, were lower with medical versus invasive management for CKD stage 3 (0.43% vs. 0.6%; hazard ratio, 1.39; P = .016), stage 4 (1.2% vs. 2.0%; HR 1.87; P < .001), and stage 5 (3.7% vs. 4.3%; HR 1.17; P = .527). The number needed to harm (NNH) was 588 for CKD 3 and 125 for CKD 4.

Major bleeding, defined as requiring transfusion, was lower with medical management for all CKD stages but not for ESRD. The rates are as follows:

• CKD stage 3: 2.5% vs. 2.8% (HR, 1.11; P = .078; NNH = 333)
• CKD stage 4: 2.9% vs. 4.0% (HR, 1.42; P < .001; NNH = 91)
• CKD stage 5: 2.2% vs. 4.7% (HR, 2.17; P = .008; NNH = 40)
• ESRD: 3.4% vs. 3.3% (HR, 0.97; P = .709)

“The risk of AKI requiring dialysis and bleeding, as has been shown previously in other studies, was high, but the number needed to harm was also high,” observed Dr. Kalra.

A separate analysis showed no difference in rates of AKI requiring dialysis among patients with CKD stages 3 and 4 who underwent angiography without revascularization and their peers who were medically managed.

Rates of the composite safety outcome of vascular complications, major bleeding, AKI, or stroke readmission at 6 months were not significantly different for invasive versus medical management for CKD stage 3 (both 3.3%), stage 4 (4.5% and 4.2%), stage 5 (3.9% vs. 4.3%), and ESRD (2.3% vs. 2.1%).

Besides the inherent limitations of observational studies and potential for selection bias, Dr. Kalra pointed out that the analysis relied on coding data for exact glomerular filtration rates and lacked information on contrast use, crystalloids before the procedure, and nephrotoxic medication use before or during admission. Out-of-hospital mortality was also not available in the database.

Co-moderator Allen Jeremias, MD, also with St. Francis Hospital & Heart Center, said one of the study’s strengths was that it included all comers, unlike randomized trials that typically exclude the highest risk patients.

“So, when we do these trials it’s very difficult to find the right balance, whereas this is a real-world analysis including everybody, and I think the benefits are clearly demonstrated,” he said. “So I think I’m bullish on doing complex [percutaneous coronary intervention] PCI in this patient population.”

Dr. Kalra reports having no relevant financial relationships.

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

Most patients with advanced chronic kidney disease (CKD) and non–ST-elevation myocardial infarction (NSTEMI) fare better with coronary angiography with and without revascularization than with medical therapy, a large nationwide study suggests.

Bruce Jancin/MDedge News

“Invasive management was associated with lower mortality, major adverse cardiovascular events (MACE), and need for revascularization, with a minimal increased risk of in-hospital, postprocedural acute kidney injury (AKI) requiring dialysis and major bleeding,” said lead researcher Ankur Kalra, MD, Cleveland Clinic.

Also, similar post-discharge safety outcomes were seen at 6 months, he said in an online presentation of “key abstracts” released in advance of next month’s Transcatheter Cardiovascular Therapeutics (TCT) 2021 hybrid meeting.

Advanced CKD is an independent predictor of mortality and morbidity in patients with NSTEMI. In CKD, however, current guidelines lack evidence on the efficacy and safety of invasive versus medical management, he noted.

A rare randomized clinical trial in this high-risk population, ISCHEMIA-CKD, recently found no benefit and an increase in stroke with initial invasive management compared with optimal medical therapy.

Session co-moderator Ziad A. Ali, MD, DPhil, St. Francis Hospital & Heart Center, New York, said the current study is “incredibly clinically impactful and answers a question that’s very difficult to answer because these patients aren’t randomized in randomized controlled trials, and there’s a general avoidance, which we’ve now coined ‘renalism,’ like racism, where people don’t really want to touch these patients.”

He questioned, however, how the authors reconcile the results of ISCHEMIA-CKD, a “small but meaningful randomized controlled trial,” with their findings from a large dataset. “Perhaps this is all selection bias, even though the numbers are very large.”

Dr. Kalra replied that ISCHEMIA-CKD examined stable ischemic heart disease, whereas they looked at NSTEMI. “Even though it may fall under the same rubric, I truly believe it is a different set of patients – they are at a heightened risk for future cardiovascular events and have had an acute coronary event.”

