MDedge Endocrinology

After 2 years of virtual gatherings, the annual European Society of Cardiology Congress 2022 is back and celebrating its 70th birthday live in the raucously beautiful city of Barcelona.

Much of the upcoming event, scheduled for Aug. 26 to 29, however, will also be broadcast online, and the full program will be available on-demand after the meeting.

The hybrid format is intentional, leveraging the social interaction that only live meetings can provide and the global reach of online access, Program Committee Chair Stephan Windecker, MD, Bern University Hospital, Switzerland, told this news organization.

“It enables a lot of people who, for some reason, cannot travel to still connect, and it also provides what we’ve done in the past, but I think in a more natural way of doing it,” he said. “You can connect later on again, read, digest, look at sessions that you may have missed, and that’s a nice experience to take advantage of.”

Thus far, early registrations are favoring the sunny climes, with about 14,000 onsite and 4,200 online attendees.

This year’s spotlight theme is cardiac imaging, with programming throughout the Congress devoted to its role in diagnosis, treatment, follow-up, and, increasingly, guidance of interventions.

“Particularly as it relates to the transcatheter heart valves, it’s really a new discipline, and I think you can’t overemphasize that enough, because the interventional result directly depends on the quality of imaging,” Dr. Windecker said. “This will certainly logarithmically increase during the next few years.”

The always highly anticipated Hot Line sessions mushroomed this year to 10, featuring 36 studies, up from just 4 sessions and 20 studies last year.

“Especially during the COVID pandemic, many investigators and trialists experienced difficulties in recruitment, difficulties in terms of also personnel shortages, and so on. So really, we feel very privileged at the large number of submissions,” he said. “I think there are really very interesting ones, which we tried to spread throughout the 4 days.”
 

Hot Line sessions 1-5

Among the studies Dr. Windecker highlighted is TIME, which kicks off Hot Line 1 on Friday, Aug. 26, and aimed to establish whether antihypertensive medications taken at night are truly more cardioprotective than those taken in the morning.

The topic has been hotly debated, with proponents pointing to a near halving of mortality and cardiovascular events with bedtime dosing in the Hygia Chronotherapy trial. Skeptics question the validity and conduct of the trial, however, prompting an investigation by the European Heart Journal, which found no evidence of misconduct but has many looking for more definitive data.

Also in this session is SECURE, pitting a cardiovascular polypill that contains aspirin, ramipril, and atorvastatin against usual care in secondary prevention, and PERSPECTIVE, comparing the effects of sacubitril/valsartan with valsartan on cognitive function in patients with chronic heart failure and preserved ejection fraction (HFpEF).

Hot Line 2, the first of three Hot Lines taking place on Saturday, Aug. 27, features the Danish cardiovascular screening trial DANCAVAS, the phase 4 ADVOR trial of acetazolamide (Diamox) in acute decompensated heart failure (HF), and the DANFLU-1 trial of high- versus standard-dose influenza vaccine in the elderly.

Also on tap is the BOX trial, comparing two blood pressure and two oxygenation targets in comatose out-of-hospital cardiac arrest patients.

“It addresses an understudied patient population, and the second element is that sometimes things you do out of ordinary application – so, the application of oxygen – may have beneficial but also adverse impact,” Dr. Windecker said. “So, to study this in a randomized clinical trial is really important.”

Additionally, he highlighted REVIVED, which will be presented in Hot Line 3 and is the first trial to examine percutaneous coronary intervention (PCI) with optimal medical therapy (OMT) versus OMT alone in the setting of severe ischemic cardiomyopathy.

“We have data from the STICH trial, where surgical revascularization was investigated in ischemic cardiomyopathy, but the open question is: What about PCI as revascularization?” Dr. Windecker said. “The other reason it’s interesting is that we have these evidence-based drugs that have dramatically improved outcomes in patients with heart failure, and REVIVED certainly has been conducted now in an era where at least some of these drugs are more systematically implemented.”

Rounding out this session are the Scottish ALL-HEART study of allopurinol in ischemic heart disease and EchoNet-RCT, looking at whether artificial intelligence (AI) can improve the accuracy of echocardiograms.

Hot Line 4 features DELIVER, a phase 3 trial of the SGLT2 inhibitor dapagliflozin (Farxiga) in HF with preserved or mildly reduced ejection fraction. Topline results, released in May, showed that the study has met its primary endpoint of cardiovascular death or worsening HF.

Dr. Windecker said DELIVER will be a “highlight” of the meeting, particularly because EMPEROR-Preserved, presented at ESC 2021, showed a benefit for another SGLT2 inhibitor, empagliflozin, in this very specific setting. Two prespecified analyses will also be presented, pooling data from EMPEROR-Preserved and from the DAPA-HF study of dapagliflozin in patients with reduced EF. “This will be a session very rich in terms of information.”

Another not-to-be-missed session is Hot Line 5, which will focus on antithrombotic therapy, according to Dr. Windecker, who will cochair the Sunday, Aug. 28 session.

First up is the investigator-initiated INVICTUS-VKA, testing rivaroxaban noninferiority versus standard vitamin K antagonists in patients with atrial fibrillation (AFib) and rheumatic heart disease, a setting in which non–vitamin K antagonists have not been sufficiently tested.

This is followed by three phase 2 trials – PACIFIC-AMI, PACIFIC-STROKE, and AXIOMATIC-SSP – investigating the novel factor XIa inhibitors BAY 2433334 and BMS-986177 in patients with myocardial infarction or stroke.
 

Hot Line sessions 6-10

Sunday’s Hot Line 6 takes another look at smartphone-based AFib screening in eBRAVE-HF, use of causal AI to improve the validity of cardiovascular risk prediction, and AI-enhanced detection of aortic stenosis.

Hot Line 7 rounds out the day, putting coronary imaging center stage. It includes perfusion scanning with MR or PET after a positive angiogram in DanNICAD-2, the PET tracer 18F-sodium fluoride as a marker of high-risk coronary plaques in patients with recent MIs in PREFFIR, and fractional flow reserve- versus angiography-guided PCI in acute MI with multivessel disease in FRAME-AMI.

After a weekend of top-notch science and, no doubt, a spot of revelry, the focus returns on Monday, Aug. 29 to three Hot Line sessions. The first of these, Hot Line 8, updates five clinical trials, including 5-year outcomes from ISCHEMIA-CKD EXTEND, 15-month results from MASTER DAPT, and primary results from FOURIER-OLE, the open-label extension study of evolocumab out to 5 years in approximately 1,600 study participants.

The session closes out with causes of mortality in the FIDELITY trial of finerenone and a win-ratio analysis of PARADISE-MI.

Hot Line 9, billed as an “evidence synthesis on clinically important questions,” includes a Cholesterol Treatment Trialists’ (CTT) Collaboration meta-analysis on the effects of statins on muscle symptoms and a meta-analysis of angiotensin-receptor blockers and beta-blockers in Marfan syndrome from the Marfan Treatment Trialists’ Collaboration.

Also featured is evidence on radial versus femoral access for coronary procedures, and PANTHER, a patient-level meta-analysis of aspirin or P2Y12 inhibitor monotherapy as secondary prevention in patients with established coronary artery disease.

COVID-19, deeply rooted in the minds of attendees and considered in 52 separate sessions, takes over the final Hot Line session of the Congress. Hot Line 10 will report on antithrombotic therapy in critically ill patients in COVID-PACT and on anti-inflammatory therapy with colchicine and antithrombotic therapy with aspirin alone or in combination with rivaroxaban in the ACT inpatient and outpatient trials. Although such early trials have been largely negative, the latest details will be interesting to see, Dr. Windecker suggested.

In terms of COVID-19 protocols, ESC will recommend but not mandate masks and will have test kits available should attendees wish to have a test or if they become symptomatic, he noted.
 

New guidelines released

Four new ESC guidelines will be released during the congress on cardio-oncology, ventricular arrhythmias and sudden cardiac death, pulmonary hypertension, and cardiovascular assessment and management of patients undergoing noncardiac surgery.

In addition to a guideline overview on Friday, one guideline will be featured each day in a 1-hour session, with additional time for discussions with guideline task force members, and six sessions devoted to the implementation of existing guidelines in clinical practice.

The ESC already has a position paper on cardio-oncology, but now, for the first time, has a full guideline with formal laws and level-of-evidence recommendations, Dr. Windecker pointed out.

“I think what will be the great asset, not only of the guideline but out of this emerging field, is that people in the future will probably not only be treated when it’s too late or suffer from toxicity but that there will be screening, and people will be aware before the implementation of therapy,” he added.

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

After 2 years of virtual gatherings, the annual European Society of Cardiology Congress 2022 is back and celebrating its 70th birthday live in the raucously beautiful city of Barcelona.

Much of the upcoming event, scheduled for Aug. 26 to 29, however, will also be broadcast online, and the full program will be available on-demand after the meeting.

The hybrid format is intentional, leveraging the social interaction that only live meetings can provide and the global reach of online access, Program Committee Chair Stephan Windecker, MD, Bern University Hospital, Switzerland, told this news organization.

“It enables a lot of people who, for some reason, cannot travel to still connect, and it also provides what we’ve done in the past, but I think in a more natural way of doing it,” he said. “You can connect later on again, read, digest, look at sessions that you may have missed, and that’s a nice experience to take advantage of.”

Thus far, early registrations are favoring the sunny climes, with about 14,000 onsite and 4,200 online attendees.

This year’s spotlight theme is cardiac imaging, with programming throughout the Congress devoted to its role in diagnosis, treatment, follow-up, and, increasingly, guidance of interventions.

“Particularly as it relates to the transcatheter heart valves, it’s really a new discipline, and I think you can’t overemphasize that enough, because the interventional result directly depends on the quality of imaging,” Dr. Windecker said. “This will certainly logarithmically increase during the next few years.”

The always highly anticipated Hot Line sessions mushroomed this year to 10, featuring 36 studies, up from just 4 sessions and 20 studies last year.

“Especially during the COVID pandemic, many investigators and trialists experienced difficulties in recruitment, difficulties in terms of also personnel shortages, and so on. So really, we feel very privileged at the large number of submissions,” he said. “I think there are really very interesting ones, which we tried to spread throughout the 4 days.”
 

Hot Line sessions 1-5

Among the studies Dr. Windecker highlighted is TIME, which kicks off Hot Line 1 on Friday, Aug. 26, and aimed to establish whether antihypertensive medications taken at night are truly more cardioprotective than those taken in the morning.

The topic has been hotly debated, with proponents pointing to a near halving of mortality and cardiovascular events with bedtime dosing in the Hygia Chronotherapy trial. Skeptics question the validity and conduct of the trial, however, prompting an investigation by the European Heart Journal, which found no evidence of misconduct but has many looking for more definitive data.

Also in this session is SECURE, pitting a cardiovascular polypill that contains aspirin, ramipril, and atorvastatin against usual care in secondary prevention, and PERSPECTIVE, comparing the effects of sacubitril/valsartan with valsartan on cognitive function in patients with chronic heart failure and preserved ejection fraction (HFpEF).

Hot Line 2, the first of three Hot Lines taking place on Saturday, Aug. 27, features the Danish cardiovascular screening trial DANCAVAS, the phase 4 ADVOR trial of acetazolamide (Diamox) in acute decompensated heart failure (HF), and the DANFLU-1 trial of high- versus standard-dose influenza vaccine in the elderly.

Also on tap is the BOX trial, comparing two blood pressure and two oxygenation targets in comatose out-of-hospital cardiac arrest patients.

“It addresses an understudied patient population, and the second element is that sometimes things you do out of ordinary application – so, the application of oxygen – may have beneficial but also adverse impact,” Dr. Windecker said. “So, to study this in a randomized clinical trial is really important.”

Additionally, he highlighted REVIVED, which will be presented in Hot Line 3 and is the first trial to examine percutaneous coronary intervention (PCI) with optimal medical therapy (OMT) versus OMT alone in the setting of severe ischemic cardiomyopathy.

“We have data from the STICH trial, where surgical revascularization was investigated in ischemic cardiomyopathy, but the open question is: What about PCI as revascularization?” Dr. Windecker said. “The other reason it’s interesting is that we have these evidence-based drugs that have dramatically improved outcomes in patients with heart failure, and REVIVED certainly has been conducted now in an era where at least some of these drugs are more systematically implemented.”

Rounding out this session are the Scottish ALL-HEART study of allopurinol in ischemic heart disease and EchoNet-RCT, looking at whether artificial intelligence (AI) can improve the accuracy of echocardiograms.

Hot Line 4 features DELIVER, a phase 3 trial of the SGLT2 inhibitor dapagliflozin (Farxiga) in HF with preserved or mildly reduced ejection fraction. Topline results, released in May, showed that the study has met its primary endpoint of cardiovascular death or worsening HF.

Dr. Windecker said DELIVER will be a “highlight” of the meeting, particularly because EMPEROR-Preserved, presented at ESC 2021, showed a benefit for another SGLT2 inhibitor, empagliflozin, in this very specific setting. Two prespecified analyses will also be presented, pooling data from EMPEROR-Preserved and from the DAPA-HF study of dapagliflozin in patients with reduced EF. “This will be a session very rich in terms of information.”

Another not-to-be-missed session is Hot Line 5, which will focus on antithrombotic therapy, according to Dr. Windecker, who will cochair the Sunday, Aug. 28 session.

First up is the investigator-initiated INVICTUS-VKA, testing rivaroxaban noninferiority versus standard vitamin K antagonists in patients with atrial fibrillation (AFib) and rheumatic heart disease, a setting in which non–vitamin K antagonists have not been sufficiently tested.

This is followed by three phase 2 trials – PACIFIC-AMI, PACIFIC-STROKE, and AXIOMATIC-SSP – investigating the novel factor XIa inhibitors BAY 2433334 and BMS-986177 in patients with myocardial infarction or stroke.
 

Hot Line sessions 6-10

Sunday’s Hot Line 6 takes another look at smartphone-based AFib screening in eBRAVE-HF, use of causal AI to improve the validity of cardiovascular risk prediction, and AI-enhanced detection of aortic stenosis.

Hot Line 7 rounds out the day, putting coronary imaging center stage. It includes perfusion scanning with MR or PET after a positive angiogram in DanNICAD-2, the PET tracer 18F-sodium fluoride as a marker of high-risk coronary plaques in patients with recent MIs in PREFFIR, and fractional flow reserve- versus angiography-guided PCI in acute MI with multivessel disease in FRAME-AMI.

After a weekend of top-notch science and, no doubt, a spot of revelry, the focus returns on Monday, Aug. 29 to three Hot Line sessions. The first of these, Hot Line 8, updates five clinical trials, including 5-year outcomes from ISCHEMIA-CKD EXTEND, 15-month results from MASTER DAPT, and primary results from FOURIER-OLE, the open-label extension study of evolocumab out to 5 years in approximately 1,600 study participants.

The session closes out with causes of mortality in the FIDELITY trial of finerenone and a win-ratio analysis of PARADISE-MI.

Hot Line 9, billed as an “evidence synthesis on clinically important questions,” includes a Cholesterol Treatment Trialists’ (CTT) Collaboration meta-analysis on the effects of statins on muscle symptoms and a meta-analysis of angiotensin-receptor blockers and beta-blockers in Marfan syndrome from the Marfan Treatment Trialists’ Collaboration.

Also featured is evidence on radial versus femoral access for coronary procedures, and PANTHER, a patient-level meta-analysis of aspirin or P2Y12 inhibitor monotherapy as secondary prevention in patients with established coronary artery disease.

COVID-19, deeply rooted in the minds of attendees and considered in 52 separate sessions, takes over the final Hot Line session of the Congress. Hot Line 10 will report on antithrombotic therapy in critically ill patients in COVID-PACT and on anti-inflammatory therapy with colchicine and antithrombotic therapy with aspirin alone or in combination with rivaroxaban in the ACT inpatient and outpatient trials. Although such early trials have been largely negative, the latest details will be interesting to see, Dr. Windecker suggested.

In terms of COVID-19 protocols, ESC will recommend but not mandate masks and will have test kits available should attendees wish to have a test or if they become symptomatic, he noted.
 

New guidelines released

Four new ESC guidelines will be released during the congress on cardio-oncology, ventricular arrhythmias and sudden cardiac death, pulmonary hypertension, and cardiovascular assessment and management of patients undergoing noncardiac surgery.

In addition to a guideline overview on Friday, one guideline will be featured each day in a 1-hour session, with additional time for discussions with guideline task force members, and six sessions devoted to the implementation of existing guidelines in clinical practice.

The ESC already has a position paper on cardio-oncology, but now, for the first time, has a full guideline with formal laws and level-of-evidence recommendations, Dr. Windecker pointed out.

“I think what will be the great asset, not only of the guideline but out of this emerging field, is that people in the future will probably not only be treated when it’s too late or suffer from toxicity but that there will be screening, and people will be aware before the implementation of therapy,” he added.

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

After 2 years of virtual gatherings, the annual European Society of Cardiology Congress 2022 is back and celebrating its 70th birthday live in the raucously beautiful city of Barcelona.

Much of the upcoming event, scheduled for Aug. 26 to 29, however, will also be broadcast online, and the full program will be available on-demand after the meeting.

The hybrid format is intentional, leveraging the social interaction that only live meetings can provide and the global reach of online access, Program Committee Chair Stephan Windecker, MD, Bern University Hospital, Switzerland, told this news organization.

“It enables a lot of people who, for some reason, cannot travel to still connect, and it also provides what we’ve done in the past, but I think in a more natural way of doing it,” he said. “You can connect later on again, read, digest, look at sessions that you may have missed, and that’s a nice experience to take advantage of.”

Thus far, early registrations are favoring the sunny climes, with about 14,000 onsite and 4,200 online attendees.

This year’s spotlight theme is cardiac imaging, with programming throughout the Congress devoted to its role in diagnosis, treatment, follow-up, and, increasingly, guidance of interventions.

“Particularly as it relates to the transcatheter heart valves, it’s really a new discipline, and I think you can’t overemphasize that enough, because the interventional result directly depends on the quality of imaging,” Dr. Windecker said. “This will certainly logarithmically increase during the next few years.”

The always highly anticipated Hot Line sessions mushroomed this year to 10, featuring 36 studies, up from just 4 sessions and 20 studies last year.

“Especially during the COVID pandemic, many investigators and trialists experienced difficulties in recruitment, difficulties in terms of also personnel shortages, and so on. So really, we feel very privileged at the large number of submissions,” he said. “I think there are really very interesting ones, which we tried to spread throughout the 4 days.”
 

Hot Line sessions 1-5

Among the studies Dr. Windecker highlighted is TIME, which kicks off Hot Line 1 on Friday, Aug. 26, and aimed to establish whether antihypertensive medications taken at night are truly more cardioprotective than those taken in the morning.

The topic has been hotly debated, with proponents pointing to a near halving of mortality and cardiovascular events with bedtime dosing in the Hygia Chronotherapy trial. Skeptics question the validity and conduct of the trial, however, prompting an investigation by the European Heart Journal, which found no evidence of misconduct but has many looking for more definitive data.

Also in this session is SECURE, pitting a cardiovascular polypill that contains aspirin, ramipril, and atorvastatin against usual care in secondary prevention, and PERSPECTIVE, comparing the effects of sacubitril/valsartan with valsartan on cognitive function in patients with chronic heart failure and preserved ejection fraction (HFpEF).

Hot Line 2, the first of three Hot Lines taking place on Saturday, Aug. 27, features the Danish cardiovascular screening trial DANCAVAS, the phase 4 ADVOR trial of acetazolamide (Diamox) in acute decompensated heart failure (HF), and the DANFLU-1 trial of high- versus standard-dose influenza vaccine in the elderly.

Also on tap is the BOX trial, comparing two blood pressure and two oxygenation targets in comatose out-of-hospital cardiac arrest patients.

“It addresses an understudied patient population, and the second element is that sometimes things you do out of ordinary application – so, the application of oxygen – may have beneficial but also adverse impact,” Dr. Windecker said. “So, to study this in a randomized clinical trial is really important.”

Additionally, he highlighted REVIVED, which will be presented in Hot Line 3 and is the first trial to examine percutaneous coronary intervention (PCI) with optimal medical therapy (OMT) versus OMT alone in the setting of severe ischemic cardiomyopathy.

“We have data from the STICH trial, where surgical revascularization was investigated in ischemic cardiomyopathy, but the open question is: What about PCI as revascularization?” Dr. Windecker said. “The other reason it’s interesting is that we have these evidence-based drugs that have dramatically improved outcomes in patients with heart failure, and REVIVED certainly has been conducted now in an era where at least some of these drugs are more systematically implemented.”

