Miriam E. Tucker

Providing care for individuals with both cardiovascular disease (CVD) and obesity necessitates addressing both conditions at the same time, say the authors of a new state-of-the-art review.

“CVD and obesity are common conditions that frequently coexist. We cannot treat one of these conditions while ignoring the other,” Rosana G. Bianchettin, MD, of the division of cardiovascular diseases, Mayo Clinic, Rochester, Minn., and colleagues wrote in their review, recently published in the Journal of the American College of Cardiology.

The review outlines, for example, how obesity can impair common imaging tests used to diagnose heart disease, potentially reducing their accuracy.

And cardiac procedures such as percutaneous coronary intervention, open heart surgery, and revascularization all involve greater risk in the setting of obesity, while procedures such as valve replacement and heart transplantation carry a greater likelihood of failure.

Obesity can also alter drug pharmacokinetics and pharmacodynamics.

Weight reduction is an important part of the management of patients with cardiovascular disease and obesity, and “cardiac rehabilitation programs represent a potential opportunity for structured interventions,” the authors noted. However, “when other measures are insufficient, bariatric surgery can improve outcomes.”

They also advised against relying solely on body mass index (BMI) to assess adiposity: “It is prudent to investigate a range of complementary ... parameters alongside standard BMI calculations (accounting for age, race, and sex), including measures of central obesity, such as waist circumference, waist-to-hip ratio, and weight-to-height ratio.”
 

Excess fat acts as filter and can skew diagnostic results

“Obesity affects nearly all the diagnostic tests used in cardiology, such as ECG, CT scan, MRI, and echocardiogram,” senior author Francisco Lopez-Jimenez, MD, director of preventive cardiology at Mayo Clinic, explained in a statement.

The review includes a detailed table of these key obesity-related challenges. With electrocardiograms, for example, obesity can cause displacement of the heart, increased cardiac workload, and widening of the distance between the heart and the recording electrodes.

Obesity also lowers the sensitivity of exercise echocardiography, and use of CT coronary angiogram is completely precluded in people with a BMI above 40 kg/m². In interventional radiology, there may be poor visualization of target areas.

“Excess fat acts as a kind of filter and can skew test readings to under- or overdiagnosis,” noted Dr. Lopez-Jimenez.
 

Therapeutic challenges: Drugs may work differently

A longer table in the review summarizes the therapeutic challenges involved in lifestyle modification, pharmacology, cardiac procedures, and other therapeutic measures for people with the two conditions.

Obesity can limit a person’s ability to exercise, for example, and smoking cessation may promote overeating and further weight gain.

Moreover, “tailoring pharmacotherapy is difficult because of unique pharmacokinetic and pharmacodynamic factors in people with obesity that alter distribution, metabolism, and elimination of drugs. Each drug also has special properties that must be considered when it is administrated,” the authors wrote.

Examples include the higher volume of distribution of lipophilic drugs in those with increased fat mass, alterations in liver metabolism, and difficulties with anticoagulant dosing.
 

Cardiac rehabilitation is an intervention opportunity

Although cardiac rehabilitation is “a cornerstone in secondary prevention” for people who have experienced a cardiac event, only 8% of such programs include formal in-house behavioral weight-loss programs.

But that could be remedied and expanded with the use of options such as home-based rehabilitation and telephone counseling, particularly in rural communities, Dr. Bianchettin and colleagues said.

“Motivated individuals will benefit from multicomponent approaches and should be encouraged to set specific, proximal, shared goals with their health care professional. A multitude of tools are available to support self-monitoring (e.g., smartphone applications, food diaries), and scheduled regular follow-up and feedback on progress can help to maintain motivation,” they wrote.

The bottom line, said Dr. Lopez-Jimenez: “Obesity is an important risk factor to address in patients with heart disease and it requires us to do something. ... The patient needs to know that their clinician can help them lose weight. Overall, weight-loss solutions come down to finding the right therapy for the patient.”

Dr. Bianchettin reported no relevant financial relationships. Dr. Lopez-Jimenez has reported conducting research related to 3D body assessment with Select Research, Mayo Clinic, and may benefit in the future if the technology is commercialized; he has not received any relevant monetary, financial, or other type of compensation to date, in relationship to this arrangement. He is a member of the scientific advisory board for Novo Nordisk.

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

Providing care for individuals with both cardiovascular disease (CVD) and obesity necessitates addressing both conditions at the same time, say the authors of a new state-of-the-art review.