For the study, ICD-10 coding data from 2016-2018 in the Nationwide Readmission Database was used to identify NSTEMI patients with CKD stages 3, 4, 5, and end-stage renal disease (ESRD). A total of 141,052 patients were available for in-hospital outcomes and 133,642 patients for post-discharge outcomes.

In-hospital and 6-month mortality – the study’s primary outcome – favored invasive management across all CKD stages and ESRD but did not achieve statistical significance for CKD stage 5. The number needed to treat (NNT) for CKD stages 3, 4, 5, and ESRD were 26, 56, 48, and 18, respectively.

Six-month MACE, including mortality, MI, stroke, and heart failure readmission, was significantly better in all groups with invasive management.

Kaplan-Meier curves for mortality showed similar benefits with an invasive strategy across CKD stages, again barring stage 5 disease. 

With regard to in-hospital safety, stroke rates were not significantly different between the two treatment strategies across all groups.

Rates of AKI requiring dialysis, however, were lower with medical versus invasive management for CKD stage 3 (0.43% vs. 0.6%; hazard ratio, 1.39; P = .016), stage 4 (1.2% vs. 2.0%; HR 1.87; P < .001), and stage 5 (3.7% vs. 4.3%; HR 1.17; P = .527). The number needed to harm (NNH) was 588 for CKD 3 and 125 for CKD 4.

Major bleeding, defined as requiring transfusion, was lower with medical management for all CKD stages but not for ESRD. The rates are as follows:

• CKD stage 3: 2.5% vs. 2.8% (HR, 1.11; P = .078; NNH = 333)
• CKD stage 4: 2.9% vs. 4.0% (HR, 1.42; P < .001; NNH = 91)
• CKD stage 5: 2.2% vs. 4.7% (HR, 2.17; P = .008; NNH = 40)
• ESRD: 3.4% vs. 3.3% (HR, 0.97; P = .709)

“The risk of AKI requiring dialysis and bleeding, as has been shown previously in other studies, was high, but the number needed to harm was also high,” observed Dr. Kalra.

A separate analysis showed no difference in rates of AKI requiring dialysis among patients with CKD stages 3 and 4 who underwent angiography without revascularization and their peers who were medically managed.

Rates of the composite safety outcome of vascular complications, major bleeding, AKI, or stroke readmission at 6 months were not significantly different for invasive versus medical management for CKD stage 3 (both 3.3%), stage 4 (4.5% and 4.2%), stage 5 (3.9% vs. 4.3%), and ESRD (2.3% vs. 2.1%).

Besides the inherent limitations of observational studies and potential for selection bias, Dr. Kalra pointed out that the analysis relied on coding data for exact glomerular filtration rates and lacked information on contrast use, crystalloids before the procedure, and nephrotoxic medication use before or during admission. Out-of-hospital mortality was also not available in the database.

Co-moderator Allen Jeremias, MD, also with St. Francis Hospital & Heart Center, said one of the study’s strengths was that it included all comers, unlike randomized trials that typically exclude the highest risk patients.

“So, when we do these trials it’s very difficult to find the right balance, whereas this is a real-world analysis including everybody, and I think the benefits are clearly demonstrated,” he said. “So I think I’m bullish on doing complex [percutaneous coronary intervention] PCI in this patient population.”

Dr. Kalra reports having no relevant financial relationships.

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

Most patients with advanced chronic kidney disease (CKD) and non–ST-elevation myocardial infarction (NSTEMI) fare better with coronary angiography with and without revascularization than with medical therapy, a large nationwide study suggests.

Bruce Jancin/MDedge News

“Invasive management was associated with lower mortality, major adverse cardiovascular events (MACE), and need for revascularization, with a minimal increased risk of in-hospital, postprocedural acute kidney injury (AKI) requiring dialysis and major bleeding,” said lead researcher Ankur Kalra, MD, Cleveland Clinic.

Also, similar post-discharge safety outcomes were seen at 6 months, he said in an online presentation of “key abstracts” released in advance of next month’s Transcatheter Cardiovascular Therapeutics (TCT) 2021 hybrid meeting.

Advanced CKD is an independent predictor of mortality and morbidity in patients with NSTEMI. In CKD, however, current guidelines lack evidence on the efficacy and safety of invasive versus medical management, he noted.