Rounding out this session are the Scottish ALL-HEART study of allopurinol in ischemic heart disease and EchoNet-RCT, looking at whether artificial intelligence (AI) can improve the accuracy of echocardiograms.

Hot Line 4 features DELIVER, a phase 3 trial of the SGLT2 inhibitor dapagliflozin (Farxiga) in HF with preserved or mildly reduced ejection fraction. Topline results, released in May, showed that the study has met its primary endpoint of cardiovascular death or worsening HF.

Dr. Windecker said DELIVER will be a “highlight” of the meeting, particularly because EMPEROR-Preserved, presented at ESC 2021, showed a benefit for another SGLT2 inhibitor, empagliflozin, in this very specific setting. Two prespecified analyses will also be presented, pooling data from EMPEROR-Preserved and from the DAPA-HF study of dapagliflozin in patients with reduced EF. “This will be a session very rich in terms of information.”

Another not-to-be-missed session is Hot Line 5, which will focus on antithrombotic therapy, according to Dr. Windecker, who will cochair the Sunday, Aug. 28 session.

First up is the investigator-initiated INVICTUS-VKA, testing rivaroxaban noninferiority versus standard vitamin K antagonists in patients with atrial fibrillation (AFib) and rheumatic heart disease, a setting in which non–vitamin K antagonists have not been sufficiently tested.

This is followed by three phase 2 trials – PACIFIC-AMI, PACIFIC-STROKE, and AXIOMATIC-SSP – investigating the novel factor XIa inhibitors BAY 2433334 and BMS-986177 in patients with myocardial infarction or stroke.
 

Hot Line sessions 6-10

Sunday’s Hot Line 6 takes another look at smartphone-based AFib screening in eBRAVE-HF, use of causal AI to improve the validity of cardiovascular risk prediction, and AI-enhanced detection of aortic stenosis.

Hot Line 7 rounds out the day, putting coronary imaging center stage. It includes perfusion scanning with MR or PET after a positive angiogram in DanNICAD-2, the PET tracer 18F-sodium fluoride as a marker of high-risk coronary plaques in patients with recent MIs in PREFFIR, and fractional flow reserve- versus angiography-guided PCI in acute MI with multivessel disease in FRAME-AMI.

After a weekend of top-notch science and, no doubt, a spot of revelry, the focus returns on Monday, Aug. 29 to three Hot Line sessions. The first of these, Hot Line 8, updates five clinical trials, including 5-year outcomes from ISCHEMIA-CKD EXTEND, 15-month results from MASTER DAPT, and primary results from FOURIER-OLE, the open-label extension study of evolocumab out to 5 years in approximately 1,600 study participants.

The session closes out with causes of mortality in the FIDELITY trial of finerenone and a win-ratio analysis of PARADISE-MI.

Hot Line 9, billed as an “evidence synthesis on clinically important questions,” includes a Cholesterol Treatment Trialists’ (CTT) Collaboration meta-analysis on the effects of statins on muscle symptoms and a meta-analysis of angiotensin-receptor blockers and beta-blockers in Marfan syndrome from the Marfan Treatment Trialists’ Collaboration.

Also featured is evidence on radial versus femoral access for coronary procedures, and PANTHER, a patient-level meta-analysis of aspirin or P2Y12 inhibitor monotherapy as secondary prevention in patients with established coronary artery disease.

COVID-19, deeply rooted in the minds of attendees and considered in 52 separate sessions, takes over the final Hot Line session of the Congress. Hot Line 10 will report on antithrombotic therapy in critically ill patients in COVID-PACT and on anti-inflammatory therapy with colchicine and antithrombotic therapy with aspirin alone or in combination with rivaroxaban in the ACT inpatient and outpatient trials. Although such early trials have been largely negative, the latest details will be interesting to see, Dr. Windecker suggested.

In terms of COVID-19 protocols, ESC will recommend but not mandate masks and will have test kits available should attendees wish to have a test or if they become symptomatic, he noted.
 

New guidelines released

Four new ESC guidelines will be released during the congress on cardio-oncology, ventricular arrhythmias and sudden cardiac death, pulmonary hypertension, and cardiovascular assessment and management of patients undergoing noncardiac surgery.

In addition to a guideline overview on Friday, one guideline will be featured each day in a 1-hour session, with additional time for discussions with guideline task force members, and six sessions devoted to the implementation of existing guidelines in clinical practice.

The ESC already has a position paper on cardio-oncology, but now, for the first time, has a full guideline with formal laws and level-of-evidence recommendations, Dr. Windecker pointed out.

“I think what will be the great asset, not only of the guideline but out of this emerging field, is that people in the future will probably not only be treated when it’s too late or suffer from toxicity but that there will be screening, and people will be aware before the implementation of therapy,” he added.

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

What is the real goal of weight loss? In health care, reducing excess body fat is known to improve many complications faced by patients with obesity. Even modest to moderate weight loss contributes to improvements in health. Normalizing body weight is not required.

While our culture promotes an ideal body size, in the health care setting, our attention must focus on achieving health improvement. We need to be more tolerant of variations in body size if patients are healthy. Of note, varying amounts of weight loss produce improvement in the different complications of obesity, so the amount of weight loss required for improving one condition differs from that required to improve another condition.

When we prescribe weight loss for health improvement, we are trying to reduce both the mechanical burden of fat and the excess ectopic and visceral body fat that is driving disease. The good news about the physiology of weight loss is that we do not need to attain a body mass index (BMI) of 25 or even 30 to have health improvement. The excess abnormal body fat is the first to go!

Losing weight causes a disproportional reduction in ectopic and visceral fat depots. With a 5% weight loss, visceral fat is reduced by 9%. With 16% weight loss, visceral fat is reduced by 30%. Clearing of liver fat is even more dramatic. With 16% weight loss, 65% of liver fat is cleared.

Because ectopic abnormal fat is cleared preferentially with weight loss, it affects different tissues with varying amounts of weight loss.
 

Weight loss and diabetes

A close relationship exists between weight loss and insulin sensitivity. With just 5% weight loss, insulin sensitivity in the liver and adipose tissue is greatly improved, but while muscle insulin sensitivity is improved at just 5% weight loss, it continues to improve with further weight loss. Indeed, weight loss has enormous benefits in improving glycemia in prediabetes and diabetes.

In patients with impaired glucose tolerance, weight loss of 10% can eliminate progression to type 2 diabetes. In patients with type 2 diabetes who still have beta-cell reserve, 15% weight loss can produce diabetes remission – normoglycemia without diabetes medications.
 

Weight loss and cardiovascular risk factors

Even very small amounts of weight loss – 3% – can improve triglycerides and glycemia. It takes 5% weight loss to show benefits in systolic and diastolic blood pressure, as well as in HDL and LDL cholesterol levels. For all of these, additional weight loss brings more improvement. Inflammatory markers are more difficult. It takes 10%-15% weight loss to improve most of these – for example, C-reactive protein.

Weight loss and other complications

It takes 10% or more weight loss to demonstrate improvements in symptoms in obstructive sleep apnea and gastroesophageal reflux disease. For knee pain, the relationship to improvement is not based on achieving a percentage loss. Each pound of weight lost can result in a fourfold reduction in the load exerted on the knee per step during daily activities, but it is important to reduce weight before there is structural damage, because weight loss can’t repair damaged knee joints. Moderate weight loss (5%-10%) produces improvements in quality-of-life measures, in urinary stress incontinence symptoms, and in measures of sexual function. It probably takes 15% or more weight loss to demonstrate improvement in cardiovascular events.

Must heavier patients lose more weight?

To answer this question, it is important to think in terms of percent weight loss rather than pounds or kilograms. In large studies of lifestyle intervention, of course individuals with higher BMI lost more weight. But the percentage weight loss was the same across BMI categories: class 1 (BMI 30-35), class 2 (BMI 35-40), class 3 (BMI > 40). Furthermore, the improvement in risk factors was the same across BMI categories. Those with class 3 obesity had the same improvements as those with class 1. This provides further rationale for thinking about weight loss as a percentage from baseline weight rather than as simply a weight-loss goal in pounds.

Goal setting is an important part of any behavioral intervention

At the start of a weight-loss intervention, the health care provider should raise the issue of the goal and the time course for achieving it. Patients often have unrealistic expectations, wanting to achieve large amounts of weight loss rapidly. Unfortunately, popular culture has reinforced this idea with advertisements using “lose 10 pounds the first week” and promoting before-and-after pictures of weight-loss results. The job of the health care provider is to coach and guide the patient in terms of achievable weight loss that can bring health improvement safely. Managing patient expectations is critical to long-term success.

Think in terms of percentage weight loss, not pounds, and set goals at achievable time points

Help patients translate a percent weight-loss goal to a pounds goal at 3, 6, and 12 months. With the emergence of medications approved for chronic weight management with robust weight-loss efficacy, it now is possible to achieve a weight-loss goal of 10% or 15% with regularity, and some patients will be able to achieve 20% or 25% weight loss with newer medications.

We should help our patients set a goal by calculating a goal for certain time points. A good goal for 3 months would be 5% weight loss. For our 200-lb patient, we would translate that to 10 lb in 3 months. For 6 months, the goal should be 10% (20 lb for our 200-lb patient). The usual trajectory of weight loss with lifestyle intervention alone is for a “plateau” at 6 months, although with newer medications, weight loss will continue for more than a year. That 1-year goal might be 15% (30 lb for our 200-lb patient) or even more, based on the patient’s baseline weight and body composition.

Weight-loss calculators can be useful tools for patients and health care providers. They can be found online and include the National Institutes of Health Body Weight Planner and the Pennington Biomedical Weight Loss Predictor Calculator. These tools give patients a realistic expectation of how fast weight loss can occur and provide guidelines to measure success.
 

Can patients lose too much weight?

In this patient population, losing too much weight is not typically a concern. However, newer medications are achieving average weight losses of 17% and 22% at 62 weeks, as reported by this news organization. There is a wide variation in response to these newer agents which target appetite, and many patients are losing more than the average percentages.

Remembering that the goal of weight loss is the reduction of excess abnormal body fat, we want patients to preserve as much lean mass as possible. Weight-bearing exercise can help during the weight-loss phase, but large or rapid weight loss can be concerning, especially in older individuals. When the BMI drops below 25, we want to watch patients carefully. Measurement of body composition, including bone mineral density, with dual-energy x-ray absorptiometry (DEXA) can help. This is a scenario where dose reduction of antiobesity medication can be indicated, and good clinical judgment is required to keep weight loss at healthy levels.
 

The future of weight loss

In the past, our strategy has been to promote as much weight loss as possible. With more effective medications, our strategy will have to change to a treat-to-target approach, such as we already use in hypertension and diabetes.

With the ability to produce powerful effects on appetite will come the need to not only target weight loss but to target preservation of lean mass and even to target different approaches for weight-loss maintenance. At present, we have no evidence that stopping medications results in anything other than weight regain. The study of different approaches to weight-loss maintenance will require our full attention.

Dr. Ryan has disclosed the following relevant financial relationships: Serve(d) as a director, officer, partner, employee, consultant, or trustee for: Altimmune; Amgen; Calibrate; Epitomee; Gila; Lilly; Novo Nordisk; Scientific Intake; Wondr Health; Xeno Biosciences; YSOPIA; Zealand. Received income in an amount equal to or greater than $250 from: Altimmune; Amgen; Calibrate; Epitomee; Gila; Lilly; Novo Nordisk; Scientific Intake; Wondr Health; Xeno Biosciences; YSOPIA; Zealand.

Donna Ryan, MD, is Professor Emerita, Pennington Biomedical Research Center, Louisiana State University, New Orleans.

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

What is the real goal of weight loss? In health care, reducing excess body fat is known to improve many complications faced by patients with obesity. Even modest to moderate weight loss contributes to improvements in health. Normalizing body weight is not required.

While our culture promotes an ideal body size, in the health care setting, our attention must focus on achieving health improvement. We need to be more tolerant of variations in body size if patients are healthy. Of note, varying amounts of weight loss produce improvement in the different complications of obesity, so the amount of weight loss required for improving one condition differs from that required to improve another condition.

When we prescribe weight loss for health improvement, we are trying to reduce both the mechanical burden of fat and the excess ectopic and visceral body fat that is driving disease. The good news about the physiology of weight loss is that we do not need to attain a body mass index (BMI) of 25 or even 30 to have health improvement. The excess abnormal body fat is the first to go!

Losing weight causes a disproportional reduction in ectopic and visceral fat depots. With a 5% weight loss, visceral fat is reduced by 9%. With 16% weight loss, visceral fat is reduced by 30%. Clearing of liver fat is even more dramatic. With 16% weight loss, 65% of liver fat is cleared.

Because ectopic abnormal fat is cleared preferentially with weight loss, it affects different tissues with varying amounts of weight loss.
 

Weight loss and diabetes

A close relationship exists between weight loss and insulin sensitivity. With just 5% weight loss, insulin sensitivity in the liver and adipose tissue is greatly improved, but while muscle insulin sensitivity is improved at just 5% weight loss, it continues to improve with further weight loss. Indeed, weight loss has enormous benefits in improving glycemia in prediabetes and diabetes.

In patients with impaired glucose tolerance, weight loss of 10% can eliminate progression to type 2 diabetes. In patients with type 2 diabetes who still have beta-cell reserve, 15% weight loss can produce diabetes remission – normoglycemia without diabetes medications.
 

Weight loss and cardiovascular risk factors

Even very small amounts of weight loss – 3% – can improve triglycerides and glycemia. It takes 5% weight loss to show benefits in systolic and diastolic blood pressure, as well as in HDL and LDL cholesterol levels. For all of these, additional weight loss brings more improvement. Inflammatory markers are more difficult. It takes 10%-15% weight loss to improve most of these – for example, C-reactive protein.

Weight loss and other complications

It takes 10% or more weight loss to demonstrate improvements in symptoms in obstructive sleep apnea and gastroesophageal reflux disease. For knee pain, the relationship to improvement is not based on achieving a percentage loss. Each pound of weight lost can result in a fourfold reduction in the load exerted on the knee per step during daily activities, but it is important to reduce weight before there is structural damage, because weight loss can’t repair damaged knee joints. Moderate weight loss (5%-10%) produces improvements in quality-of-life measures, in urinary stress incontinence symptoms, and in measures of sexual function. It probably takes 15% or more weight loss to demonstrate improvement in cardiovascular events.

Must heavier patients lose more weight?

To answer this question, it is important to think in terms of percent weight loss rather than pounds or kilograms. In large studies of lifestyle intervention, of course individuals with higher BMI lost more weight. But the percentage weight loss was the same across BMI categories: class 1 (BMI 30-35), class 2 (BMI 35-40), class 3 (BMI > 40). Furthermore, the improvement in risk factors was the same across BMI categories. Those with class 3 obesity had the same improvements as those with class 1. This provides further rationale for thinking about weight loss as a percentage from baseline weight rather than as simply a weight-loss goal in pounds.

Goal setting is an important part of any behavioral intervention

At the start of a weight-loss intervention, the health care provider should raise the issue of the goal and the time course for achieving it. Patients often have unrealistic expectations, wanting to achieve large amounts of weight loss rapidly. Unfortunately, popular culture has reinforced this idea with advertisements using “lose 10 pounds the first week” and promoting before-and-after pictures of weight-loss results. The job of the health care provider is to coach and guide the patient in terms of achievable weight loss that can bring health improvement safely. Managing patient expectations is critical to long-term success.

Think in terms of percentage weight loss, not pounds, and set goals at achievable time points

Help patients translate a percent weight-loss goal to a pounds goal at 3, 6, and 12 months. With the emergence of medications approved for chronic weight management with robust weight-loss efficacy, it now is possible to achieve a weight-loss goal of 10% or 15% with regularity, and some patients will be able to achieve 20% or 25% weight loss with newer medications.

We should help our patients set a goal by calculating a goal for certain time points. A good goal for 3 months would be 5% weight loss. For our 200-lb patient, we would translate that to 10 lb in 3 months. For 6 months, the goal should be 10% (20 lb for our 200-lb patient). The usual trajectory of weight loss with lifestyle intervention alone is for a “plateau” at 6 months, although with newer medications, weight loss will continue for more than a year. That 1-year goal might be 15% (30 lb for our 200-lb patient) or even more, based on the patient’s baseline weight and body composition.

Weight-loss calculators can be useful tools for patients and health care providers. They can be found online and include the National Institutes of Health Body Weight Planner and the Pennington Biomedical Weight Loss Predictor Calculator. These tools give patients a realistic expectation of how fast weight loss can occur and provide guidelines to measure success.
 

Can patients lose too much weight?

In this patient population, losing too much weight is not typically a concern. However, newer medications are achieving average weight losses of 17% and 22% at 62 weeks, as reported by this news organization. There is a wide variation in response to these newer agents which target appetite, and many patients are losing more than the average percentages.

Remembering that the goal of weight loss is the reduction of excess abnormal body fat, we want patients to preserve as much lean mass as possible. Weight-bearing exercise can help during the weight-loss phase, but large or rapid weight loss can be concerning, especially in older individuals. When the BMI drops below 25, we want to watch patients carefully. Measurement of body composition, including bone mineral density, with dual-energy x-ray absorptiometry (DEXA) can help. This is a scenario where dose reduction of antiobesity medication can be indicated, and good clinical judgment is required to keep weight loss at healthy levels.
 

The future of weight loss

In the past, our strategy has been to promote as much weight loss as possible. With more effective medications, our strategy will have to change to a treat-to-target approach, such as we already use in hypertension and diabetes.

With the ability to produce powerful effects on appetite will come the need to not only target weight loss but to target preservation of lean mass and even to target different approaches for weight-loss maintenance. At present, we have no evidence that stopping medications results in anything other than weight regain. The study of different approaches to weight-loss maintenance will require our full attention.

Dr. Ryan has disclosed the following relevant financial relationships: Serve(d) as a director, officer, partner, employee, consultant, or trustee for: Altimmune; Amgen; Calibrate; Epitomee; Gila; Lilly; Novo Nordisk; Scientific Intake; Wondr Health; Xeno Biosciences; YSOPIA; Zealand. Received income in an amount equal to or greater than $250 from: Altimmune; Amgen; Calibrate; Epitomee; Gila; Lilly; Novo Nordisk; Scientific Intake; Wondr Health; Xeno Biosciences; YSOPIA; Zealand.

Donna Ryan, MD, is Professor Emerita, Pennington Biomedical Research Center, Louisiana State University, New Orleans.

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

What is the real goal of weight loss? In health care, reducing excess body fat is known to improve many complications faced by patients with obesity. Even modest to moderate weight loss contributes to improvements in health. Normalizing body weight is not required.

While our culture promotes an ideal body size, in the health care setting, our attention must focus on achieving health improvement. We need to be more tolerant of variations in body size if patients are healthy. Of note, varying amounts of weight loss produce improvement in the different complications of obesity, so the amount of weight loss required for improving one condition differs from that required to improve another condition.

When we prescribe weight loss for health improvement, we are trying to reduce both the mechanical burden of fat and the excess ectopic and visceral body fat that is driving disease. The good news about the physiology of weight loss is that we do not need to attain a body mass index (BMI) of 25 or even 30 to have health improvement. The excess abnormal body fat is the first to go!

Losing weight causes a disproportional reduction in ectopic and visceral fat depots. With a 5% weight loss, visceral fat is reduced by 9%. With 16% weight loss, visceral fat is reduced by 30%. Clearing of liver fat is even more dramatic. With 16% weight loss, 65% of liver fat is cleared.

Because ectopic abnormal fat is cleared preferentially with weight loss, it affects different tissues with varying amounts of weight loss.
 

Weight loss and diabetes

A close relationship exists between weight loss and insulin sensitivity. With just 5% weight loss, insulin sensitivity in the liver and adipose tissue is greatly improved, but while muscle insulin sensitivity is improved at just 5% weight loss, it continues to improve with further weight loss. Indeed, weight loss has enormous benefits in improving glycemia in prediabetes and diabetes.

In patients with impaired glucose tolerance, weight loss of 10% can eliminate progression to type 2 diabetes. In patients with type 2 diabetes who still have beta-cell reserve, 15% weight loss can produce diabetes remission – normoglycemia without diabetes medications.
 

Weight loss and cardiovascular risk factors

Even very small amounts of weight loss – 3% – can improve triglycerides and glycemia. It takes 5% weight loss to show benefits in systolic and diastolic blood pressure, as well as in HDL and LDL cholesterol levels. For all of these, additional weight loss brings more improvement. Inflammatory markers are more difficult. It takes 10%-15% weight loss to improve most of these – for example, C-reactive protein.