“CVD and obesity are common conditions that frequently coexist. We cannot treat one of these conditions while ignoring the other,” Rosana G. Bianchettin, MD, of the division of cardiovascular diseases, Mayo Clinic, Rochester, Minn., and colleagues wrote in their review, recently published in the Journal of the American College of Cardiology.

The review outlines, for example, how obesity can impair common imaging tests used to diagnose heart disease, potentially reducing their accuracy.

And cardiac procedures such as percutaneous coronary intervention, open heart surgery, and revascularization all involve greater risk in the setting of obesity, while procedures such as valve replacement and heart transplantation carry a greater likelihood of failure.

Obesity can also alter drug pharmacokinetics and pharmacodynamics.

Weight reduction is an important part of the management of patients with cardiovascular disease and obesity, and “cardiac rehabilitation programs represent a potential opportunity for structured interventions,” the authors noted. However, “when other measures are insufficient, bariatric surgery can improve outcomes.”

They also advised against relying solely on body mass index (BMI) to assess adiposity: “It is prudent to investigate a range of complementary ... parameters alongside standard BMI calculations (accounting for age, race, and sex), including measures of central obesity, such as waist circumference, waist-to-hip ratio, and weight-to-height ratio.”
 

Excess fat acts as filter and can skew diagnostic results

“Obesity affects nearly all the diagnostic tests used in cardiology, such as ECG, CT scan, MRI, and echocardiogram,” senior author Francisco Lopez-Jimenez, MD, director of preventive cardiology at Mayo Clinic, explained in a statement.

The review includes a detailed table of these key obesity-related challenges. With electrocardiograms, for example, obesity can cause displacement of the heart, increased cardiac workload, and widening of the distance between the heart and the recording electrodes.

Obesity also lowers the sensitivity of exercise echocardiography, and use of CT coronary angiogram is completely precluded in people with a BMI above 40 kg/m². In interventional radiology, there may be poor visualization of target areas.

“Excess fat acts as a kind of filter and can skew test readings to under- or overdiagnosis,” noted Dr. Lopez-Jimenez.
 

Therapeutic challenges: Drugs may work differently

A longer table in the review summarizes the therapeutic challenges involved in lifestyle modification, pharmacology, cardiac procedures, and other therapeutic measures for people with the two conditions.

Obesity can limit a person’s ability to exercise, for example, and smoking cessation may promote overeating and further weight gain.

Moreover, “tailoring pharmacotherapy is difficult because of unique pharmacokinetic and pharmacodynamic factors in people with obesity that alter distribution, metabolism, and elimination of drugs. Each drug also has special properties that must be considered when it is administrated,” the authors wrote.

Examples include the higher volume of distribution of lipophilic drugs in those with increased fat mass, alterations in liver metabolism, and difficulties with anticoagulant dosing.
 

Cardiac rehabilitation is an intervention opportunity

Although cardiac rehabilitation is “a cornerstone in secondary prevention” for people who have experienced a cardiac event, only 8% of such programs include formal in-house behavioral weight-loss programs.

But that could be remedied and expanded with the use of options such as home-based rehabilitation and telephone counseling, particularly in rural communities, Dr. Bianchettin and colleagues said.

“Motivated individuals will benefit from multicomponent approaches and should be encouraged to set specific, proximal, shared goals with their health care professional. A multitude of tools are available to support self-monitoring (e.g., smartphone applications, food diaries), and scheduled regular follow-up and feedback on progress can help to maintain motivation,” they wrote.

The bottom line, said Dr. Lopez-Jimenez: “Obesity is an important risk factor to address in patients with heart disease and it requires us to do something. ... The patient needs to know that their clinician can help them lose weight. Overall, weight-loss solutions come down to finding the right therapy for the patient.”

Dr. Bianchettin reported no relevant financial relationships. Dr. Lopez-Jimenez has reported conducting research related to 3D body assessment with Select Research, Mayo Clinic, and may benefit in the future if the technology is commercialized; he has not received any relevant monetary, financial, or other type of compensation to date, in relationship to this arrangement. He is a member of the scientific advisory board for Novo Nordisk.

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

Providing care for individuals with both cardiovascular disease (CVD) and obesity necessitates addressing both conditions at the same time, say the authors of a new state-of-the-art review.

“CVD and obesity are common conditions that frequently coexist. We cannot treat one of these conditions while ignoring the other,” Rosana G. Bianchettin, MD, of the division of cardiovascular diseases, Mayo Clinic, Rochester, Minn., and colleagues wrote in their review, recently published in the Journal of the American College of Cardiology.