A rare randomized clinical trial in this high-risk population, ISCHEMIA-CKD, recently found no benefit and an increase in stroke with initial invasive management compared with optimal medical therapy.

Session co-moderator Ziad A. Ali, MD, DPhil, St. Francis Hospital & Heart Center, New York, said the current study is “incredibly clinically impactful and answers a question that’s very difficult to answer because these patients aren’t randomized in randomized controlled trials, and there’s a general avoidance, which we’ve now coined ‘renalism,’ like racism, where people don’t really want to touch these patients.”

He questioned, however, how the authors reconcile the results of ISCHEMIA-CKD, a “small but meaningful randomized controlled trial,” with their findings from a large dataset. “Perhaps this is all selection bias, even though the numbers are very large.”

Dr. Kalra replied that ISCHEMIA-CKD examined stable ischemic heart disease, whereas they looked at NSTEMI. “Even though it may fall under the same rubric, I truly believe it is a different set of patients – they are at a heightened risk for future cardiovascular events and have had an acute coronary event.”

For the study, ICD-10 coding data from 2016-2018 in the Nationwide Readmission Database was used to identify NSTEMI patients with CKD stages 3, 4, 5, and end-stage renal disease (ESRD). A total of 141,052 patients were available for in-hospital outcomes and 133,642 patients for post-discharge outcomes.

In-hospital and 6-month mortality – the study’s primary outcome – favored invasive management across all CKD stages and ESRD but did not achieve statistical significance for CKD stage 5. The number needed to treat (NNT) for CKD stages 3, 4, 5, and ESRD were 26, 56, 48, and 18, respectively.

Six-month MACE, including mortality, MI, stroke, and heart failure readmission, was significantly better in all groups with invasive management.

Kaplan-Meier curves for mortality showed similar benefits with an invasive strategy across CKD stages, again barring stage 5 disease. 

With regard to in-hospital safety, stroke rates were not significantly different between the two treatment strategies across all groups.

Rates of AKI requiring dialysis, however, were lower with medical versus invasive management for CKD stage 3 (0.43% vs. 0.6%; hazard ratio, 1.39; P = .016), stage 4 (1.2% vs. 2.0%; HR 1.87; P < .001), and stage 5 (3.7% vs. 4.3%; HR 1.17; P = .527). The number needed to harm (NNH) was 588 for CKD 3 and 125 for CKD 4.

Major bleeding, defined as requiring transfusion, was lower with medical management for all CKD stages but not for ESRD. The rates are as follows:

• CKD stage 3: 2.5% vs. 2.8% (HR, 1.11; P = .078; NNH = 333)
• CKD stage 4: 2.9% vs. 4.0% (HR, 1.42; P < .001; NNH = 91)
• CKD stage 5: 2.2% vs. 4.7% (HR, 2.17; P = .008; NNH = 40)
• ESRD: 3.4% vs. 3.3% (HR, 0.97; P = .709)

“The risk of AKI requiring dialysis and bleeding, as has been shown previously in other studies, was high, but the number needed to harm was also high,” observed Dr. Kalra.

A separate analysis showed no difference in rates of AKI requiring dialysis among patients with CKD stages 3 and 4 who underwent angiography without revascularization and their peers who were medically managed.

Rates of the composite safety outcome of vascular complications, major bleeding, AKI, or stroke readmission at 6 months were not significantly different for invasive versus medical management for CKD stage 3 (both 3.3%), stage 4 (4.5% and 4.2%), stage 5 (3.9% vs. 4.3%), and ESRD (2.3% vs. 2.1%).

Besides the inherent limitations of observational studies and potential for selection bias, Dr. Kalra pointed out that the analysis relied on coding data for exact glomerular filtration rates and lacked information on contrast use, crystalloids before the procedure, and nephrotoxic medication use before or during admission. Out-of-hospital mortality was also not available in the database.

Co-moderator Allen Jeremias, MD, also with St. Francis Hospital & Heart Center, said one of the study’s strengths was that it included all comers, unlike randomized trials that typically exclude the highest risk patients.

“So, when we do these trials it’s very difficult to find the right balance, whereas this is a real-world analysis including everybody, and I think the benefits are clearly demonstrated,” he said. “So I think I’m bullish on doing complex [percutaneous coronary intervention] PCI in this patient population.”

Dr. Kalra reports having no relevant financial relationships.

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