Weight loss and other complications

It takes 10% or more weight loss to demonstrate improvements in symptoms in obstructive sleep apnea and gastroesophageal reflux disease. For knee pain, the relationship to improvement is not based on achieving a percentage loss. Each pound of weight lost can result in a fourfold reduction in the load exerted on the knee per step during daily activities, but it is important to reduce weight before there is structural damage, because weight loss can’t repair damaged knee joints. Moderate weight loss (5%-10%) produces improvements in quality-of-life measures, in urinary stress incontinence symptoms, and in measures of sexual function. It probably takes 15% or more weight loss to demonstrate improvement in cardiovascular events.

Must heavier patients lose more weight?

To answer this question, it is important to think in terms of percent weight loss rather than pounds or kilograms. In large studies of lifestyle intervention, of course individuals with higher BMI lost more weight. But the percentage weight loss was the same across BMI categories: class 1 (BMI 30-35), class 2 (BMI 35-40), class 3 (BMI > 40). Furthermore, the improvement in risk factors was the same across BMI categories. Those with class 3 obesity had the same improvements as those with class 1. This provides further rationale for thinking about weight loss as a percentage from baseline weight rather than as simply a weight-loss goal in pounds.

Goal setting is an important part of any behavioral intervention

At the start of a weight-loss intervention, the health care provider should raise the issue of the goal and the time course for achieving it. Patients often have unrealistic expectations, wanting to achieve large amounts of weight loss rapidly. Unfortunately, popular culture has reinforced this idea with advertisements using “lose 10 pounds the first week” and promoting before-and-after pictures of weight-loss results. The job of the health care provider is to coach and guide the patient in terms of achievable weight loss that can bring health improvement safely. Managing patient expectations is critical to long-term success.

Think in terms of percentage weight loss, not pounds, and set goals at achievable time points

Help patients translate a percent weight-loss goal to a pounds goal at 3, 6, and 12 months. With the emergence of medications approved for chronic weight management with robust weight-loss efficacy, it now is possible to achieve a weight-loss goal of 10% or 15% with regularity, and some patients will be able to achieve 20% or 25% weight loss with newer medications.

We should help our patients set a goal by calculating a goal for certain time points. A good goal for 3 months would be 5% weight loss. For our 200-lb patient, we would translate that to 10 lb in 3 months. For 6 months, the goal should be 10% (20 lb for our 200-lb patient). The usual trajectory of weight loss with lifestyle intervention alone is for a “plateau” at 6 months, although with newer medications, weight loss will continue for more than a year. That 1-year goal might be 15% (30 lb for our 200-lb patient) or even more, based on the patient’s baseline weight and body composition.

Weight-loss calculators can be useful tools for patients and health care providers. They can be found online and include the National Institutes of Health Body Weight Planner and the Pennington Biomedical Weight Loss Predictor Calculator. These tools give patients a realistic expectation of how fast weight loss can occur and provide guidelines to measure success.
 

Can patients lose too much weight?

In this patient population, losing too much weight is not typically a concern. However, newer medications are achieving average weight losses of 17% and 22% at 62 weeks, as reported by this news organization. There is a wide variation in response to these newer agents which target appetite, and many patients are losing more than the average percentages.

Remembering that the goal of weight loss is the reduction of excess abnormal body fat, we want patients to preserve as much lean mass as possible. Weight-bearing exercise can help during the weight-loss phase, but large or rapid weight loss can be concerning, especially in older individuals. When the BMI drops below 25, we want to watch patients carefully. Measurement of body composition, including bone mineral density, with dual-energy x-ray absorptiometry (DEXA) can help. This is a scenario where dose reduction of antiobesity medication can be indicated, and good clinical judgment is required to keep weight loss at healthy levels.
 

The future of weight loss

In the past, our strategy has been to promote as much weight loss as possible. With more effective medications, our strategy will have to change to a treat-to-target approach, such as we already use in hypertension and diabetes.

With the ability to produce powerful effects on appetite will come the need to not only target weight loss but to target preservation of lean mass and even to target different approaches for weight-loss maintenance. At present, we have no evidence that stopping medications results in anything other than weight regain. The study of different approaches to weight-loss maintenance will require our full attention.

Dr. Ryan has disclosed the following relevant financial relationships: Serve(d) as a director, officer, partner, employee, consultant, or trustee for: Altimmune; Amgen; Calibrate; Epitomee; Gila; Lilly; Novo Nordisk; Scientific Intake; Wondr Health; Xeno Biosciences; YSOPIA; Zealand. Received income in an amount equal to or greater than $250 from: Altimmune; Amgen; Calibrate; Epitomee; Gila; Lilly; Novo Nordisk; Scientific Intake; Wondr Health; Xeno Biosciences; YSOPIA; Zealand.

Donna Ryan, MD, is Professor Emerita, Pennington Biomedical Research Center, Louisiana State University, New Orleans.

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

Adults aged 85 years and older who logged an hour or more of walking each week had a 40% reduced risk of all-cause mortality compared with less active peers, according to data from more than 7,000 individuals.

“Aging is accompanied by reduced physical activity and increased sedentary behavior, and reduced physical activity is associated with decreased life expectancy,” Moo-Nyun Jin, MD, of Inje University Sanggye Paik Hospital, Seoul, South Korea, said in an interview.

Reduced physical activity was especially likely in the elderly during the COVID-19 pandemic, he added.

oneinchpunch/Thinkstock

“Promoting walking may be a simple way to help older adults avoid inactivity and encourage an active lifestyle for all-cause and cardiovascular mortality risk reduction,” Dr. Jin said.

Although walking is generally an easy form of exercise for the older adult population, the specific benefit of walking on reducing mortality has not been well studied, according to Dr. Jin and colleagues.

For adults of any age, current guidelines recommend at least 150 minutes per week of moderate activity or 75 minutes per week of vigorous activity, but the amount of physical activity tends to decline with age, and activity recommendations are more difficult to meet, the authors wrote in a press release accompanying their study.

In the study, to be presented at the European Society of Cardiology Congress on Aug. 28 (Abstract 85643), the researchers reviewed data from 7,047 adults aged 85 years and older who participated in the Korean National Health Screening Program. The average age of the study population was 87 years, and 68% were women. Participants completed questionnaires about the amount of time spent in leisure time activities each week, including walking at a slow pace, moderate activity (such as cycling or brisk walking), and vigorous activity (such as running).

Those who walked at a slow pace for at least 1 hour per week had a 40% reduced risk of all-cause mortality and a 39% reduced risk of cardiovascular mortality, compared with inactive participants.

The proportions of participants who reported walking, moderate activity,­ and vigorous ­intensity physical activity were 42.5%, 14.7%, and 11.0%, respectively. Roughly one-third (33%) of those who reported slow walking each week also reported moderate or vigorous physical activity.

However, walking for 1 hour per week significantly reduced the risk for all-cause mortality and cardiovascular mortality among individuals who reported walking only, without other moderate or vigorous physical activity (hazard ratio, 0.50 and 0.46, respectively).

“Walking was linked with a lower likelihood of dying in older adults, regardless of whether or not they did any moderate to vigorous intensity physical activity,” Dr. Jin told this news organization. “Our study indicates that walking even just 1 hour every week is advantageous to those aged 85 years and older compared to being inactive.”

The hour of walking need not be in long bouts, 10 minutes each day will do, Dr. Jin added.

The participants were divided into five groups based on reported amount of weekly walking. More than half (57.5%) reported no slow walking, 8.5% walked less than 1 hour per week, 12.0% walked 1-2 hours, 8.7% walked 2-3 hours, and 13.3% walked more than 3 hours.

Although the study was limited by the reliance on self-reports, the results were strengthened by the large sample size and support the value of easy walking for adults aged 85 years and older compared to being inactive.

“Walking may present an opportunity for promoting physical activity among the elderly population, offering a simple way to avoid inactivity and increase physical activity,” said Dr. Jin. However, more research is needed to evaluate the association between mortality and walking by objective measurement of walking levels, using a device such as a smart watch, he noted.

 

Results are preliminary

“This is an observational study, not an experiment, so it means causality cannot be presumed,” said Maria Fiatarone Singh, MD, a geriatrician with a focus on exercise physiology at the University of Sydney, in an interview. “In other words, it is possible that diseases resulting in mortality prevented people from walking rather than the other way around,” she noted. The only published experimental study on exercise and mortality in older adults was conducted by Dr. Fiatarone Singh and colleagues in Norway. In that study, published in the British Medical Journal in 2020, high-intensity training programs were associated with reduced all-cause mortality compared with inactive controls and individuals who engaged in moderate intensity exercise.

The current study “would have needed to control for many factors related to mortality, such as cardiovascular disease, hypertension, diabetes, malnutrition, and dementia to see what residual benefit might be related to walking,” Dr. Fiatarone Singh said.

“Although walking seems easy and safe, in fact people who are frail, sarcopenic, osteoporotic, or have fallen are recommended to do resistance and balance training rather than walking, and add walking later when they are able to do it safely,” she emphasized.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Fiatarone Singh had no financial conflicts to disclose.

Adults aged 85 years and older who logged an hour or more of walking each week had a 40% reduced risk of all-cause mortality compared with less active peers, according to data from more than 7,000 individuals.

“Aging is accompanied by reduced physical activity and increased sedentary behavior, and reduced physical activity is associated with decreased life expectancy,” Moo-Nyun Jin, MD, of Inje University Sanggye Paik Hospital, Seoul, South Korea, said in an interview.

Reduced physical activity was especially likely in the elderly during the COVID-19 pandemic, he added.

oneinchpunch/Thinkstock

“Promoting walking may be a simple way to help older adults avoid inactivity and encourage an active lifestyle for all-cause and cardiovascular mortality risk reduction,” Dr. Jin said.

Although walking is generally an easy form of exercise for the older adult population, the specific benefit of walking on reducing mortality has not been well studied, according to Dr. Jin and colleagues.

For adults of any age, current guidelines recommend at least 150 minutes per week of moderate activity or 75 minutes per week of vigorous activity, but the amount of physical activity tends to decline with age, and activity recommendations are more difficult to meet, the authors wrote in a press release accompanying their study.

In the study, to be presented at the European Society of Cardiology Congress on Aug. 28 (Abstract 85643), the researchers reviewed data from 7,047 adults aged 85 years and older who participated in the Korean National Health Screening Program. The average age of the study population was 87 years, and 68% were women. Participants completed questionnaires about the amount of time spent in leisure time activities each week, including walking at a slow pace, moderate activity (such as cycling or brisk walking), and vigorous activity (such as running).

Those who walked at a slow pace for at least 1 hour per week had a 40% reduced risk of all-cause mortality and a 39% reduced risk of cardiovascular mortality, compared with inactive participants.

The proportions of participants who reported walking, moderate activity,­ and vigorous ­intensity physical activity were 42.5%, 14.7%, and 11.0%, respectively. Roughly one-third (33%) of those who reported slow walking each week also reported moderate or vigorous physical activity.

However, walking for 1 hour per week significantly reduced the risk for all-cause mortality and cardiovascular mortality among individuals who reported walking only, without other moderate or vigorous physical activity (hazard ratio, 0.50 and 0.46, respectively).

“Walking was linked with a lower likelihood of dying in older adults, regardless of whether or not they did any moderate to vigorous intensity physical activity,” Dr. Jin told this news organization. “Our study indicates that walking even just 1 hour every week is advantageous to those aged 85 years and older compared to being inactive.”

The hour of walking need not be in long bouts, 10 minutes each day will do, Dr. Jin added.

The participants were divided into five groups based on reported amount of weekly walking. More than half (57.5%) reported no slow walking, 8.5% walked less than 1 hour per week, 12.0% walked 1-2 hours, 8.7% walked 2-3 hours, and 13.3% walked more than 3 hours.

Although the study was limited by the reliance on self-reports, the results were strengthened by the large sample size and support the value of easy walking for adults aged 85 years and older compared to being inactive.

“Walking may present an opportunity for promoting physical activity among the elderly population, offering a simple way to avoid inactivity and increase physical activity,” said Dr. Jin. However, more research is needed to evaluate the association between mortality and walking by objective measurement of walking levels, using a device such as a smart watch, he noted.

 

Results are preliminary

“This is an observational study, not an experiment, so it means causality cannot be presumed,” said Maria Fiatarone Singh, MD, a geriatrician with a focus on exercise physiology at the University of Sydney, in an interview. “In other words, it is possible that diseases resulting in mortality prevented people from walking rather than the other way around,” she noted. The only published experimental study on exercise and mortality in older adults was conducted by Dr. Fiatarone Singh and colleagues in Norway. In that study, published in the British Medical Journal in 2020, high-intensity training programs were associated with reduced all-cause mortality compared with inactive controls and individuals who engaged in moderate intensity exercise.

The current study “would have needed to control for many factors related to mortality, such as cardiovascular disease, hypertension, diabetes, malnutrition, and dementia to see what residual benefit might be related to walking,” Dr. Fiatarone Singh said.

“Although walking seems easy and safe, in fact people who are frail, sarcopenic, osteoporotic, or have fallen are recommended to do resistance and balance training rather than walking, and add walking later when they are able to do it safely,” she emphasized.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Fiatarone Singh had no financial conflicts to disclose.

Adults aged 85 years and older who logged an hour or more of walking each week had a 40% reduced risk of all-cause mortality compared with less active peers, according to data from more than 7,000 individuals.

“Aging is accompanied by reduced physical activity and increased sedentary behavior, and reduced physical activity is associated with decreased life expectancy,” Moo-Nyun Jin, MD, of Inje University Sanggye Paik Hospital, Seoul, South Korea, said in an interview.

Reduced physical activity was especially likely in the elderly during the COVID-19 pandemic, he added.

oneinchpunch/Thinkstock

“Promoting walking may be a simple way to help older adults avoid inactivity and encourage an active lifestyle for all-cause and cardiovascular mortality risk reduction,” Dr. Jin said.

Although walking is generally an easy form of exercise for the older adult population, the specific benefit of walking on reducing mortality has not been well studied, according to Dr. Jin and colleagues.

For adults of any age, current guidelines recommend at least 150 minutes per week of moderate activity or 75 minutes per week of vigorous activity, but the amount of physical activity tends to decline with age, and activity recommendations are more difficult to meet, the authors wrote in a press release accompanying their study.

In the study, to be presented at the European Society of Cardiology Congress on Aug. 28 (Abstract 85643), the researchers reviewed data from 7,047 adults aged 85 years and older who participated in the Korean National Health Screening Program. The average age of the study population was 87 years, and 68% were women. Participants completed questionnaires about the amount of time spent in leisure time activities each week, including walking at a slow pace, moderate activity (such as cycling or brisk walking), and vigorous activity (such as running).

Those who walked at a slow pace for at least 1 hour per week had a 40% reduced risk of all-cause mortality and a 39% reduced risk of cardiovascular mortality, compared with inactive participants.

The proportions of participants who reported walking, moderate activity,­ and vigorous ­intensity physical activity were 42.5%, 14.7%, and 11.0%, respectively. Roughly one-third (33%) of those who reported slow walking each week also reported moderate or vigorous physical activity.

However, walking for 1 hour per week significantly reduced the risk for all-cause mortality and cardiovascular mortality among individuals who reported walking only, without other moderate or vigorous physical activity (hazard ratio, 0.50 and 0.46, respectively).

“Walking was linked with a lower likelihood of dying in older adults, regardless of whether or not they did any moderate to vigorous intensity physical activity,” Dr. Jin told this news organization. “Our study indicates that walking even just 1 hour every week is advantageous to those aged 85 years and older compared to being inactive.”

The hour of walking need not be in long bouts, 10 minutes each day will do, Dr. Jin added.

The participants were divided into five groups based on reported amount of weekly walking. More than half (57.5%) reported no slow walking, 8.5% walked less than 1 hour per week, 12.0% walked 1-2 hours, 8.7% walked 2-3 hours, and 13.3% walked more than 3 hours.

Although the study was limited by the reliance on self-reports, the results were strengthened by the large sample size and support the value of easy walking for adults aged 85 years and older compared to being inactive.

“Walking may present an opportunity for promoting physical activity among the elderly population, offering a simple way to avoid inactivity and increase physical activity,” said Dr. Jin. However, more research is needed to evaluate the association between mortality and walking by objective measurement of walking levels, using a device such as a smart watch, he noted.

 

Results are preliminary

“This is an observational study, not an experiment, so it means causality cannot be presumed,” said Maria Fiatarone Singh, MD, a geriatrician with a focus on exercise physiology at the University of Sydney, in an interview. “In other words, it is possible that diseases resulting in mortality prevented people from walking rather than the other way around,” she noted. The only published experimental study on exercise and mortality in older adults was conducted by Dr. Fiatarone Singh and colleagues in Norway. In that study, published in the British Medical Journal in 2020, high-intensity training programs were associated with reduced all-cause mortality compared with inactive controls and individuals who engaged in moderate intensity exercise.

The current study “would have needed to control for many factors related to mortality, such as cardiovascular disease, hypertension, diabetes, malnutrition, and dementia to see what residual benefit might be related to walking,” Dr. Fiatarone Singh said.

“Although walking seems easy and safe, in fact people who are frail, sarcopenic, osteoporotic, or have fallen are recommended to do resistance and balance training rather than walking, and add walking later when they are able to do it safely,” she emphasized.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Fiatarone Singh had no financial conflicts to disclose.

Cholesterol levels in American adults have improved over the previous decade, but a large cross-sectional analysis of more than 30,000 U.S. adults has found notable disparities in cholesterol control, particularly among Asian adults, lower lipid control rates among Black and other Hispanic adults compared to Whites, and no appreciable improvements for people taking statins.

“We found that total cholesterol improved significantly among U.S. adults from 2008 to 2018,” senior study author Rishi Wadhera, MD, of Beth Israel Deaconess Medical Center in Boston, said in an interview. “When we looked at rates of lipid control among adults treated with statins, we found no significant improvements from 2008 through 2018.”

He noted the patterns for lipid control were consistent for women and men, adding, “In contrast to all other racial and ethnic groups, Mexican American and Black adults did experience significant improvements in cholesterol control. Despite this progress, rates of cholesterol control still remained significantly lower in Black adults compared to White adults.”

The study analyzed lipid concentrations from 33,040 adults ages 20 and older from the National Health and Nutrition Examination Surveys (NHANES), using 2007-2008 as the baseline and 2017-2018 as the endpoint. With lipid control defined as total cholesterol of 200 mg/dL or less, the analysis showed that total cholesterol improved in the overall population from 197 to 189 mg/dL in that time (95% confidence interval, –12.2 to –4.9 mg/dL; P < .001).

The study analyzed lipid trends in several demographic categories. Age-adjusted total cholesterol for women improved significantly, from 199 to 192 mg/dL (95% confidence interval [CI], –11.6 to –3.6 mg/dL; P < .001), but improved slightly more for men, from 195 to 185 mg/dL (95% CI, –14 to –5.1 mg/dL; P < .001).

Overall, age-adjusted total cholesterol improved significantly for Blacks (–7.8 mg/dL), Mexican Americans (–11.3 mg/dL), other Hispanic adults (–8 mg/dL) and Whites (–8.8 mg/dL; P < .001 for all), but not for Asian adults, measured from 2011-2012 to 2017-2018: –.2 mg/dL (95% CI, –6.5 to 6.2 mg/dL; P = .9).

The study found that LDL cholesterol, on an age-adjusted basis, improved significantly overall, from 116 mg/dL in 2007-2008 to 111 mg/dL in 2017-2018 (95% CI, –8.3 to –1.4 mg/dL; P = .001). However, unlike total cholesterol, this improvement didn’t carry over to most ethnic groups. Mexican American adults (–8 mg/dL; P = .01) and Whites (–5.9 mg/dL; P = .001) showed significant improvements, but Asian, Black or other Hispanic adults didn’t.

The study also evaluated lipid control in people taking statins and found that, overall, it didn’t change significantly: from 78.5% in 2007-2008 to 79.5% in 2017-2018 (P = .27). Mexican American adults were the only ethnic group that showed significant improvement in lipid control, going from 73% in 2007-2008 to 86.5% in 2017-2018 (P = .008).

Disparities in lipid control

Women had notably lower lipid control rates than men, with an odds ratio of .52 in 2007-2010 (P < .001), with similar patterns found in 2011-2014 (OR, 0.48) and 2015-2018 (OR, 0.54, P < .001 for both).

Lipid control worsened over time for Black and other Hispanic adults compared to Whites. In 2007-2010, lipid control rates among the studied ethnic groups were similar, a trend that carried over to the 2011-2014 study interval and included Asian adults. However, in 2015-2018, Blacks had lower rates of lipid control compared to Whites (OR, 0.66; 95% CI, .47-.94; P = .03), as did other Hispanic adults (OR, 0.59; 95% CI, .37-.95; P = .04).