The review outlines, for example, how obesity can impair common imaging tests used to diagnose heart disease, potentially reducing their accuracy.

And cardiac procedures such as percutaneous coronary intervention, open heart surgery, and revascularization all involve greater risk in the setting of obesity, while procedures such as valve replacement and heart transplantation carry a greater likelihood of failure.

Obesity can also alter drug pharmacokinetics and pharmacodynamics.

Weight reduction is an important part of the management of patients with cardiovascular disease and obesity, and “cardiac rehabilitation programs represent a potential opportunity for structured interventions,” the authors noted. However, “when other measures are insufficient, bariatric surgery can improve outcomes.”

They also advised against relying solely on body mass index (BMI) to assess adiposity: “It is prudent to investigate a range of complementary ... parameters alongside standard BMI calculations (accounting for age, race, and sex), including measures of central obesity, such as waist circumference, waist-to-hip ratio, and weight-to-height ratio.”
 

Excess fat acts as filter and can skew diagnostic results

“Obesity affects nearly all the diagnostic tests used in cardiology, such as ECG, CT scan, MRI, and echocardiogram,” senior author Francisco Lopez-Jimenez, MD, director of preventive cardiology at Mayo Clinic, explained in a statement.

The review includes a detailed table of these key obesity-related challenges. With electrocardiograms, for example, obesity can cause displacement of the heart, increased cardiac workload, and widening of the distance between the heart and the recording electrodes.

Obesity also lowers the sensitivity of exercise echocardiography, and use of CT coronary angiogram is completely precluded in people with a BMI above 40 kg/m². In interventional radiology, there may be poor visualization of target areas.

“Excess fat acts as a kind of filter and can skew test readings to under- or overdiagnosis,” noted Dr. Lopez-Jimenez.
 

Therapeutic challenges: Drugs may work differently

A longer table in the review summarizes the therapeutic challenges involved in lifestyle modification, pharmacology, cardiac procedures, and other therapeutic measures for people with the two conditions.

Obesity can limit a person’s ability to exercise, for example, and smoking cessation may promote overeating and further weight gain.

Moreover, “tailoring pharmacotherapy is difficult because of unique pharmacokinetic and pharmacodynamic factors in people with obesity that alter distribution, metabolism, and elimination of drugs. Each drug also has special properties that must be considered when it is administrated,” the authors wrote.

Examples include the higher volume of distribution of lipophilic drugs in those with increased fat mass, alterations in liver metabolism, and difficulties with anticoagulant dosing.
 

Cardiac rehabilitation is an intervention opportunity

Although cardiac rehabilitation is “a cornerstone in secondary prevention” for people who have experienced a cardiac event, only 8% of such programs include formal in-house behavioral weight-loss programs.

But that could be remedied and expanded with the use of options such as home-based rehabilitation and telephone counseling, particularly in rural communities, Dr. Bianchettin and colleagues said.

“Motivated individuals will benefit from multicomponent approaches and should be encouraged to set specific, proximal, shared goals with their health care professional. A multitude of tools are available to support self-monitoring (e.g., smartphone applications, food diaries), and scheduled regular follow-up and feedback on progress can help to maintain motivation,” they wrote.

The bottom line, said Dr. Lopez-Jimenez: “Obesity is an important risk factor to address in patients with heart disease and it requires us to do something. ... The patient needs to know that their clinician can help them lose weight. Overall, weight-loss solutions come down to finding the right therapy for the patient.”

Dr. Bianchettin reported no relevant financial relationships. Dr. Lopez-Jimenez has reported conducting research related to 3D body assessment with Select Research, Mayo Clinic, and may benefit in the future if the technology is commercialized; he has not received any relevant monetary, financial, or other type of compensation to date, in relationship to this arrangement. He is a member of the scientific advisory board for Novo Nordisk.

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

A new documentary premiering at the 2023 South by Southwest (SXSW) Festival illustrates the human consequences of insulin’s high cost in the United States. Its creators hope that it will help spur action toward overall prescription pricing reform.

Pay or Die: A Documentary is scheduled to premiere March 11. It will be shown twice more during the festival, which runs from March 10 to 19 in Austin, Texas. The documentary was co-created and directed by filmmaker and cinematographer Scott Alexander Ruderman, who has type 1 diabetes, and his partner, producer and journalist Rachael Dyer. One of the executive producers is Sarah Silverman, a comic, actor, producer, and health care reform advocate.