These disparities between sexes and ethnic groups warrant further investigation, Dr. Wadhera said. “We were surprised that women had significantly lower rates of cholesterol control than men,” he said. “We need to better understand whether gaps in care, such barriers in access, less frequent lab monitoring of cholesterol, or less intensive prescribing of important treatments, contribute to these differences.”

He called the lower lipid control rates in Black and Hispanic adults “concerning, especially because rates of heart attacks and strokes remain high in these groups. ... Efforts to identify gaps in care and increase and intensify medical therapy are needed, as treatment rates in these populations are low.”

While the study collected data before the COVID-19 pandemic, Dr. Wadhera acknowledged that the management of cardiovascular risk factors may have worsened because of it. “Monitoring cholesterol levels and control rates in the U.S. population as we emerge from the pandemic will be critically important,” he said.

In an accompanying editorial, Hermes Florez, MD, PhD, of the Medical University of South Carolina in Charleston, and colleagues called for adequately powered studies to further investigate the disparities in the Asian and Hispanic populations. “Worse rates of cholesterol control observed in women and in minority populations deserve special attention,” they wrote.

They noted that future studies should consider the impact of guidelines and recommendations that emerged since the study started, namely from the American College of Cardiology/American Heart Association 2013 guidelines, Healthy People 2030, and the U.S. Preventive Services Task Force (JAMA. 2022 Aug 23. doi: 10.1001/jama.2022.13044).

“More important, future work must focus on how to effectively eliminate those disparities and better control modifiable risk factors to enhance outcomes for all individuals regardless of race and ethnicity,” Dr. Florez and colleagues wrote.

The study received funding from the National Heart, Lung, and Blood Institute. Dr. Wadhera disclosed relationships with CVS Health and Abbott. Dr. Florez and colleagues have no disclosures.

Cholesterol levels in American adults have improved over the previous decade, but a large cross-sectional analysis of more than 30,000 U.S. adults has found notable disparities in cholesterol control, particularly among Asian adults, lower lipid control rates among Black and other Hispanic adults compared to Whites, and no appreciable improvements for people taking statins.

“We found that total cholesterol improved significantly among U.S. adults from 2008 to 2018,” senior study author Rishi Wadhera, MD, of Beth Israel Deaconess Medical Center in Boston, said in an interview. “When we looked at rates of lipid control among adults treated with statins, we found no significant improvements from 2008 through 2018.”

He noted the patterns for lipid control were consistent for women and men, adding, “In contrast to all other racial and ethnic groups, Mexican American and Black adults did experience significant improvements in cholesterol control. Despite this progress, rates of cholesterol control still remained significantly lower in Black adults compared to White adults.”

The study analyzed lipid concentrations from 33,040 adults ages 20 and older from the National Health and Nutrition Examination Surveys (NHANES), using 2007-2008 as the baseline and 2017-2018 as the endpoint. With lipid control defined as total cholesterol of 200 mg/dL or less, the analysis showed that total cholesterol improved in the overall population from 197 to 189 mg/dL in that time (95% confidence interval, –12.2 to –4.9 mg/dL; P < .001).

The study analyzed lipid trends in several demographic categories. Age-adjusted total cholesterol for women improved significantly, from 199 to 192 mg/dL (95% confidence interval [CI], –11.6 to –3.6 mg/dL; P < .001), but improved slightly more for men, from 195 to 185 mg/dL (95% CI, –14 to –5.1 mg/dL; P < .001).

Overall, age-adjusted total cholesterol improved significantly for Blacks (–7.8 mg/dL), Mexican Americans (–11.3 mg/dL), other Hispanic adults (–8 mg/dL) and Whites (–8.8 mg/dL; P < .001 for all), but not for Asian adults, measured from 2011-2012 to 2017-2018: –.2 mg/dL (95% CI, –6.5 to 6.2 mg/dL; P = .9).

The study found that LDL cholesterol, on an age-adjusted basis, improved significantly overall, from 116 mg/dL in 2007-2008 to 111 mg/dL in 2017-2018 (95% CI, –8.3 to –1.4 mg/dL; P = .001). However, unlike total cholesterol, this improvement didn’t carry over to most ethnic groups. Mexican American adults (–8 mg/dL; P = .01) and Whites (–5.9 mg/dL; P = .001) showed significant improvements, but Asian, Black or other Hispanic adults didn’t.

The study also evaluated lipid control in people taking statins and found that, overall, it didn’t change significantly: from 78.5% in 2007-2008 to 79.5% in 2017-2018 (P = .27). Mexican American adults were the only ethnic group that showed significant improvement in lipid control, going from 73% in 2007-2008 to 86.5% in 2017-2018 (P = .008).

Disparities in lipid control

Women had notably lower lipid control rates than men, with an odds ratio of .52 in 2007-2010 (P < .001), with similar patterns found in 2011-2014 (OR, 0.48) and 2015-2018 (OR, 0.54, P < .001 for both).

Lipid control worsened over time for Black and other Hispanic adults compared to Whites. In 2007-2010, lipid control rates among the studied ethnic groups were similar, a trend that carried over to the 2011-2014 study interval and included Asian adults. However, in 2015-2018, Blacks had lower rates of lipid control compared to Whites (OR, 0.66; 95% CI, .47-.94; P = .03), as did other Hispanic adults (OR, 0.59; 95% CI, .37-.95; P = .04).

These disparities between sexes and ethnic groups warrant further investigation, Dr. Wadhera said. “We were surprised that women had significantly lower rates of cholesterol control than men,” he said. “We need to better understand whether gaps in care, such barriers in access, less frequent lab monitoring of cholesterol, or less intensive prescribing of important treatments, contribute to these differences.”

He called the lower lipid control rates in Black and Hispanic adults “concerning, especially because rates of heart attacks and strokes remain high in these groups. ... Efforts to identify gaps in care and increase and intensify medical therapy are needed, as treatment rates in these populations are low.”

While the study collected data before the COVID-19 pandemic, Dr. Wadhera acknowledged that the management of cardiovascular risk factors may have worsened because of it. “Monitoring cholesterol levels and control rates in the U.S. population as we emerge from the pandemic will be critically important,” he said.

In an accompanying editorial, Hermes Florez, MD, PhD, of the Medical University of South Carolina in Charleston, and colleagues called for adequately powered studies to further investigate the disparities in the Asian and Hispanic populations. “Worse rates of cholesterol control observed in women and in minority populations deserve special attention,” they wrote.

They noted that future studies should consider the impact of guidelines and recommendations that emerged since the study started, namely from the American College of Cardiology/American Heart Association 2013 guidelines, Healthy People 2030, and the U.S. Preventive Services Task Force (JAMA. 2022 Aug 23. doi: 10.1001/jama.2022.13044).

“More important, future work must focus on how to effectively eliminate those disparities and better control modifiable risk factors to enhance outcomes for all individuals regardless of race and ethnicity,” Dr. Florez and colleagues wrote.

The study received funding from the National Heart, Lung, and Blood Institute. Dr. Wadhera disclosed relationships with CVS Health and Abbott. Dr. Florez and colleagues have no disclosures.

Cholesterol levels in American adults have improved over the previous decade, but a large cross-sectional analysis of more than 30,000 U.S. adults has found notable disparities in cholesterol control, particularly among Asian adults, lower lipid control rates among Black and other Hispanic adults compared to Whites, and no appreciable improvements for people taking statins.

“We found that total cholesterol improved significantly among U.S. adults from 2008 to 2018,” senior study author Rishi Wadhera, MD, of Beth Israel Deaconess Medical Center in Boston, said in an interview. “When we looked at rates of lipid control among adults treated with statins, we found no significant improvements from 2008 through 2018.”

He noted the patterns for lipid control were consistent for women and men, adding, “In contrast to all other racial and ethnic groups, Mexican American and Black adults did experience significant improvements in cholesterol control. Despite this progress, rates of cholesterol control still remained significantly lower in Black adults compared to White adults.”

The study analyzed lipid concentrations from 33,040 adults ages 20 and older from the National Health and Nutrition Examination Surveys (NHANES), using 2007-2008 as the baseline and 2017-2018 as the endpoint. With lipid control defined as total cholesterol of 200 mg/dL or less, the analysis showed that total cholesterol improved in the overall population from 197 to 189 mg/dL in that time (95% confidence interval, –12.2 to –4.9 mg/dL; P < .001).

The study analyzed lipid trends in several demographic categories. Age-adjusted total cholesterol for women improved significantly, from 199 to 192 mg/dL (95% confidence interval [CI], –11.6 to –3.6 mg/dL; P < .001), but improved slightly more for men, from 195 to 185 mg/dL (95% CI, –14 to –5.1 mg/dL; P < .001).

Overall, age-adjusted total cholesterol improved significantly for Blacks (–7.8 mg/dL), Mexican Americans (–11.3 mg/dL), other Hispanic adults (–8 mg/dL) and Whites (–8.8 mg/dL; P < .001 for all), but not for Asian adults, measured from 2011-2012 to 2017-2018: –.2 mg/dL (95% CI, –6.5 to 6.2 mg/dL; P = .9).

The study found that LDL cholesterol, on an age-adjusted basis, improved significantly overall, from 116 mg/dL in 2007-2008 to 111 mg/dL in 2017-2018 (95% CI, –8.3 to –1.4 mg/dL; P = .001). However, unlike total cholesterol, this improvement didn’t carry over to most ethnic groups. Mexican American adults (–8 mg/dL; P = .01) and Whites (–5.9 mg/dL; P = .001) showed significant improvements, but Asian, Black or other Hispanic adults didn’t.

The study also evaluated lipid control in people taking statins and found that, overall, it didn’t change significantly: from 78.5% in 2007-2008 to 79.5% in 2017-2018 (P = .27). Mexican American adults were the only ethnic group that showed significant improvement in lipid control, going from 73% in 2007-2008 to 86.5% in 2017-2018 (P = .008).

Disparities in lipid control

Women had notably lower lipid control rates than men, with an odds ratio of .52 in 2007-2010 (P < .001), with similar patterns found in 2011-2014 (OR, 0.48) and 2015-2018 (OR, 0.54, P < .001 for both).

Lipid control worsened over time for Black and other Hispanic adults compared to Whites. In 2007-2010, lipid control rates among the studied ethnic groups were similar, a trend that carried over to the 2011-2014 study interval and included Asian adults. However, in 2015-2018, Blacks had lower rates of lipid control compared to Whites (OR, 0.66; 95% CI, .47-.94; P = .03), as did other Hispanic adults (OR, 0.59; 95% CI, .37-.95; P = .04).

These disparities between sexes and ethnic groups warrant further investigation, Dr. Wadhera said. “We were surprised that women had significantly lower rates of cholesterol control than men,” he said. “We need to better understand whether gaps in care, such barriers in access, less frequent lab monitoring of cholesterol, or less intensive prescribing of important treatments, contribute to these differences.”

He called the lower lipid control rates in Black and Hispanic adults “concerning, especially because rates of heart attacks and strokes remain high in these groups. ... Efforts to identify gaps in care and increase and intensify medical therapy are needed, as treatment rates in these populations are low.”

While the study collected data before the COVID-19 pandemic, Dr. Wadhera acknowledged that the management of cardiovascular risk factors may have worsened because of it. “Monitoring cholesterol levels and control rates in the U.S. population as we emerge from the pandemic will be critically important,” he said.

In an accompanying editorial, Hermes Florez, MD, PhD, of the Medical University of South Carolina in Charleston, and colleagues called for adequately powered studies to further investigate the disparities in the Asian and Hispanic populations. “Worse rates of cholesterol control observed in women and in minority populations deserve special attention,” they wrote.

They noted that future studies should consider the impact of guidelines and recommendations that emerged since the study started, namely from the American College of Cardiology/American Heart Association 2013 guidelines, Healthy People 2030, and the U.S. Preventive Services Task Force (JAMA. 2022 Aug 23. doi: 10.1001/jama.2022.13044).

“More important, future work must focus on how to effectively eliminate those disparities and better control modifiable risk factors to enhance outcomes for all individuals regardless of race and ethnicity,” Dr. Florez and colleagues wrote.

The study received funding from the National Heart, Lung, and Blood Institute. Dr. Wadhera disclosed relationships with CVS Health and Abbott. Dr. Florez and colleagues have no disclosures.

A 5-minute bout of direct-to-consumer advertising (DTCA) for prescription heart drugs was associated with favorable perceptions of both medication use and pharmaceutical companies, but did not seem to negate intentions to use lifestyle interventions, a survey study shows.

Participants who watched ads for various prescription heart drugs, with or without price disclosure, were more likely to report positive perceptions of drug companies and intentions to take actions such as switching medications.

AlShadsky/Fotolia.com

The ads did not seem to affect intentions to eat healthfully and exercise.

The study was published online in JAMA Health Forum.
 

DTCA ‘unlikely to have an adverse effect’

“Increasing prevalence of DTCA may promote an overreliance on medication over healthy lifestyle choices to manage chronic conditions,” coauthor Yashaswini Singh, MPA, a PhD candidate at the Johns Hopkins University, Baltimore, told this news organization. “Thus, we hypothesized that DTCA exposure would reduce the likelihood of individuals engaging in preventive health behaviors.”

“However,” she said, “our results did not support this hypothesis, suggesting that exposure to DTCA for heart disease medication is unlikely to have an adverse effect on individuals’ intentions to engage in diet and exercise.”

That said, she added, “DTCA of prescription drugs can contribute to rising drug costs due to overprescribing of both inappropriate and brand-name drugs over cheaper generic alternatives. While we do not examine this mechanism in our paper, this remains an important question for future research.”

For the study, the team recruited 2,874 individuals (mean age, 53.8 years; 54% men; 83% White) from a U.S. nationally representative sample of people at high risk of cardiovascular disease, the Ipsos Public Affairs KnowledgePanel.

Participants were randomly assigned to one of three interventions: DTCA for heart disease medications, DTCA for heart disease medications with price disclosure, or nonpharmaceutical advertising (control). Each group watched five 1-minute videos for a total of 5 minutes of advertising exposure.

One group viewed ads for four heart disease medications – two ads for sacubitril/valsartan (Entresto, Novartis) and one each for rivaroxaban (Xarelto, Bayer), evolocumab (Repatha, Amgen), and ticagrelor (Brilinta, AstraZeneca); the second group saw the same ads, but with prices spliced in; and controls watched videos for nondrug products, such as consumer electronics.

Participants then completed a questionnaire to measure medication- and lifestyle-related intentions, as well as health-related beliefs and perceptions. Using a scale of 1 (highly unlikely) to 5 (highly likely), they rated the likelihood of their switching medication, asking a physician or insurer about a medication, searching for the drug online, or taking it as directed. The same scale was used to rate the likelihood of their being more physically active or eating more healthfully.

On a scale of 1 (always disagree) to 5 (always agree), they also related their perceptions of pharmaceutical manufacturers as being competent, innovative, and trustworthy.

To measure the magnitude of DTCA associations, the researchers calculated marginal effects (MEs) of treatment – that is, the difference in probability of an outcome between the treatment and control arms.

They found a positive association between DTCA and medication-related behavioral intentions, including intention to switch medication (ME, 0.004; P = .002) and engage in information-seeking behaviors (ME, 0.02; P = .01).

There was no evidence suggesting that pharmaceutical DTCA discouraged use of nonpharmacologic lifestyle interventions to help manage heart disease. DTCA also was positively associated with consumers’ favorable perceptions of pharmaceutical manufacturers (competence: ME, 0.03; P = .01; innovative: ME, 0.03; P = .008).

No differential associations were seen for price disclosures in DTCA.
 

Questions remain

The authors acknowledged that the study focused on short-term behavioral intentions and that “future research should focus on the long-term effects of advertising in a real-world randomized setting.”

Ms. Singh said additional questions, some of which her team is investigating, include “understanding the interaction between government policies [such as] drug pricing reforms and firms’ advertising decisions; understanding whether observed changes in individuals’ health beliefs translate into actual changes to information-seeking behavior and health care utilization; and whether the demographic, political, and social characteristics of individuals shape their behavioral responses to advertising.”

Johanna Contreras, MD, an advanced heart failure and transplantation cardiologist at Mount Sinai Hospital, New York, said in an interview that the findings don’t surprise her. “The caveat is that this study was an online survey, so it only captured the beliefs and intentions, but not patient demand for the product and use of the product.”

“I do believe DTCA can create positive intentions towards the product ... and could make people more receptive to interventions,” she said. However, the information must be presented in a balanced way.

In addition, she noted, “price is still important. I think people take pricing into account when deciding to proceed with an intervention. If the price is ‘right’ or a little lower than expected, then they will likely consider the product. But if the price is significantly lower, then they may not trust that it is a good product. Generic drugs are an example. Even though they are approved and far cheaper than brand names, patients are often skeptical to take them.”

The study was funded with a grant from the Blue Cross Blue Shield of Illinois Affordability Cures Consortium. Ms. Singh and coauthors disclosed no relevant financial relationships.

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

A 5-minute bout of direct-to-consumer advertising (DTCA) for prescription heart drugs was associated with favorable perceptions of both medication use and pharmaceutical companies, but did not seem to negate intentions to use lifestyle interventions, a survey study shows.

Participants who watched ads for various prescription heart drugs, with or without price disclosure, were more likely to report positive perceptions of drug companies and intentions to take actions such as switching medications.

AlShadsky/Fotolia.com

The ads did not seem to affect intentions to eat healthfully and exercise.

The study was published online in JAMA Health Forum.
 

DTCA ‘unlikely to have an adverse effect’

“Increasing prevalence of DTCA may promote an overreliance on medication over healthy lifestyle choices to manage chronic conditions,” coauthor Yashaswini Singh, MPA, a PhD candidate at the Johns Hopkins University, Baltimore, told this news organization. “Thus, we hypothesized that DTCA exposure would reduce the likelihood of individuals engaging in preventive health behaviors.”

“However,” she said, “our results did not support this hypothesis, suggesting that exposure to DTCA for heart disease medication is unlikely to have an adverse effect on individuals’ intentions to engage in diet and exercise.”

That said, she added, “DTCA of prescription drugs can contribute to rising drug costs due to overprescribing of both inappropriate and brand-name drugs over cheaper generic alternatives. While we do not examine this mechanism in our paper, this remains an important question for future research.”

For the study, the team recruited 2,874 individuals (mean age, 53.8 years; 54% men; 83% White) from a U.S. nationally representative sample of people at high risk of cardiovascular disease, the Ipsos Public Affairs KnowledgePanel.

Participants were randomly assigned to one of three interventions: DTCA for heart disease medications, DTCA for heart disease medications with price disclosure, or nonpharmaceutical advertising (control). Each group watched five 1-minute videos for a total of 5 minutes of advertising exposure.

One group viewed ads for four heart disease medications – two ads for sacubitril/valsartan (Entresto, Novartis) and one each for rivaroxaban (Xarelto, Bayer), evolocumab (Repatha, Amgen), and ticagrelor (Brilinta, AstraZeneca); the second group saw the same ads, but with prices spliced in; and controls watched videos for nondrug products, such as consumer electronics.

Participants then completed a questionnaire to measure medication- and lifestyle-related intentions, as well as health-related beliefs and perceptions. Using a scale of 1 (highly unlikely) to 5 (highly likely), they rated the likelihood of their switching medication, asking a physician or insurer about a medication, searching for the drug online, or taking it as directed. The same scale was used to rate the likelihood of their being more physically active or eating more healthfully.

On a scale of 1 (always disagree) to 5 (always agree), they also related their perceptions of pharmaceutical manufacturers as being competent, innovative, and trustworthy.

To measure the magnitude of DTCA associations, the researchers calculated marginal effects (MEs) of treatment – that is, the difference in probability of an outcome between the treatment and control arms.

They found a positive association between DTCA and medication-related behavioral intentions, including intention to switch medication (ME, 0.004; P = .002) and engage in information-seeking behaviors (ME, 0.02; P = .01).

There was no evidence suggesting that pharmaceutical DTCA discouraged use of nonpharmacologic lifestyle interventions to help manage heart disease. DTCA also was positively associated with consumers’ favorable perceptions of pharmaceutical manufacturers (competence: ME, 0.03; P = .01; innovative: ME, 0.03; P = .008).

No differential associations were seen for price disclosures in DTCA.
 

Questions remain

The authors acknowledged that the study focused on short-term behavioral intentions and that “future research should focus on the long-term effects of advertising in a real-world randomized setting.”

Ms. Singh said additional questions, some of which her team is investigating, include “understanding the interaction between government policies [such as] drug pricing reforms and firms’ advertising decisions; understanding whether observed changes in individuals’ health beliefs translate into actual changes to information-seeking behavior and health care utilization; and whether the demographic, political, and social characteristics of individuals shape their behavioral responses to advertising.”

Johanna Contreras, MD, an advanced heart failure and transplantation cardiologist at Mount Sinai Hospital, New York, said in an interview that the findings don’t surprise her. “The caveat is that this study was an online survey, so it only captured the beliefs and intentions, but not patient demand for the product and use of the product.”

“I do believe DTCA can create positive intentions towards the product ... and could make people more receptive to interventions,” she said. However, the information must be presented in a balanced way.

In addition, she noted, “price is still important. I think people take pricing into account when deciding to proceed with an intervention. If the price is ‘right’ or a little lower than expected, then they will likely consider the product. But if the price is significantly lower, then they may not trust that it is a good product. Generic drugs are an example. Even though they are approved and far cheaper than brand names, patients are often skeptical to take them.”

The study was funded with a grant from the Blue Cross Blue Shield of Illinois Affordability Cures Consortium. Ms. Singh and coauthors disclosed no relevant financial relationships.

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

A 5-minute bout of direct-to-consumer advertising (DTCA) for prescription heart drugs was associated with favorable perceptions of both medication use and pharmaceutical companies, but did not seem to negate intentions to use lifestyle interventions, a survey study shows.

Participants who watched ads for various prescription heart drugs, with or without price disclosure, were more likely to report positive perceptions of drug companies and intentions to take actions such as switching medications.

AlShadsky/Fotolia.com

The ads did not seem to affect intentions to eat healthfully and exercise.

The study was published online in JAMA Health Forum.
 

DTCA ‘unlikely to have an adverse effect’

“Increasing prevalence of DTCA may promote an overreliance on medication over healthy lifestyle choices to manage chronic conditions,” coauthor Yashaswini Singh, MPA, a PhD candidate at the Johns Hopkins University, Baltimore, told this news organization. “Thus, we hypothesized that DTCA exposure would reduce the likelihood of individuals engaging in preventive health behaviors.”

“However,” she said, “our results did not support this hypothesis, suggesting that exposure to DTCA for heart disease medication is unlikely to have an adverse effect on individuals’ intentions to engage in diet and exercise.”

That said, she added, “DTCA of prescription drugs can contribute to rising drug costs due to overprescribing of both inappropriate and brand-name drugs over cheaper generic alternatives. While we do not examine this mechanism in our paper, this remains an important question for future research.”

For the study, the team recruited 2,874 individuals (mean age, 53.8 years; 54% men; 83% White) from a U.S. nationally representative sample of people at high risk of cardiovascular disease, the Ipsos Public Affairs KnowledgePanel.

Participants were randomly assigned to one of three interventions: DTCA for heart disease medications, DTCA for heart disease medications with price disclosure, or nonpharmaceutical advertising (control). Each group watched five 1-minute videos for a total of 5 minutes of advertising exposure.

One group viewed ads for four heart disease medications – two ads for sacubitril/valsartan (Entresto, Novartis) and one each for rivaroxaban (Xarelto, Bayer), evolocumab (Repatha, Amgen), and ticagrelor (Brilinta, AstraZeneca); the second group saw the same ads, but with prices spliced in; and controls watched videos for nondrug products, such as consumer electronics.

Participants then completed a questionnaire to measure medication- and lifestyle-related intentions, as well as health-related beliefs and perceptions. Using a scale of 1 (highly unlikely) to 5 (highly likely), they rated the likelihood of their switching medication, asking a physician or insurer about a medication, searching for the drug online, or taking it as directed. The same scale was used to rate the likelihood of their being more physically active or eating more healthfully.

On a scale of 1 (always disagree) to 5 (always agree), they also related their perceptions of pharmaceutical manufacturers as being competent, innovative, and trustworthy.

To measure the magnitude of DTCA associations, the researchers calculated marginal effects (MEs) of treatment – that is, the difference in probability of an outcome between the treatment and control arms.

They found a positive association between DTCA and medication-related behavioral intentions, including intention to switch medication (ME, 0.004; P = .002) and engage in information-seeking behaviors (ME, 0.02; P = .01).

There was no evidence suggesting that pharmaceutical DTCA discouraged use of nonpharmacologic lifestyle interventions to help manage heart disease. DTCA also was positively associated with consumers’ favorable perceptions of pharmaceutical manufacturers (competence: ME, 0.03; P = .01; innovative: ME, 0.03; P = .008).

No differential associations were seen for price disclosures in DTCA.
 

Questions remain

The authors acknowledged that the study focused on short-term behavioral intentions and that “future research should focus on the long-term effects of advertising in a real-world randomized setting.”

Ms. Singh said additional questions, some of which her team is investigating, include “understanding the interaction between government policies [such as] drug pricing reforms and firms’ advertising decisions; understanding whether observed changes in individuals’ health beliefs translate into actual changes to information-seeking behavior and health care utilization; and whether the demographic, political, and social characteristics of individuals shape their behavioral responses to advertising.”

Johanna Contreras, MD, an advanced heart failure and transplantation cardiologist at Mount Sinai Hospital, New York, said in an interview that the findings don’t surprise her. “The caveat is that this study was an online survey, so it only captured the beliefs and intentions, but not patient demand for the product and use of the product.”

“I do believe DTCA can create positive intentions towards the product ... and could make people more receptive to interventions,” she said. However, the information must be presented in a balanced way.

In addition, she noted, “price is still important. I think people take pricing into account when deciding to proceed with an intervention. If the price is ‘right’ or a little lower than expected, then they will likely consider the product. But if the price is significantly lower, then they may not trust that it is a good product. Generic drugs are an example. Even though they are approved and far cheaper than brand names, patients are often skeptical to take them.”

The study was funded with a grant from the Blue Cross Blue Shield of Illinois Affordability Cures Consortium. Ms. Singh and coauthors disclosed no relevant financial relationships.

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

New research discounts the long-held notion that aspartame and other nonnutritive sweeteners (NNS) have no effect on the human body.

Researchers found that these sugar substitutes are not metabolically inert and can alter the gut microbiome in a way that can influence blood glucose levels.

The study was published online in the journal Cell.


 

Gut reaction?

Several years ago, a team led by Eran Elinav, MD, PhD, an immunologist and microbiome researcher at the Weizmann Institute of Science, Rehovot, Israel, observed that these sweeteners affect the microbiome of mice in ways that could affect glycemic responses.

They have now confirmed this observation in a randomized controlled trial with 120 healthy adults.

BigRedCurlyGuy/Thinkstock

Weighing the evidence

Several experts weighed in on the results in a statement from the U.K. nonprofit organization, Science Media Centre.

Duane Mellor, PhD, RD, RNutr, registered dietitian and senior teaching fellow, Aston University, Birmingham, England, notes that the study does not show a link between all NNS and higher blood glucose levels in the long term (only after a glucose tolerance test).

“It did suggest, though, that some individuals who do not normally consume sweeteners may not tolerate glucose as well after consuming six sachets of either saccharin or sucralose mixed with glucose per day,” Dr. Mellor says.

Kim Barrett, PhD, distinguished professor of physiology and membrane biology, University of California, Davis, concurs, saying “this well-designed study indicates the potential for NNS to have adverse effects in at least some individuals.”

The study also does not provide any information about how people who normally consume sweeteners or people with either type 1 or type 2 diabetes respond to NNS.

“Therefore, for some people, it is likely to be a better option and more sustainable approach to use sweeteners as a ‘stepping stone’ allowing them to reduce the amount of added sugar in foods and drinks, to reduce their sugar intake and still enjoy what they eat and drink, on the way to reducing both added sugar and sweeteners in their diet,” Dr. Mellor suggests.

Kevin McConway, PhD, with the Open University, Milton Keynes, England, said it’s “important to understand that the research is not saying that these sweeteners are worse for us, in heath terms, than sugar.

“But exactly what the health consequences of all this, if any, might be is a subject for future research,” Dr. McConway added.

Kathy Redfern, PhD, lecturer in human nutrition, University of Plymouth (England) agrees.

“We still have a lot to learn about the human microbiome, and although this study suggests two of the sweeteners tested in this study (sucralose and saccharin) significantly affected glucose tolerance, these deviations were small,” she says.

The International Sweeteners Association also weighs in, saying, “No conclusions about the effects of low/no calorie sweeteners on glucose control or overall health can be extrapolated from this study for the general population or for people who typically consume sweeteners, including people living with diabetes.”

They add “a recent review of the literature concluded that there is clear evidence that changes in the diet unrelated to low/no calorie sweeteners consumption are likely the major determinants of change in gut microbiota.”

Nevertheless, Dr. Redfern says the results “warrant further investigation to assess how small changes in glucose tolerance in response to NNS consumption may influence longer-term glucose tolerance and risk for metabolic complications, such as type 2 diabetes.”

The study had no specific funding. Dr. Elinav is a scientific founder of DayTwo and BiomX, a paid consultant to Hello Inside and Aposense, and a member of the scientific advisory board of Cell. Dr. Mellor has provided consultancy to the International Sweetener Agency and has worked on projects funded by the Food Standards Agency that investigated the health effects of aspartame. Dr. Barrett, Dr. McConway, and Dr. Redfern report no relevant financial relationships.

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

This article was updated 8/29/22.

New research discounts the long-held notion that aspartame and other nonnutritive sweeteners (NNS) have no effect on the human body.

Researchers found that these sugar substitutes are not metabolically inert and can alter the gut microbiome in a way that can influence blood glucose levels.

The study was published online in the journal Cell.


 

Gut reaction?

Several years ago, a team led by Eran Elinav, MD, PhD, an immunologist and microbiome researcher at the Weizmann Institute of Science, Rehovot, Israel, observed that these sweeteners affect the microbiome of mice in ways that could affect glycemic responses.

They have now confirmed this observation in a randomized controlled trial with 120 healthy adults.

BigRedCurlyGuy/Thinkstock

Weighing the evidence

Several experts weighed in on the results in a statement from the U.K. nonprofit organization, Science Media Centre.

Duane Mellor, PhD, RD, RNutr, registered dietitian and senior teaching fellow, Aston University, Birmingham, England, notes that the study does not show a link between all NNS and higher blood glucose levels in the long term (only after a glucose tolerance test).

“It did suggest, though, that some individuals who do not normally consume sweeteners may not tolerate glucose as well after consuming six sachets of either saccharin or sucralose mixed with glucose per day,” Dr. Mellor says.

Kim Barrett, PhD, distinguished professor of physiology and membrane biology, University of California, Davis, concurs, saying “this well-designed study indicates the potential for NNS to have adverse effects in at least some individuals.”

The study also does not provide any information about how people who normally consume sweeteners or people with either type 1 or type 2 diabetes respond to NNS.

“Therefore, for some people, it is likely to be a better option and more sustainable approach to use sweeteners as a ‘stepping stone’ allowing them to reduce the amount of added sugar in foods and drinks, to reduce their sugar intake and still enjoy what they eat and drink, on the way to reducing both added sugar and sweeteners in their diet,” Dr. Mellor suggests.

Kevin McConway, PhD, with the Open University, Milton Keynes, England, said it’s “important to understand that the research is not saying that these sweeteners are worse for us, in heath terms, than sugar.

“But exactly what the health consequences of all this, if any, might be is a subject for future research,” Dr. McConway added.

Kathy Redfern, PhD, lecturer in human nutrition, University of Plymouth (England) agrees.

“We still have a lot to learn about the human microbiome, and although this study suggests two of the sweeteners tested in this study (sucralose and saccharin) significantly affected glucose tolerance, these deviations were small,” she says.

The International Sweeteners Association also weighs in, saying, “No conclusions about the effects of low/no calorie sweeteners on glucose control or overall health can be extrapolated from this study for the general population or for people who typically consume sweeteners, including people living with diabetes.”

They add “a recent review of the literature concluded that there is clear evidence that changes in the diet unrelated to low/no calorie sweeteners consumption are likely the major determinants of change in gut microbiota.”

Nevertheless, Dr. Redfern says the results “warrant further investigation to assess how small changes in glucose tolerance in response to NNS consumption may influence longer-term glucose tolerance and risk for metabolic complications, such as type 2 diabetes.”

The study had no specific funding. Dr. Elinav is a scientific founder of DayTwo and BiomX, a paid consultant to Hello Inside and Aposense, and a member of the scientific advisory board of Cell. Dr. Mellor has provided consultancy to the International Sweetener Agency and has worked on projects funded by the Food Standards Agency that investigated the health effects of aspartame. Dr. Barrett, Dr. McConway, and Dr. Redfern report no relevant financial relationships.

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

This article was updated 8/29/22.

New research discounts the long-held notion that aspartame and other nonnutritive sweeteners (NNS) have no effect on the human body.

Researchers found that these sugar substitutes are not metabolically inert and can alter the gut microbiome in a way that can influence blood glucose levels.

The study was published online in the journal Cell.


 

Gut reaction?

Several years ago, a team led by Eran Elinav, MD, PhD, an immunologist and microbiome researcher at the Weizmann Institute of Science, Rehovot, Israel, observed that these sweeteners affect the microbiome of mice in ways that could affect glycemic responses.

They have now confirmed this observation in a randomized controlled trial with 120 healthy adults.

BigRedCurlyGuy/Thinkstock

Weighing the evidence

Several experts weighed in on the results in a statement from the U.K. nonprofit organization, Science Media Centre.

Duane Mellor, PhD, RD, RNutr, registered dietitian and senior teaching fellow, Aston University, Birmingham, England, notes that the study does not show a link between all NNS and higher blood glucose levels in the long term (only after a glucose tolerance test).

“It did suggest, though, that some individuals who do not normally consume sweeteners may not tolerate glucose as well after consuming six sachets of either saccharin or sucralose mixed with glucose per day,” Dr. Mellor says.

Kim Barrett, PhD, distinguished professor of physiology and membrane biology, University of California, Davis, concurs, saying “this well-designed study indicates the potential for NNS to have adverse effects in at least some individuals.”

The study also does not provide any information about how people who normally consume sweeteners or people with either type 1 or type 2 diabetes respond to NNS.

“Therefore, for some people, it is likely to be a better option and more sustainable approach to use sweeteners as a ‘stepping stone’ allowing them to reduce the amount of added sugar in foods and drinks, to reduce their sugar intake and still enjoy what they eat and drink, on the way to reducing both added sugar and sweeteners in their diet,” Dr. Mellor suggests.

Kevin McConway, PhD, with the Open University, Milton Keynes, England, said it’s “important to understand that the research is not saying that these sweeteners are worse for us, in heath terms, than sugar.

“But exactly what the health consequences of all this, if any, might be is a subject for future research,” Dr. McConway added.

Kathy Redfern, PhD, lecturer in human nutrition, University of Plymouth (England) agrees.

“We still have a lot to learn about the human microbiome, and although this study suggests two of the sweeteners tested in this study (sucralose and saccharin) significantly affected glucose tolerance, these deviations were small,” she says.

The International Sweeteners Association also weighs in, saying, “No conclusions about the effects of low/no calorie sweeteners on glucose control or overall health can be extrapolated from this study for the general population or for people who typically consume sweeteners, including people living with diabetes.”

They add “a recent review of the literature concluded that there is clear evidence that changes in the diet unrelated to low/no calorie sweeteners consumption are likely the major determinants of change in gut microbiota.”

Nevertheless, Dr. Redfern says the results “warrant further investigation to assess how small changes in glucose tolerance in response to NNS consumption may influence longer-term glucose tolerance and risk for metabolic complications, such as type 2 diabetes.”

The study had no specific funding. Dr. Elinav is a scientific founder of DayTwo and BiomX, a paid consultant to Hello Inside and Aposense, and a member of the scientific advisory board of Cell. Dr. Mellor has provided consultancy to the International Sweetener Agency and has worked on projects funded by the Food Standards Agency that investigated the health effects of aspartame. Dr. Barrett, Dr. McConway, and Dr. Redfern report no relevant financial relationships.

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

This article was updated 8/29/22.

Many changes in the evolution of the treatment of diabetes have occurred during this year and 2021. Randomized controlled trials have resulted in updated guidelines for the use of glucagonlike peptide-1 receptor agonists (GLP1RAs) and continuous glucose monitoring (CGM) technology. I am hoping my discussion about these major advances in this edition of Highlights will be helpful to those caring for patients with diabetes.

Tirzepatide

The first GLP1RA, exenatide, was released in April 2005. Since then, numerous daily and weekly drugs of this class have been developed. We’ve learned they are effective glucose lowering drugs, and the weekly agents dulaglutide and semaglutide have shown impressive weight reduction properties as well as cardiovascular benefits.

Secondary outcomes have also shown renal benefits to these agents, and studies for primary renal efficacy are pending. Due to all of these properties, the GLP1RAs are recommended as the first injectable for the treatment of type 2 diabetes, prior to insulin initiation.¹

The next generation of these agents are a combination of a GLP1RA and a glucose-dependent insulinotropic polypeptide (GIP). Glucagonlike peptide-1 (GLP-1) stimulates insulin secretion, inhibits glucagon secretion, delays gastric emptying, and has central effects inducing satiety.

We now understand that GIP is the main incretin hormone in those without diabetes, causative of most of the incretin effects. But the insulin response after GIP secretion in type 2 diabetes is strongly reduced. It is now appreciated that this poor effect of GIP can be reduced when used in combination with a GLP1RA. This combination incretin, called by some a “twincretin,” is the basis for the drug tirzepatide which was approved by the Food and Drug Administration in May of 2022.

The data supporting this agent for both diabetes and obesity are impressive. For example, in a 40-week study with a baseline HbA1c of 8.0%, those randomized to tirzepatide at 5 mg, 10 mg, and 15 mg had HbA1c reductions of 1.87%, 1.89%, and 2.07% respectively.² Over 81% at all doses had HbA1c levels less than 6.5% at 40 weeks.

For the 5-mg, 10-mg, and 15-mg doses, weight change from baseline was 7.9%, 9.3%, and 11.0% respectively. Like older GLP1RAs, gastrointestinal side effects were the main problem. For the three doses, 3%, 5%, and 7%, respectively, had to stop the drug, compared with the 3% who stopped taking the placebo. In another study, tirzepatide was noninferior or superior at all three doses compared with semaglutide 1 mg weekly.³

In a population without diabetes, with 40% of patients having prediabetes, weight loss percentages for the three doses were 15.0%, 19.5%, and 20.9% respectively.⁴ Discontinuation percentages due to side effects were 4%-7%. The exciting part is we now have a drug that approaches weight loss from bariatric surgery. The cardiovascular and renal outcome trials are now underway, but the enthusiasm for this drug is clear from the data.

Like other GLP1RAs, the key is to start low and go slowly. It is recommended to start tirzepatide at 2.5 mg four times a week, then increase to 5 mg. Due to gastrointestinal side effects, some patients will do better at the lower dose before increasing. For those switching from another GLP1RA, there are no data to guide us but, in my practice, I start those patients at 5 mg weekly.
 

Continuous glucose monitoring

Data continue to accumulate that this form of glycemic self-monitoring is effective to reduce HbA1c levels and minimize hypoglycemia in both type 1 and type 2 diabetes. The most important change to the 2022 American Diabetes Association (ADA) standards of care is recognizing CGM as level A evidence for those receiving basal insulin without mealtime insulin.⁵ There are four CGMs on the market, but most of the market uses the Dexcom G6 or the Libre 2. Both of these devices will be updated within the next few months to newer generation sensors.

While there are similarities and differences between the two devices, by late 2022 and early 2023 changes to both will reduce the dissimilarities.

The next generation Libre (Libre 3) will be continuous, and “scanning” will no longer be required.  For those unable to get insurance to cover CGM, the Libre will continue to be more affordable than the Dexcom. Alerts will be present on both, but the Dexcom G7 will be approved for both the arm and the abdomen. The Dexcom also can communicate with several automated insulin delivery systems and data can be shared real-time with family members.

For clinicians just starting patients on this technology, my suggestion is to focus on one system so both the provider and staff can become familiar with it. It is key to review downloaded glucose metrics, in addition to the “ambulatory glucose profile,” a graphic overview of daily glycemia where patterns can be identified. It is also helpful to ask for assistance from endocrinologists who have experience with CGMs, in addition to the representatives of the companies.

COVID-19 and new-onset diabetes

From the beginning of the COVID 19 pandemic in 2020, it was clear that stress hyperglycemia and glucose dysregulation was an important observation for those infected. What was not known at the time is that for some, the hyperglycemia continued, and permanent diabetes ensued.

In one study of over 2.7 million U.S. veterans, men infected with COVID-19, but not women, were at a higher risk of new incident diabetes at 120 days after infection compared to no infection (odds ratio for men = 2.56).⁶

Another literature review using meta-analyses and cross-sectional studies concluded new-onset diabetes following COVID-19 infection can have a varied phenotype, with no risk factors, presenting from diabetic ketoacidosis to milder forms of diabetes.⁷

The current thought is that COVID-19 binds to the ACE2 and TMPRSS2 receptors which appear to be located on the beta-cells in the islet, resulting in insulin deficiency, in addition to the insulin resistance that seems to persist after the acute infection. Much more needs to be learned about this, but clinicians need to appreciate this appears to be a new form of diabetes and optimal treatments are not yet clear.

Dr. Hirsch is an endocrinologist, professor of medicine, and diabetes treatment and teaching chair at the University of Washington, Seattle. He has received research grant support from Dexcom and Insulet and has provided consulting to Abbott, Roche, Lifescan, and GWave. You can contact him at [email protected].

References

1. American Diabetes Association Professional Practice Committee. Pharmacologic approaches to glycemic treatment: Standards of Medical Care in Diabetes-2022. Diabetes Care. 2022;45(Suppl 1):S125-S143.

2. Rosenstock J et al. Efficacy and safety of a novel GIP and GLP-1 receptor agonist tirzepatide in patients with type 2 diabetes (SURPASS-1): A double-blind, randomised, phase 3 trial. Lancet. 2021;398:143-55.

3. Frias JP et al. Tirzepatide versus semaglutide once weekly in patients with type 2 diabetes. N Engl J Med. 2021;385:503-15.

4. Jastreboff AM et al. Tirzepatide once weekly for the treatment of obesity. N Engl J Med. 2022;387:205-16.

5. American Diabetes Association Professional Practice Committee. Diabetes technology: Standards of Medical Care in Diabetes–2022. Diabetes Care. 2022;45(Suppl 1):S97-S112.

6. Wander PL et al. The incidence of diabetes in 2,777,768 veterans with and without recent SARS-CoV-2 infection. Diabetes Care 2022;45:782-8.

7. Joshi SC and Pozzilli P. COVID-19 induced diabetes: A novel presentation. Diabetes Res Clin Pract. 2022 Aug 6;191:110034.

Many changes in the evolution of the treatment of diabetes have occurred during this year and 2021. Randomized controlled trials have resulted in updated guidelines for the use of glucagonlike peptide-1 receptor agonists (GLP1RAs) and continuous glucose monitoring (CGM) technology. I am hoping my discussion about these major advances in this edition of Highlights will be helpful to those caring for patients with diabetes.

Tirzepatide

The first GLP1RA, exenatide, was released in April 2005. Since then, numerous daily and weekly drugs of this class have been developed. We’ve learned they are effective glucose lowering drugs, and the weekly agents dulaglutide and semaglutide have shown impressive weight reduction properties as well as cardiovascular benefits.

Secondary outcomes have also shown renal benefits to these agents, and studies for primary renal efficacy are pending. Due to all of these properties, the GLP1RAs are recommended as the first injectable for the treatment of type 2 diabetes, prior to insulin initiation.¹

The next generation of these agents are a combination of a GLP1RA and a glucose-dependent insulinotropic polypeptide (GIP). Glucagonlike peptide-1 (GLP-1) stimulates insulin secretion, inhibits glucagon secretion, delays gastric emptying, and has central effects inducing satiety.

We now understand that GIP is the main incretin hormone in those without diabetes, causative of most of the incretin effects. But the insulin response after GIP secretion in type 2 diabetes is strongly reduced. It is now appreciated that this poor effect of GIP can be reduced when used in combination with a GLP1RA. This combination incretin, called by some a “twincretin,” is the basis for the drug tirzepatide which was approved by the Food and Drug Administration in May of 2022.

The data supporting this agent for both diabetes and obesity are impressive. For example, in a 40-week study with a baseline HbA1c of 8.0%, those randomized to tirzepatide at 5 mg, 10 mg, and 15 mg had HbA1c reductions of 1.87%, 1.89%, and 2.07% respectively.² Over 81% at all doses had HbA1c levels less than 6.5% at 40 weeks.

For the 5-mg, 10-mg, and 15-mg doses, weight change from baseline was 7.9%, 9.3%, and 11.0% respectively. Like older GLP1RAs, gastrointestinal side effects were the main problem. For the three doses, 3%, 5%, and 7%, respectively, had to stop the drug, compared with the 3% who stopped taking the placebo. In another study, tirzepatide was noninferior or superior at all three doses compared with semaglutide 1 mg weekly.³

In a population without diabetes, with 40% of patients having prediabetes, weight loss percentages for the three doses were 15.0%, 19.5%, and 20.9% respectively.⁴ Discontinuation percentages due to side effects were 4%-7%. The exciting part is we now have a drug that approaches weight loss from bariatric surgery. The cardiovascular and renal outcome trials are now underway, but the enthusiasm for this drug is clear from the data.

Like other GLP1RAs, the key is to start low and go slowly. It is recommended to start tirzepatide at 2.5 mg four times a week, then increase to 5 mg. Due to gastrointestinal side effects, some patients will do better at the lower dose before increasing. For those switching from another GLP1RA, there are no data to guide us but, in my practice, I start those patients at 5 mg weekly.
 

Continuous glucose monitoring

Data continue to accumulate that this form of glycemic self-monitoring is effective to reduce HbA1c levels and minimize hypoglycemia in both type 1 and type 2 diabetes. The most important change to the 2022 American Diabetes Association (ADA) standards of care is recognizing CGM as level A evidence for those receiving basal insulin without mealtime insulin.⁵ There are four CGMs on the market, but most of the market uses the Dexcom G6 or the Libre 2. Both of these devices will be updated within the next few months to newer generation sensors.

While there are similarities and differences between the two devices, by late 2022 and early 2023 changes to both will reduce the dissimilarities.

The next generation Libre (Libre 3) will be continuous, and “scanning” will no longer be required.  For those unable to get insurance to cover CGM, the Libre will continue to be more affordable than the Dexcom. Alerts will be present on both, but the Dexcom G7 will be approved for both the arm and the abdomen. The Dexcom also can communicate with several automated insulin delivery systems and data can be shared real-time with family members.

For clinicians just starting patients on this technology, my suggestion is to focus on one system so both the provider and staff can become familiar with it. It is key to review downloaded glucose metrics, in addition to the “ambulatory glucose profile,” a graphic overview of daily glycemia where patterns can be identified. It is also helpful to ask for assistance from endocrinologists who have experience with CGMs, in addition to the representatives of the companies.

COVID-19 and new-onset diabetes

From the beginning of the COVID 19 pandemic in 2020, it was clear that stress hyperglycemia and glucose dysregulation was an important observation for those infected. What was not known at the time is that for some, the hyperglycemia continued, and permanent diabetes ensued.

In one study of over 2.7 million U.S. veterans, men infected with COVID-19, but not women, were at a higher risk of new incident diabetes at 120 days after infection compared to no infection (odds ratio for men = 2.56).⁶

Another literature review using meta-analyses and cross-sectional studies concluded new-onset diabetes following COVID-19 infection can have a varied phenotype, with no risk factors, presenting from diabetic ketoacidosis to milder forms of diabetes.⁷

The current thought is that COVID-19 binds to the ACE2 and TMPRSS2 receptors which appear to be located on the beta-cells in the islet, resulting in insulin deficiency, in addition to the insulin resistance that seems to persist after the acute infection. Much more needs to be learned about this, but clinicians need to appreciate this appears to be a new form of diabetes and optimal treatments are not yet clear.

Dr. Hirsch is an endocrinologist, professor of medicine, and diabetes treatment and teaching chair at the University of Washington, Seattle. He has received research grant support from Dexcom and Insulet and has provided consulting to Abbott, Roche, Lifescan, and GWave. You can contact him at [email protected].

References

1. American Diabetes Association Professional Practice Committee. Pharmacologic approaches to glycemic treatment: Standards of Medical Care in Diabetes-2022. Diabetes Care. 2022;45(Suppl 1):S125-S143.

2. Rosenstock J et al. Efficacy and safety of a novel GIP and GLP-1 receptor agonist tirzepatide in patients with type 2 diabetes (SURPASS-1): A double-blind, randomised, phase 3 trial. Lancet. 2021;398:143-55.

3. Frias JP et al. Tirzepatide versus semaglutide once weekly in patients with type 2 diabetes. N Engl J Med. 2021;385:503-15.

4. Jastreboff AM et al. Tirzepatide once weekly for the treatment of obesity. N Engl J Med. 2022;387:205-16.

5. American Diabetes Association Professional Practice Committee. Diabetes technology: Standards of Medical Care in Diabetes–2022. Diabetes Care. 2022;45(Suppl 1):S97-S112.

6. Wander PL et al. The incidence of diabetes in 2,777,768 veterans with and without recent SARS-CoV-2 infection. Diabetes Care 2022;45:782-8.

7. Joshi SC and Pozzilli P. COVID-19 induced diabetes: A novel presentation. Diabetes Res Clin Pract. 2022 Aug 6;191:110034.

Many changes in the evolution of the treatment of diabetes have occurred during this year and 2021. Randomized controlled trials have resulted in updated guidelines for the use of glucagonlike peptide-1 receptor agonists (GLP1RAs) and continuous glucose monitoring (CGM) technology. I am hoping my discussion about these major advances in this edition of Highlights will be helpful to those caring for patients with diabetes.

Tirzepatide

The first GLP1RA, exenatide, was released in April 2005. Since then, numerous daily and weekly drugs of this class have been developed. We’ve learned they are effective glucose lowering drugs, and the weekly agents dulaglutide and semaglutide have shown impressive weight reduction properties as well as cardiovascular benefits.

Secondary outcomes have also shown renal benefits to these agents, and studies for primary renal efficacy are pending. Due to all of these properties, the GLP1RAs are recommended as the first injectable for the treatment of type 2 diabetes, prior to insulin initiation.¹

The next generation of these agents are a combination of a GLP1RA and a glucose-dependent insulinotropic polypeptide (GIP). Glucagonlike peptide-1 (GLP-1) stimulates insulin secretion, inhibits glucagon secretion, delays gastric emptying, and has central effects inducing satiety.

We now understand that GIP is the main incretin hormone in those without diabetes, causative of most of the incretin effects. But the insulin response after GIP secretion in type 2 diabetes is strongly reduced. It is now appreciated that this poor effect of GIP can be reduced when used in combination with a GLP1RA. This combination incretin, called by some a “twincretin,” is the basis for the drug tirzepatide which was approved by the Food and Drug Administration in May of 2022.

The data supporting this agent for both diabetes and obesity are impressive. For example, in a 40-week study with a baseline HbA1c of 8.0%, those randomized to tirzepatide at 5 mg, 10 mg, and 15 mg had HbA1c reductions of 1.87%, 1.89%, and 2.07% respectively.² Over 81% at all doses had HbA1c levels less than 6.5% at 40 weeks.

For the 5-mg, 10-mg, and 15-mg doses, weight change from baseline was 7.9%, 9.3%, and 11.0% respectively. Like older GLP1RAs, gastrointestinal side effects were the main problem. For the three doses, 3%, 5%, and 7%, respectively, had to stop the drug, compared with the 3% who stopped taking the placebo. In another study, tirzepatide was noninferior or superior at all three doses compared with semaglutide 1 mg weekly.³

In a population without diabetes, with 40% of patients having prediabetes, weight loss percentages for the three doses were 15.0%, 19.5%, and 20.9% respectively.⁴ Discontinuation percentages due to side effects were 4%-7%. The exciting part is we now have a drug that approaches weight loss from bariatric surgery. The cardiovascular and renal outcome trials are now underway, but the enthusiasm for this drug is clear from the data.

Like other GLP1RAs, the key is to start low and go slowly. It is recommended to start tirzepatide at 2.5 mg four times a week, then increase to 5 mg. Due to gastrointestinal side effects, some patients will do better at the lower dose before increasing. For those switching from another GLP1RA, there are no data to guide us but, in my practice, I start those patients at 5 mg weekly.
 

Continuous glucose monitoring

Data continue to accumulate that this form of glycemic self-monitoring is effective to reduce HbA1c levels and minimize hypoglycemia in both type 1 and type 2 diabetes. The most important change to the 2022 American Diabetes Association (ADA) standards of care is recognizing CGM as level A evidence for those receiving basal insulin without mealtime insulin.⁵ There are four CGMs on the market, but most of the market uses the Dexcom G6 or the Libre 2. Both of these devices will be updated within the next few months to newer generation sensors.

While there are similarities and differences between the two devices, by late 2022 and early 2023 changes to both will reduce the dissimilarities.

The next generation Libre (Libre 3) will be continuous, and “scanning” will no longer be required.  For those unable to get insurance to cover CGM, the Libre will continue to be more affordable than the Dexcom. Alerts will be present on both, but the Dexcom G7 will be approved for both the arm and the abdomen. The Dexcom also can communicate with several automated insulin delivery systems and data can be shared real-time with family members.

For clinicians just starting patients on this technology, my suggestion is to focus on one system so both the provider and staff can become familiar with it. It is key to review downloaded glucose metrics, in addition to the “ambulatory glucose profile,” a graphic overview of daily glycemia where patterns can be identified. It is also helpful to ask for assistance from endocrinologists who have experience with CGMs, in addition to the representatives of the companies.

COVID-19 and new-onset diabetes

From the beginning of the COVID 19 pandemic in 2020, it was clear that stress hyperglycemia and glucose dysregulation was an important observation for those infected. What was not known at the time is that for some, the hyperglycemia continued, and permanent diabetes ensued.

In one study of over 2.7 million U.S. veterans, men infected with COVID-19, but not women, were at a higher risk of new incident diabetes at 120 days after infection compared to no infection (odds ratio for men = 2.56).⁶

Another literature review using meta-analyses and cross-sectional studies concluded new-onset diabetes following COVID-19 infection can have a varied phenotype, with no risk factors, presenting from diabetic ketoacidosis to milder forms of diabetes.⁷

The current thought is that COVID-19 binds to the ACE2 and TMPRSS2 receptors which appear to be located on the beta-cells in the islet, resulting in insulin deficiency, in addition to the insulin resistance that seems to persist after the acute infection. Much more needs to be learned about this, but clinicians need to appreciate this appears to be a new form of diabetes and optimal treatments are not yet clear.

Dr. Hirsch is an endocrinologist, professor of medicine, and diabetes treatment and teaching chair at the University of Washington, Seattle. He has received research grant support from Dexcom and Insulet and has provided consulting to Abbott, Roche, Lifescan, and GWave. You can contact him at [email protected].

References

1. American Diabetes Association Professional Practice Committee. Pharmacologic approaches to glycemic treatment: Standards of Medical Care in Diabetes-2022. Diabetes Care. 2022;45(Suppl 1):S125-S143.

2. Rosenstock J et al. Efficacy and safety of a novel GIP and GLP-1 receptor agonist tirzepatide in patients with type 2 diabetes (SURPASS-1): A double-blind, randomised, phase 3 trial. Lancet. 2021;398:143-55.

3. Frias JP et al. Tirzepatide versus semaglutide once weekly in patients with type 2 diabetes. N Engl J Med. 2021;385:503-15.

4. Jastreboff AM et al. Tirzepatide once weekly for the treatment of obesity. N Engl J Med. 2022;387:205-16.

5. American Diabetes Association Professional Practice Committee. Diabetes technology: Standards of Medical Care in Diabetes–2022. Diabetes Care. 2022;45(Suppl 1):S97-S112.

6. Wander PL et al. The incidence of diabetes in 2,777,768 veterans with and without recent SARS-CoV-2 infection. Diabetes Care 2022;45:782-8.

7. Joshi SC and Pozzilli P. COVID-19 induced diabetes: A novel presentation. Diabetes Res Clin Pract. 2022 Aug 6;191:110034.

There’s little doubt long COVID is real. The federal government recognizes long COVID as a condition and said in two reports issued in August that one in five adult COVID-19 survivors have a health condition related to their illness.

COVID-19 can damage multiple organs in the body. Sometimes this damage leads to long COVID; sometimes other reasons are at play. Doctors are beginning to sort it out.

There’s a difference between long COVID and an acute infection with lasting effects, doctors say.

“COVID itself can actually cause prolonged illness, and we don’t really call that long COVID,” said Nisha Viswanathan, MD, a doctor at UCLA Health in Los Angeles. But if symptoms extend beyond 12 weeks, that puts patients in the realm of long COVID.

Symptoms can range from mild to severe and can keep people from resuming their normal lives and jobs. Sometimes they last for months, according to the U.S. Department of Health & Human Services.
 

Multiorgan damage

Lung scarring and other lung problems are common after COVID, said Leora Horwitz, MD, an internal medicine specialist at New York University. Even after a mild case, people can have breathing issues for months, a team at Johns Hopkins Medicine, Baltimore, said in an online briefing. One study published in the journal Radiology found damage in people a full year after a COVID-19 diagnosis.

Some people have persistent heart, kidney, liver, and nervous system problems after COVID-19. A study published in 2020 in JAMA Cardiology found 60% of people who had COVID-19 had ongoing signs of heart inflammation. Nearly a third of people hospitalized for COVID-19 get kidney damage that can become chronic, and some end up needing dialysis or a transplant, said C. John Sperati, MD, a kidney specialist at Johns Hopkins Medicine.

This might be, in part, because SARS-CoV-2, the virus that causes COVID-19, directly infects the cells in many organs.

Nicole Bhave, MD, a cardiologist at University of Michigan Health, Ann Arbor is concerned that COVID-19 appears to increase the risk of heart problems in some people.

“Some of the uptick may just be recognition bias, in that people with symptoms are seeking care,” she said. “But there’s definitely a biological basis by which COVID could tip people over into a new diagnosis of heart failure.”
 

Inflammation

Inflammation is probably a key part of the long-term effects of COVID-19.

Some people have a serious immune reaction to COVID-19 called a cytokine storm, said Nitra Aggarwal Gilotra, MD, a cardiologist at Johns Hopkins Medicine. This release of inflammation-causing molecules called cytokines is meant to attack the invading virus. But it can be so severe that it wreaks havoc on healthy tissues and organs and causes lasting damage – if patients even survive it.

In some people, inflammation can affect the heart, causing myocarditis. Myocarditis symptoms include chest pain, breathlessness, and heart palpitations. Though rare, it can be serious and can raise the risk of other heart problems, including heart failure, down the line.

Long COVID may also trigger an autoimmune condition, said Eline Luning Prak, MD, PhD, a pathologist at the Hospital of the University of Pennsylvania, Philadelphia. Long COVID can share many hallmark symptoms with autoimmune diseases, including fatigue, widespread pain, memory problems, and mood disorders.
 

Blood clots

Studies have shown the overcharged inflammatory response to COVID-19 can cause blood clots. This sometimes overwhelming clotting was an early hallmark of COVID-19 infection, and when clots restrict blood flow in the brain, lungs, kidneys, or limbs, they can cause long-term damage. Some can be deadly. Researchers in Sweden found patients were at risk of deep vein thrombosis – a blood clot usually in the leg – up to 3 months after infection and at higher risk of a blood clot in the lung, called pulmonary embolism, for as long as 3 months.

Viral reservoirs

The virus itself may also linger in a patient’s body, causing continued symptoms and, potentially, new flare-ups. Zoe Swank, PhD, of Harvard Medical School, Boston, and colleagues reported in a preprint study that they found pieces of the SARS-CoV-2 virus in the blood of most patients with long COVID symptoms they tested – some as long as a year after infection. The study has not yet been peer reviewed.

Another team found evidence of the virus in stool up to 7 months later, which suggests the virus hides out in the gut. Other early studies have found bits of viral RNA in the appendix, breast tissue, heart, eyes, and brain.
 

Diabetes

Diabetes is a risk factor for getting severe COVID-19, and multiple studies have shown people can get diabetes both while battling infection and afterward. One study of veterans, published in The Lancet Diabetes and Endocrinology, found COVID-19 survivors were about 40% more likely to get diabetes over the next year.

There are a few ways this might happen. Insulin-producing cells in the pancreas have SARS-CoV-2 receptors – a type of molecular doorway the coronavirus can attach to. Damage to these cells could make the body less able to produce insulin, which in turn can lead to diabetes. The virus could also disrupt the balance in the body or cause inflammation that leads to insulin resistance, which can develop into diabetes, Ziad Al-Aly, MD, of the Veterans Affairs St. Louis Health Care System, and colleagues wrote.
 

Nervous system issues

People who get COVID-19 are also more vulnerable to postural orthostatic tachycardia syndrome (POTS). This affects what’s known as the autonomic nervous system, which regulates blood circulation, and includes those things that happen in your body without your having to think about them, like breathing, heartbeat, and digestion. POTS can cause common long COVID neurologic symptoms, including headaches, fatigue, brain fog, insomnia, and problems thinking and concentrating. “This was a known condition prior to COVID, but it was incredibly rare,” said Dr. Viswanathan. “After COVID, I’ve seen it with increasing frequency.”

Long-term outlook

Lasting issues after COVID-19 are much more likely after a moderate or severe infection. Still, plenty of people are battling them even after a mild illness. “As for why, that’s the billion-dollar question,” said Dr. Horwitz. “It’s well known that viral infections can cause long-term dysregulation. Why that is, we really just don’t know.”

Whether it’s virus hiding out in the body, long-term organ damage, or an autoimmune reaction likely differs from person to person. “I’m believing, increasingly, that it’s a combination of all of these, just based on how different patients are responding to different medications,” said Dr. Viswanathan. “One patient will respond to something beautifully, and another patient won’t at all.”

But it’s clear a significant number of people are facing long-term health struggles because of COVID-19, which has infected at least 580 million people globally and 92 million – likely many more – in the United States, according to Johns Hopkins University.

Even a small increased risk of conditions like heart disease or diabetes translates to a huge number of people, Dr. Horwitz said. “If even 1% of people getting COVID have long-term symptoms, that’s a major public health crisis, because that’s 1% of pretty much everybody in the country.”

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

There’s little doubt long COVID is real. The federal government recognizes long COVID as a condition and said in two reports issued in August that one in five adult COVID-19 survivors have a health condition related to their illness.

COVID-19 can damage multiple organs in the body. Sometimes this damage leads to long COVID; sometimes other reasons are at play. Doctors are beginning to sort it out.

There’s a difference between long COVID and an acute infection with lasting effects, doctors say.

“COVID itself can actually cause prolonged illness, and we don’t really call that long COVID,” said Nisha Viswanathan, MD, a doctor at UCLA Health in Los Angeles. But if symptoms extend beyond 12 weeks, that puts patients in the realm of long COVID.

Symptoms can range from mild to severe and can keep people from resuming their normal lives and jobs. Sometimes they last for months, according to the U.S. Department of Health & Human Services.
 

Multiorgan damage

Lung scarring and other lung problems are common after COVID, said Leora Horwitz, MD, an internal medicine specialist at New York University. Even after a mild case, people can have breathing issues for months, a team at Johns Hopkins Medicine, Baltimore, said in an online briefing. One study published in the journal Radiology found damage in people a full year after a COVID-19 diagnosis.

Some people have persistent heart, kidney, liver, and nervous system problems after COVID-19. A study published in 2020 in JAMA Cardiology found 60% of people who had COVID-19 had ongoing signs of heart inflammation. Nearly a third of people hospitalized for COVID-19 get kidney damage that can become chronic, and some end up needing dialysis or a transplant, said C. John Sperati, MD, a kidney specialist at Johns Hopkins Medicine.

This might be, in part, because SARS-CoV-2, the virus that causes COVID-19, directly infects the cells in many organs.

Nicole Bhave, MD, a cardiologist at University of Michigan Health, Ann Arbor is concerned that COVID-19 appears to increase the risk of heart problems in some people.

“Some of the uptick may just be recognition bias, in that people with symptoms are seeking care,” she said. “But there’s definitely a biological basis by which COVID could tip people over into a new diagnosis of heart failure.”
 

Inflammation

Inflammation is probably a key part of the long-term effects of COVID-19.

Some people have a serious immune reaction to COVID-19 called a cytokine storm, said Nitra Aggarwal Gilotra, MD, a cardiologist at Johns Hopkins Medicine. This release of inflammation-causing molecules called cytokines is meant to attack the invading virus. But it can be so severe that it wreaks havoc on healthy tissues and organs and causes lasting damage – if patients even survive it.

In some people, inflammation can affect the heart, causing myocarditis. Myocarditis symptoms include chest pain, breathlessness, and heart palpitations. Though rare, it can be serious and can raise the risk of other heart problems, including heart failure, down the line.

Long COVID may also trigger an autoimmune condition, said Eline Luning Prak, MD, PhD, a pathologist at the Hospital of the University of Pennsylvania, Philadelphia. Long COVID can share many hallmark symptoms with autoimmune diseases, including fatigue, widespread pain, memory problems, and mood disorders.
 

Blood clots

Studies have shown the overcharged inflammatory response to COVID-19 can cause blood clots. This sometimes overwhelming clotting was an early hallmark of COVID-19 infection, and when clots restrict blood flow in the brain, lungs, kidneys, or limbs, they can cause long-term damage. Some can be deadly. Researchers in Sweden found patients were at risk of deep vein thrombosis – a blood clot usually in the leg – up to 3 months after infection and at higher risk of a blood clot in the lung, called pulmonary embolism, for as long as 3 months.

Viral reservoirs

The virus itself may also linger in a patient’s body, causing continued symptoms and, potentially, new flare-ups. Zoe Swank, PhD, of Harvard Medical School, Boston, and colleagues reported in a preprint study that they found pieces of the SARS-CoV-2 virus in the blood of most patients with long COVID symptoms they tested – some as long as a year after infection. The study has not yet been peer reviewed.

Another team found evidence of the virus in stool up to 7 months later, which suggests the virus hides out in the gut. Other early studies have found bits of viral RNA in the appendix, breast tissue, heart, eyes, and brain.
 

Diabetes

Diabetes is a risk factor for getting severe COVID-19, and multiple studies have shown people can get diabetes both while battling infection and afterward. One study of veterans, published in The Lancet Diabetes and Endocrinology, found COVID-19 survivors were about 40% more likely to get diabetes over the next year.

There are a few ways this might happen. Insulin-producing cells in the pancreas have SARS-CoV-2 receptors – a type of molecular doorway the coronavirus can attach to. Damage to these cells could make the body less able to produce insulin, which in turn can lead to diabetes. The virus could also disrupt the balance in the body or cause inflammation that leads to insulin resistance, which can develop into diabetes, Ziad Al-Aly, MD, of the Veterans Affairs St. Louis Health Care System, and colleagues wrote.
 

Nervous system issues

People who get COVID-19 are also more vulnerable to postural orthostatic tachycardia syndrome (POTS). This affects what’s known as the autonomic nervous system, which regulates blood circulation, and includes those things that happen in your body without your having to think about them, like breathing, heartbeat, and digestion. POTS can cause common long COVID neurologic symptoms, including headaches, fatigue, brain fog, insomnia, and problems thinking and concentrating. “This was a known condition prior to COVID, but it was incredibly rare,” said Dr. Viswanathan. “After COVID, I’ve seen it with increasing frequency.”

Long-term outlook

Lasting issues after COVID-19 are much more likely after a moderate or severe infection. Still, plenty of people are battling them even after a mild illness. “As for why, that’s the billion-dollar question,” said Dr. Horwitz. “It’s well known that viral infections can cause long-term dysregulation. Why that is, we really just don’t know.”

Whether it’s virus hiding out in the body, long-term organ damage, or an autoimmune reaction likely differs from person to person. “I’m believing, increasingly, that it’s a combination of all of these, just based on how different patients are responding to different medications,” said Dr. Viswanathan. “One patient will respond to something beautifully, and another patient won’t at all.”

But it’s clear a significant number of people are facing long-term health struggles because of COVID-19, which has infected at least 580 million people globally and 92 million – likely many more – in the United States, according to Johns Hopkins University.

Even a small increased risk of conditions like heart disease or diabetes translates to a huge number of people, Dr. Horwitz said. “If even 1% of people getting COVID have long-term symptoms, that’s a major public health crisis, because that’s 1% of pretty much everybody in the country.”

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

There’s little doubt long COVID is real. The federal government recognizes long COVID as a condition and said in two reports issued in August that one in five adult COVID-19 survivors have a health condition related to their illness.

COVID-19 can damage multiple organs in the body. Sometimes this damage leads to long COVID; sometimes other reasons are at play. Doctors are beginning to sort it out.

There’s a difference between long COVID and an acute infection with lasting effects, doctors say.

“COVID itself can actually cause prolonged illness, and we don’t really call that long COVID,” said Nisha Viswanathan, MD, a doctor at UCLA Health in Los Angeles. But if symptoms extend beyond 12 weeks, that puts patients in the realm of long COVID.

Symptoms can range from mild to severe and can keep people from resuming their normal lives and jobs. Sometimes they last for months, according to the U.S. Department of Health & Human Services.
 

Multiorgan damage

Lung scarring and other lung problems are common after COVID, said Leora Horwitz, MD, an internal medicine specialist at New York University. Even after a mild case, people can have breathing issues for months, a team at Johns Hopkins Medicine, Baltimore, said in an online briefing. One study published in the journal Radiology found damage in people a full year after a COVID-19 diagnosis.

Some people have persistent heart, kidney, liver, and nervous system problems after COVID-19. A study published in 2020 in JAMA Cardiology found 60% of people who had COVID-19 had ongoing signs of heart inflammation. Nearly a third of people hospitalized for COVID-19 get kidney damage that can become chronic, and some end up needing dialysis or a transplant, said C. John Sperati, MD, a kidney specialist at Johns Hopkins Medicine.

This might be, in part, because SARS-CoV-2, the virus that causes COVID-19, directly infects the cells in many organs.

Nicole Bhave, MD, a cardiologist at University of Michigan Health, Ann Arbor is concerned that COVID-19 appears to increase the risk of heart problems in some people.

“Some of the uptick may just be recognition bias, in that people with symptoms are seeking care,” she said. “But there’s definitely a biological basis by which COVID could tip people over into a new diagnosis of heart failure.”
 

Inflammation

Inflammation is probably a key part of the long-term effects of COVID-19.

Some people have a serious immune reaction to COVID-19 called a cytokine storm, said Nitra Aggarwal Gilotra, MD, a cardiologist at Johns Hopkins Medicine. This release of inflammation-causing molecules called cytokines is meant to attack the invading virus. But it can be so severe that it wreaks havoc on healthy tissues and organs and causes lasting damage – if patients even survive it.

In some people, inflammation can affect the heart, causing myocarditis. Myocarditis symptoms include chest pain, breathlessness, and heart palpitations. Though rare, it can be serious and can raise the risk of other heart problems, including heart failure, down the line.

Long COVID may also trigger an autoimmune condition, said Eline Luning Prak, MD, PhD, a pathologist at the Hospital of the University of Pennsylvania, Philadelphia. Long COVID can share many hallmark symptoms with autoimmune diseases, including fatigue, widespread pain, memory problems, and mood disorders.
 

Blood clots

Studies have shown the overcharged inflammatory response to COVID-19 can cause blood clots. This sometimes overwhelming clotting was an early hallmark of COVID-19 infection, and when clots restrict blood flow in the brain, lungs, kidneys, or limbs, they can cause long-term damage. Some can be deadly. Researchers in Sweden found patients were at risk of deep vein thrombosis – a blood clot usually in the leg – up to 3 months after infection and at higher risk of a blood clot in the lung, called pulmonary embolism, for as long as 3 months.

Viral reservoirs

The virus itself may also linger in a patient’s body, causing continued symptoms and, potentially, new flare-ups. Zoe Swank, PhD, of Harvard Medical School, Boston, and colleagues reported in a preprint study that they found pieces of the SARS-CoV-2 virus in the blood of most patients with long COVID symptoms they tested – some as long as a year after infection. The study has not yet been peer reviewed.

Another team found evidence of the virus in stool up to 7 months later, which suggests the virus hides out in the gut. Other early studies have found bits of viral RNA in the appendix, breast tissue, heart, eyes, and brain.
 

Diabetes

Diabetes is a risk factor for getting severe COVID-19, and multiple studies have shown people can get diabetes both while battling infection and afterward. One study of veterans, published in The Lancet Diabetes and Endocrinology, found COVID-19 survivors were about 40% more likely to get diabetes over the next year.

There are a few ways this might happen. Insulin-producing cells in the pancreas have SARS-CoV-2 receptors – a type of molecular doorway the coronavirus can attach to. Damage to these cells could make the body less able to produce insulin, which in turn can lead to diabetes. The virus could also disrupt the balance in the body or cause inflammation that leads to insulin resistance, which can develop into diabetes, Ziad Al-Aly, MD, of the Veterans Affairs St. Louis Health Care System, and colleagues wrote.
 

Nervous system issues

People who get COVID-19 are also more vulnerable to postural orthostatic tachycardia syndrome (POTS). This affects what’s known as the autonomic nervous system, which regulates blood circulation, and includes those things that happen in your body without your having to think about them, like breathing, heartbeat, and digestion. POTS can cause common long COVID neurologic symptoms, including headaches, fatigue, brain fog, insomnia, and problems thinking and concentrating. “This was a known condition prior to COVID, but it was incredibly rare,” said Dr. Viswanathan. “After COVID, I’ve seen it with increasing frequency.”

Long-term outlook

Lasting issues after COVID-19 are much more likely after a moderate or severe infection. Still, plenty of people are battling them even after a mild illness. “As for why, that’s the billion-dollar question,” said Dr. Horwitz. “It’s well known that viral infections can cause long-term dysregulation. Why that is, we really just don’t know.”

Whether it’s virus hiding out in the body, long-term organ damage, or an autoimmune reaction likely differs from person to person. “I’m believing, increasingly, that it’s a combination of all of these, just based on how different patients are responding to different medications,” said Dr. Viswanathan. “One patient will respond to something beautifully, and another patient won’t at all.”

But it’s clear a significant number of people are facing long-term health struggles because of COVID-19, which has infected at least 580 million people globally and 92 million – likely many more – in the United States, according to Johns Hopkins University.

Even a small increased risk of conditions like heart disease or diabetes translates to a huge number of people, Dr. Horwitz said. “If even 1% of people getting COVID have long-term symptoms, that’s a major public health crisis, because that’s 1% of pretty much everybody in the country.”

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

Most people with Omicron likely don’t know it.

That’s according to a study in JAMA Network Open, which says 56% of people who have the Omicron variant of the coronavirus are unaware of their infection.

And it has an upside and a downside, depending on how you look at it, according to Time magazine.

“It’s good news, in some ways, since it underscores the fact that Omicron tends to cause relatively mild symptoms (or no symptoms at all) in vaccinated people,” Time says. “The downside is that many people are likely spreading the virus unintentionally.”

The study looked at 210 hospital patients and employees in the Los Angeles area. More than half who tested positive didn’t know it – because they had no symptoms, or they assumed they merely had a cold or allergies.

“The findings support early data from around the world suggesting that throughout the pandemic, anywhere from 25% to 40% of SARS-CoV-2 infections have been asymptomatic, which presents challenges for public health officials trying to control the spread of the virus,” Time reports.

The study found that awareness of infection rose after at-home tests became available this year. About three-quarters of people in January and February didn’t know their status, for example.

“Findings of this study suggest that low rates of Omicron variant infection awareness may be a key contributor to rapid transmission of the virus within communities,” the authors wrote. “Given that unawareness of active infection precludes self-initiated interventions, such as testing and self-isolation, even modest levels of undiagnosed infection can contribute to substantial population-level transmission.”

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

Most people with Omicron likely don’t know it.

That’s according to a study in JAMA Network Open, which says 56% of people who have the Omicron variant of the coronavirus are unaware of their infection.

And it has an upside and a downside, depending on how you look at it, according to Time magazine.

“It’s good news, in some ways, since it underscores the fact that Omicron tends to cause relatively mild symptoms (or no symptoms at all) in vaccinated people,” Time says. “The downside is that many people are likely spreading the virus unintentionally.”

The study looked at 210 hospital patients and employees in the Los Angeles area. More than half who tested positive didn’t know it – because they had no symptoms, or they assumed they merely had a cold or allergies.

“The findings support early data from around the world suggesting that throughout the pandemic, anywhere from 25% to 40% of SARS-CoV-2 infections have been asymptomatic, which presents challenges for public health officials trying to control the spread of the virus,” Time reports.

The study found that awareness of infection rose after at-home tests became available this year. About three-quarters of people in January and February didn’t know their status, for example.

“Findings of this study suggest that low rates of Omicron variant infection awareness may be a key contributor to rapid transmission of the virus within communities,” the authors wrote. “Given that unawareness of active infection precludes self-initiated interventions, such as testing and self-isolation, even modest levels of undiagnosed infection can contribute to substantial population-level transmission.”

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

Most people with Omicron likely don’t know it.

That’s according to a study in JAMA Network Open, which says 56% of people who have the Omicron variant of the coronavirus are unaware of their infection.

And it has an upside and a downside, depending on how you look at it, according to Time magazine.

“It’s good news, in some ways, since it underscores the fact that Omicron tends to cause relatively mild symptoms (or no symptoms at all) in vaccinated people,” Time says. “The downside is that many people are likely spreading the virus unintentionally.”

The study looked at 210 hospital patients and employees in the Los Angeles area. More than half who tested positive didn’t know it – because they had no symptoms, or they assumed they merely had a cold or allergies.

“The findings support early data from around the world suggesting that throughout the pandemic, anywhere from 25% to 40% of SARS-CoV-2 infections have been asymptomatic, which presents challenges for public health officials trying to control the spread of the virus,” Time reports.

The study found that awareness of infection rose after at-home tests became available this year. About three-quarters of people in January and February didn’t know their status, for example.

“Findings of this study suggest that low rates of Omicron variant infection awareness may be a key contributor to rapid transmission of the virus within communities,” the authors wrote. “Given that unawareness of active infection precludes self-initiated interventions, such as testing and self-isolation, even modest levels of undiagnosed infection can contribute to substantial population-level transmission.”

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

Symptoms of six common cardiovascular diseases (CVD) – acute coronary syndromes, heart failure, valvular disorders, stroke, rhythm disorders, and peripheral vascular disease – often overlap and may vary over time and by sex, the American Heart Association noted in a new scientific statement.

“Symptoms of these cardiovascular diseases can profoundly affect quality of life, and a clear understanding of them is critical for effective diagnosis and treatment decisions,” Corrine Y. Jurgens, PhD, chair of the writing committee, said in a news release.

Copyright pixelheadphoto/Thinkstock

This scientific statement is a “compendium detailing the symptoms associated with CVD, similarities or differences in symptoms among the conditions, and sex differences in symptom presentation and reporting,” said Dr. Jurgens, associate professor at Connell School of Nursing, Boston College.

The new statement was published online in Circulation.

The writing group noted that measuring CVD symptoms can be challenging because of their subjective nature. Symptoms may go unrecognized or unreported if people don’t think they are important or are related to an existing health condition.

“Some people may not consider symptoms like fatigue, sleep disturbance, weight gain, and depression as important or related to cardiovascular disease. However, research indicates that subtle symptoms such as these may predict acute events and the need for hospitalization,” Dr. Jurgens said.
 

ACS – chest pain and associated symptoms

The writing group noted that chest pain is the most frequently reported symptom of ACS and has often been described as substernal pressure or discomfort and may radiate to the jaw, shoulder, arm, or upper back.

The most common co-occurring symptoms are dyspnea, diaphoresis, unusual fatigue, nausea, and lightheadedness. Women are more likely than men to report additional symptoms outside of chest pain.

As a result, they have often been labeled “atypical.” However, a recent AHA advisory notes that this label may have been caused by the lack of women included in the clinical trials from which the symptom lists were derived.

The writing group said there is a need to “harmonize” ACS symptom measurement in research. The current lack of harmonization of ACS symptom measurement in research hampers growth in cumulative evidence.

“Therefore, little can be done to synthesize salient findings about symptoms across ischemic heart disease/ACS studies and to incorporate evidence-based information about symptoms into treatment guidelines and patient education materials,” they cautioned. 
 

Heart failure

Turning to heart failure (HF), the writing group noted that dyspnea is the classic symptom and a common reason adults seek medical care.

However, early, more subtle symptoms should be recognized. These include gastrointestinal symptoms such as upset stomach, nausea, vomiting, and loss of appetite; fatigue; exercise intolerance; insomnia; pain (chest and otherwise); mood disturbances (primarily depression and anxiety); and cognitive dysfunction (brain fog, memory problems).

Women with HF report a wider variety of symptoms, are more likely to have depression and anxiety, and report a lower quality of life, compared with men with HF.

“It is important to account for dyspnea heterogeneity in both clinical practice and research by using nuanced measures and probing questions to capture this common and multifaceted symptom,” the writing group said.

“Monitoring symptoms on a spectrum, versus present or not present, with reliable and valid measures may enhance clinical care by identifying more quickly those who may be at risk for poor outcomes, such as lower quality of life, hospitalization, or death,” Dr. Jurgens added.

“Ultimately, we have work to do in terms of determining who needs more frequent monitoring or intervention to avert poor HF outcomes,” she said.
 

Valvular heart disease

Valvular heart disease is a frequent cause of HF, with symptoms generally indistinguishable from other HF causes. Rheumatic heart disease is still prevalent in low- and middle-income countries but has largely disappeared in high-income countries, with population aging and cardiomyopathies now key drivers of valve disease.

In the absence of acute severe valve dysfunction, patients generally have a prolonged asymptomatic period, followed by a period of progressive symptoms, resulting from the valve lesion itself or secondary myocardial remodeling and dysfunction, the writing group said. 

Symptoms of aortic valve disease often differ between men and women. Aortic stenosis is typically silent for years. As stenosis progresses, women report dyspnea and exercise intolerance more often than men. Women are also more likely to be physically frail and to have a higher New York Heart Association class (III/IV) than men. Men are more likely to have chest pain.

“Given the importance of symptom assessment, more work is needed to determine the incremental value of quantitative symptom measurement as an aid to clinical management,” the writing group said.
 

Stroke

For clinicians, classic stroke symptoms (face drooping, arm weakness, speech difficulty), in addition to nonclassic symptoms, such as partial sensory deficit, dysarthria, vertigo, and diplopia, should be considered for activating a stroke response team, the group says.

A systematic review and meta-analysis revealed that women with stroke were more likely to present with nonfocal symptoms (for example, headache, altered mentality, and coma/stupor) than men, they noted.

To enhance public education about stroke symptoms and to facilitate the diagnosis and treatment of stroke, they say research is needed to better understand the presentation of stroke symptoms by other select demographic characteristics including race and ethnicity, age, and stroke subtype.

Poststroke screening should include assessment for anxiety, depression, fatigue, and pain, the writing group said.
 

Rhythm disorders

Turning to rhythm disorders, the writing group wrote that cardiac arrhythmias, including atrial fibrillation (AFib), atrial flutter, supraventricular tachycardia, bradyarrhythmia, and ventricular tachycardia, present with common symptoms.

Palpitations are a characteristic symptom of many cardiac arrhythmias. The most common cardiac arrhythmia, AFib, may present with palpitations or less specific symptoms (fatigue, dyspnea, dizziness) that occur with a broad range of rhythm disorders. Chest pain, dizziness, presyncope/syncope, and anxiety occur less frequently in AFib, the group said.

Palpitations are considered the typical symptom presentation for AFib, yet patients with new-onset AFib often present with nonspecific symptoms or no symptoms, they pointed out.

Women and younger individuals with AFib typically present with palpitations, whereas men are more commonly asymptomatic. Older age also increases the likelihood of a nonclassic or asymptomatic presentation of AFib.

Despite non-Hispanic Black individuals being at lower risk for development of AFib, research suggests that Black patients are burdened more with palpitations, dyspnea on exertion, exercise intolerance, dizziness, dyspnea at rest, and chest discomfort, compared with White or Hispanic patients.

Peripheral vascular disease

Classic claudication occurs in roughly one-third of patients with peripheral arterial disease (PAD) and is defined as calf pain that occurs in one or both legs with exertion (walking), does not begin at rest, and resolves within 10 minutes of standing still or rest.

However, non–calf exercise pain is reported more frequently than classic claudication symptoms. Women with PAD are more likely to have nonclassic symptoms or an absence of symptoms.

Assessing symptoms at rest, during exercise, and during recovery can assist with classifying symptoms as ischemic or not, the writing group said.

PAD with symptoms is associated with an increased risk for myocardial infarction and stroke, with men at higher risk than women.

Similar to PAD, peripheral venous disease (PVD) can be symptomatic or asymptomatic. Clinical classification of PVD includes symptoms such as leg pain, aching, fatigue, heaviness, cramping, tightness, restless legs syndrome, and skin irritation.

“Measuring vascular symptoms includes assessing quality of life and activity limitations, as well as the psychological impact of the disease. However, existing measures are often based on the clinician’s appraisal rather than the individual’s self-reported symptoms and severity of symptoms,” Dr. Jurgens commented.
 

Watch for depression

Finally, the writing group highlighted the importance of depression in cardiac patients, which occurs at about twice the rate, compared with people without any medical condition (10% vs. 5%).

In a prior statement, the AHA said depression should be considered a risk factor for worse outcomes in patients with ACS or CVD diagnosis.

The new statement highlights that people with persistent chest pain, people with HF, as well as stroke survivors and people with PAD commonly have depression and/or anxiety. In addition, cognitive changes after a stroke may affect how and whether symptoms are experienced or noticed.

While symptom relief is an important part of managing CVD, it’s also important to recognize that “factors such as depression and cognitive function may affect symptom detection and reporting,” Dr. Jurgens said.

“Monitoring and measuring symptoms with tools that appropriately account for depression and cognitive function may help to improve patient care by identifying more quickly people who may be at higher risk,” she added.

The scientific statement was prepared by the volunteer writing group on behalf of the AHA Council on Cardiovascular and Stroke Nursing; the Council on Hypertension; and the Stroke Council. The research had no commercial funding. The authors reported no relevant financial relationships.

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

Symptoms of six common cardiovascular diseases (CVD) – acute coronary syndromes, heart failure, valvular disorders, stroke, rhythm disorders, and peripheral vascular disease – often overlap and may vary over time and by sex, the American Heart Association noted in a new scientific statement.

“Symptoms of these cardiovascular diseases can profoundly affect quality of life, and a clear understanding of them is critical for effective diagnosis and treatment decisions,” Corrine Y. Jurgens, PhD, chair of the writing committee, said in a news release.

Copyright pixelheadphoto/Thinkstock

This scientific statement is a “compendium detailing the symptoms associated with CVD, similarities or differences in symptoms among the conditions, and sex differences in symptom presentation and reporting,” said Dr. Jurgens, associate professor at Connell School of Nursing, Boston College.

The new statement was published online in Circulation.

The writing group noted that measuring CVD symptoms can be challenging because of their subjective nature. Symptoms may go unrecognized or unreported if people don’t think they are important or are related to an existing health condition.

“Some people may not consider symptoms like fatigue, sleep disturbance, weight gain, and depression as important or related to cardiovascular disease. However, research indicates that subtle symptoms such as these may predict acute events and the need for hospitalization,” Dr. Jurgens said.
 

ACS – chest pain and associated symptoms

The writing group noted that chest pain is the most frequently reported symptom of ACS and has often been described as substernal pressure or discomfort and may radiate to the jaw, shoulder, arm, or upper back.

The most common co-occurring symptoms are dyspnea, diaphoresis, unusual fatigue, nausea, and lightheadedness. Women are more likely than men to report additional symptoms outside of chest pain.

As a result, they have often been labeled “atypical.” However, a recent AHA advisory notes that this label may have been caused by the lack of women included in the clinical trials from which the symptom lists were derived.

The writing group said there is a need to “harmonize” ACS symptom measurement in research. The current lack of harmonization of ACS symptom measurement in research hampers growth in cumulative evidence.

“Therefore, little can be done to synthesize salient findings about symptoms across ischemic heart disease/ACS studies and to incorporate evidence-based information about symptoms into treatment guidelines and patient education materials,” they cautioned. 
 

Heart failure

Turning to heart failure (HF), the writing group noted that dyspnea is the classic symptom and a common reason adults seek medical care.

However, early, more subtle symptoms should be recognized. These include gastrointestinal symptoms such as upset stomach, nausea, vomiting, and loss of appetite; fatigue; exercise intolerance; insomnia; pain (chest and otherwise); mood disturbances (primarily depression and anxiety); and cognitive dysfunction (brain fog, memory problems).

Women with HF report a wider variety of symptoms, are more likely to have depression and anxiety, and report a lower quality of life, compared with men with HF.

“It is important to account for dyspnea heterogeneity in both clinical practice and research by using nuanced measures and probing questions to capture this common and multifaceted symptom,” the writing group said.

“Monitoring symptoms on a spectrum, versus present or not present, with reliable and valid measures may enhance clinical care by identifying more quickly those who may be at risk for poor outcomes, such as lower quality of life, hospitalization, or death,” Dr. Jurgens added.

“Ultimately, we have work to do in terms of determining who needs more frequent monitoring or intervention to avert poor HF outcomes,” she said.
 

Valvular heart disease

Valvular heart disease is a frequent cause of HF, with symptoms generally indistinguishable from other HF causes. Rheumatic heart disease is still prevalent in low- and middle-income countries but has largely disappeared in high-income countries, with population aging and cardiomyopathies now key drivers of valve disease.

In the absence of acute severe valve dysfunction, patients generally have a prolonged asymptomatic period, followed by a period of progressive symptoms, resulting from the valve lesion itself or secondary myocardial remodeling and dysfunction, the writing group said. 

Symptoms of aortic valve disease often differ between men and women. Aortic stenosis is typically silent for years. As stenosis progresses, women report dyspnea and exercise intolerance more often than men. Women are also more likely to be physically frail and to have a higher New York Heart Association class (III/IV) than men. Men are more likely to have chest pain.

“Given the importance of symptom assessment, more work is needed to determine the incremental value of quantitative symptom measurement as an aid to clinical management,” the writing group said.
 

Stroke

For clinicians, classic stroke symptoms (face drooping, arm weakness, speech difficulty), in addition to nonclassic symptoms, such as partial sensory deficit, dysarthria, vertigo, and diplopia, should be considered for activating a stroke response team, the group says.

A systematic review and meta-analysis revealed that women with stroke were more likely to present with nonfocal symptoms (for example, headache, altered mentality, and coma/stupor) than men, they noted.

To enhance public education about stroke symptoms and to facilitate the diagnosis and treatment of stroke, they say research is needed to better understand the presentation of stroke symptoms by other select demographic characteristics including race and ethnicity, age, and stroke subtype.

Poststroke screening should include assessment for anxiety, depression, fatigue, and pain, the writing group said.
 

Rhythm disorders

Turning to rhythm disorders, the writing group wrote that cardiac arrhythmias, including atrial fibrillation (AFib), atrial flutter, supraventricular tachycardia, bradyarrhythmia, and ventricular tachycardia, present with common symptoms.

Palpitations are a characteristic symptom of many cardiac arrhythmias. The most common cardiac arrhythmia, AFib, may present with palpitations or less specific symptoms (fatigue, dyspnea, dizziness) that occur with a broad range of rhythm disorders. Chest pain, dizziness, presyncope/syncope, and anxiety occur less frequently in AFib, the group said.

Palpitations are considered the typical symptom presentation for AFib, yet patients with new-onset AFib often present with nonspecific symptoms or no symptoms, they pointed out.

Women and younger individuals with AFib typically present with palpitations, whereas men are more commonly asymptomatic. Older age also increases the likelihood of a nonclassic or asymptomatic presentation of AFib.

Despite non-Hispanic Black individuals being at lower risk for development of AFib, research suggests that Black patients are burdened more with palpitations, dyspnea on exertion, exercise intolerance, dizziness, dyspnea at rest, and chest discomfort, compared with White or Hispanic patients.

Peripheral vascular disease

Classic claudication occurs in roughly one-third of patients with peripheral arterial disease (PAD) and is defined as calf pain that occurs in one or both legs with exertion (walking), does not begin at rest, and resolves within 10 minutes of standing still or rest.

However, non–calf exercise pain is reported more frequently than classic claudication symptoms. Women with PAD are more likely to have nonclassic symptoms or an absence of symptoms.

Assessing symptoms at rest, during exercise, and during recovery can assist with classifying symptoms as ischemic or not, the writing group said.

PAD with symptoms is associated with an increased risk for myocardial infarction and stroke, with men at higher risk than women.

Similar to PAD, peripheral venous disease (PVD) can be symptomatic or asymptomatic. Clinical classification of PVD includes symptoms such as leg pain, aching, fatigue, heaviness, cramping, tightness, restless legs syndrome, and skin irritation.

“Measuring vascular symptoms includes assessing quality of life and activity limitations, as well as the psychological impact of the disease. However, existing measures are often based on the clinician’s appraisal rather than the individual’s self-reported symptoms and severity of symptoms,” Dr. Jurgens commented.
 

Watch for depression

Finally, the writing group highlighted the importance of depression in cardiac patients, which occurs at about twice the rate, compared with people without any medical condition (10% vs. 5%).

In a prior statement, the AHA said depression should be considered a risk factor for worse outcomes in patients with ACS or CVD diagnosis.

The new statement highlights that people with persistent chest pain, people with HF, as well as stroke survivors and people with PAD commonly have depression and/or anxiety. In addition, cognitive changes after a stroke may affect how and whether symptoms are experienced or noticed.

While symptom relief is an important part of managing CVD, it’s also important to recognize that “factors such as depression and cognitive function may affect symptom detection and reporting,” Dr. Jurgens said.

“Monitoring and measuring symptoms with tools that appropriately account for depression and cognitive function may help to improve patient care by identifying more quickly people who may be at higher risk,” she added.

The scientific statement was prepared by the volunteer writing group on behalf of the AHA Council on Cardiovascular and Stroke Nursing; the Council on Hypertension; and the Stroke Council. The research had no commercial funding. The authors reported no relevant financial relationships.

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

Symptoms of six common cardiovascular diseases (CVD) – acute coronary syndromes, heart failure, valvular disorders, stroke, rhythm disorders, and peripheral vascular disease – often overlap and may vary over time and by sex, the American Heart Association noted in a new scientific statement.

“Symptoms of these cardiovascular diseases can profoundly affect quality of life, and a clear understanding of them is critical for effective diagnosis and treatment decisions,” Corrine Y. Jurgens, PhD, chair of the writing committee, said in a news release.

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This scientific statement is a “compendium detailing the symptoms associated with CVD, similarities or differences in symptoms among the conditions, and sex differences in symptom presentation and reporting,” said Dr. Jurgens, associate professor at Connell School of Nursing, Boston College.

The new statement was published online in Circulation.

The writing group noted that measuring CVD symptoms can be challenging because of their subjective nature. Symptoms may go unrecognized or unreported if people don’t think they are important or are related to an existing health condition.

“Some people may not consider symptoms like fatigue, sleep disturbance, weight gain, and depression as important or related to cardiovascular disease. However, research indicates that subtle symptoms such as these may predict acute events and the need for hospitalization,” Dr. Jurgens said.
 

ACS – chest pain and associated symptoms

The writing group noted that chest pain is the most frequently reported symptom of ACS and has often been described as substernal pressure or discomfort and may radiate to the jaw, shoulder, arm, or upper back.

The most common co-occurring symptoms are dyspnea, diaphoresis, unusual fatigue, nausea, and lightheadedness. Women are more likely than men to report additional symptoms outside of chest pain.

As a result, they have often been labeled “atypical.” However, a recent AHA advisory notes that this label may have been caused by the lack of women included in the clinical trials from which the symptom lists were derived.

The writing group said there is a need to “harmonize” ACS symptom measurement in research. The current lack of harmonization of ACS symptom measurement in research hampers growth in cumulative evidence.

“Therefore, little can be done to synthesize salient findings about symptoms across ischemic heart disease/ACS studies and to incorporate evidence-based information about symptoms into treatment guidelines and patient education materials,” they cautioned. 
 

Heart failure

Turning to heart failure (HF), the writing group noted that dyspnea is the classic symptom and a common reason adults seek medical care.

However, early, more subtle symptoms should be recognized. These include gastrointestinal symptoms such as upset stomach, nausea, vomiting, and loss of appetite; fatigue; exercise intolerance; insomnia; pain (chest and otherwise); mood disturbances (primarily depression and anxiety); and cognitive dysfunction (brain fog, memory problems).

Women with HF report a wider variety of symptoms, are more likely to have depression and anxiety, and report a lower quality of life, compared with men with HF.

“It is important to account for dyspnea heterogeneity in both clinical practice and research by using nuanced measures and probing questions to capture this common and multifaceted symptom,” the writing group said.

“Monitoring symptoms on a spectrum, versus present or not present, with reliable and valid measures may enhance clinical care by identifying more quickly those who may be at risk for poor outcomes, such as lower quality of life, hospitalization, or death,” Dr. Jurgens added.

“Ultimately, we have work to do in terms of determining who needs more frequent monitoring or intervention to avert poor HF outcomes,” she said.
 

Valvular heart disease

Valvular heart disease is a frequent cause of HF, with symptoms generally indistinguishable from other HF causes. Rheumatic heart disease is still prevalent in low- and middle-income countries but has largely disappeared in high-income countries, with population aging and cardiomyopathies now key drivers of valve disease.

In the absence of acute severe valve dysfunction, patients generally have a prolonged asymptomatic period, followed by a period of progressive symptoms, resulting from the valve lesion itself or secondary myocardial remodeling and dysfunction, the writing group said. 

Symptoms of aortic valve disease often differ between men and women. Aortic stenosis is typically silent for years. As stenosis progresses, women report dyspnea and exercise intolerance more often than men. Women are also more likely to be physically frail and to have a higher New York Heart Association class (III/IV) than men. Men are more likely to have chest pain.

“Given the importance of symptom assessment, more work is needed to determine the incremental value of quantitative symptom measurement as an aid to clinical management,” the writing group said.
 

Stroke

For clinicians, classic stroke symptoms (face drooping, arm weakness, speech difficulty), in addition to nonclassic symptoms, such as partial sensory deficit, dysarthria, vertigo, and diplopia, should be considered for activating a stroke response team, the group says.

A systematic review and meta-analysis revealed that women with stroke were more likely to present with nonfocal symptoms (for example, headache, altered mentality, and coma/stupor) than men, they noted.

To enhance public education about stroke symptoms and to facilitate the diagnosis and treatment of stroke, they say research is needed to better understand the presentation of stroke symptoms by other select demographic characteristics including race and ethnicity, age, and stroke subtype.

Poststroke screening should include assessment for anxiety, depression, fatigue, and pain, the writing group said.
 

Rhythm disorders

Turning to rhythm disorders, the writing group wrote that cardiac arrhythmias, including atrial fibrillation (AFib), atrial flutter, supraventricular tachycardia, bradyarrhythmia, and ventricular tachycardia, present with common symptoms.

Palpitations are a characteristic symptom of many cardiac arrhythmias. The most common cardiac arrhythmia, AFib, may present with palpitations or less specific symptoms (fatigue, dyspnea, dizziness) that occur with a broad range of rhythm disorders. Chest pain, dizziness, presyncope/syncope, and anxiety occur less frequently in AFib, the group said.

Palpitations are considered the typical symptom presentation for AFib, yet patients with new-onset AFib often present with nonspecific symptoms or no symptoms, they pointed out.

Women and younger individuals with AFib typically present with palpitations, whereas men are more commonly asymptomatic. Older age also increases the likelihood of a nonclassic or asymptomatic presentation of AFib.

Despite non-Hispanic Black individuals being at lower risk for development of AFib, research suggests that Black patients are burdened more with palpitations, dyspnea on exertion, exercise intolerance, dizziness, dyspnea at rest, and chest discomfort, compared with White or Hispanic patients.

Peripheral vascular disease

Classic claudication occurs in roughly one-third of patients with peripheral arterial disease (PAD) and is defined as calf pain that occurs in one or both legs with exertion (walking), does not begin at rest, and resolves within 10 minutes of standing still or rest.

However, non–calf exercise pain is reported more frequently than classic claudication symptoms. Women with PAD are more likely to have nonclassic symptoms or an absence of symptoms.

Assessing symptoms at rest, during exercise, and during recovery can assist with classifying symptoms as ischemic or not, the writing group said.

PAD with symptoms is associated with an increased risk for myocardial infarction and stroke, with men at higher risk than women.

Similar to PAD, peripheral venous disease (PVD) can be symptomatic or asymptomatic. Clinical classification of PVD includes symptoms such as leg pain, aching, fatigue, heaviness, cramping, tightness, restless legs syndrome, and skin irritation.

“Measuring vascular symptoms includes assessing quality of life and activity limitations, as well as the psychological impact of the disease. However, existing measures are often based on the clinician’s appraisal rather than the individual’s self-reported symptoms and severity of symptoms,” Dr. Jurgens commented.
 

Watch for depression

Finally, the writing group highlighted the importance of depression in cardiac patients, which occurs at about twice the rate, compared with people without any medical condition (10% vs. 5%).

In a prior statement, the AHA said depression should be considered a risk factor for worse outcomes in patients with ACS or CVD diagnosis.

The new statement highlights that people with persistent chest pain, people with HF, as well as stroke survivors and people with PAD commonly have depression and/or anxiety. In addition, cognitive changes after a stroke may affect how and whether symptoms are experienced or noticed.

While symptom relief is an important part of managing CVD, it’s also important to recognize that “factors such as depression and cognitive function may affect symptom detection and reporting,” Dr. Jurgens said.

“Monitoring and measuring symptoms with tools that appropriately account for depression and cognitive function may help to improve patient care by identifying more quickly people who may be at higher risk,” she added.

The scientific statement was prepared by the volunteer writing group on behalf of the AHA Council on Cardiovascular and Stroke Nursing; the Council on Hypertension; and the Stroke Council. The research had no commercial funding. The authors reported no relevant financial relationships.

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