The 90-minute film follows three human stories: A mother and young daughter who both have type 1 diabetes and become homeless after spending their rent money on insulin, a young adult diagnosed during the COVID-19 pandemic, and a mother whose 26-year-old son died from diabetic ketoacidosis (DKA) after his insulin was rationed.

“As an Australian now living in the U.S. and seeing how the health care system works here, especially for people with type 1 diabetes like Scott, and how access to insulin is a life-or-death situation, has been very eye-opening for me. I’m also half Canadian, and both are countries where access to health care is a human right, not a business,” Ms. Dyer said in an interview.

In response to the March 1 announcement from Eli Lilly about its insulin price cut, the film’s team told this news organization: “While we commend Eli Lilly in taking this first step and hope that Novo Nordisk and Sanofi [the two other major insulin manufacturers] follow suit, it is important to remember that the key issue is not about these companies voluntarily slashing prices; it’s about changing laws so the insulin manufacturers do not have the ability to raise the prices again.

“This is the life-or-death issue that we focus on in our documentary Pay or Die. It’s also important to note that insulin is just one of the many expensive prescription drugs in the U.S., which is why we need to call for reform. Affordable medication needs to be a basic human right within reach for all Americans.”
 

Physician perspective: Good news on insulin, but broader issues

The film features four physicians. One, Mayo Clinic oncologist/hematologist S. Vincent Rajkumar, MD, has spoken and published widely on insulin prices specifically and U.S. drug costs more broadly.

The other three are Joslin Clinic endocrinologist Elizabeth Halprin, MD, Massachusetts General Hospital internist Leigh Simmons, MD, and New York University physician and essayist Danielle Ofri, MD, PhD.

In an interview after the Lilly announcement, Dr. Rajkumar said, “I think this is very, very good news for patients. ... The fact that they’re doing it means they’re listening to us and listening to patients, which is good. And I do hope that other insulin manufacturers do the same shortly.”

However, he added, “for prescription drug prices and particularly cancer drug prices, there’s more reform that’s needed, and that’s at the policy level. ... The goal of the film was to use insulin to highlight the prescription drug price problem in the U.S.”
 

‘Then life changed’

The filmmaker, Mr. Ruderman, was diagnosed at age 19, during his freshman year in college. He spent several days hospitalized with DKA, and “then life changed,” he said in an interview. He went into photography first and later filmmaking, always with the uneasy knowledge that he could lose access to insulin at any time.

The impetus for the film came after he and Ms. Dyer walked into a pharmacy while visiting Canada in 2018 and discovered how much cheaper insulin was compared to the United States – roughly $20 per vial, compared to $300 in the U.S.

“When Rachael [Dyer] and I came back to the U.S., we were actually quite shocked about how many people are struggling to afford their medication ... the uninsured, those aging off their parents’ health insurance. So that was really the kickoff to us going into the field for the last 4 years making this documentary.”

As a freelancer, Mr. Ruderman has been personally paying for expensive “premium” health insurance that covers the pump and glucose monitors he uses. He buys insulin overseas as often as possible.

“Fortunately, I haven’t been in a situation where I’ve had to ration my insulin, but the fear is instilled in me. What if there’s a month when I can’t afford it? What am I going to do?” (Note: The writer of this article is in the same situation, which could be alleviated by Lilly’s action.)
 

Timing is everything

To be sure, even before Lilly’s announcement, some progress had been made since work on the film began.

The issue of insulin pricing has received wide media attention. More than 20 states have passed copay caps on insulin, and a new law capping the cost of insulin for Medicare beneficiaries at $35/month went into effect in January 2023. President Biden mentioned insulin during his State of the Union address, and Georgia Senator Raphael Warnock made the issue a centerpiece of his campaign.

But there have also been losses, including the failure thus far to pass a nationwide copay cap.

These recent developments make this a good time for the film’s debut, producer Yael Melamede said in an interview. “There’s a lot happening in the space, but also a lot of incredible disappointments along the way, so we are really interested in getting this film out now.”

Ms. Melamede, who owns a film production company, said, “I’ve done a lot of films that have some issue advocacy side to them. I love this film because it’s grounded in the stories of real people. ... We feel this is a perfect catalyst to keep the energy going and for people to say this is super-important and not get distracted.”

While the film doesn’t advocate for specific policies, there is a “call to action” at the end that points viewers to resources on the website for writing to their members of Congress along with additional ways to become personally involved.

Ms. Dyer told this news organization, “This film is not only focusing on type 1 diabetes. That is obviously the crux of the issue, but it is a broader health care message for everyone wanting to make a change for health care in this country, the richest country in the world.”

At SXSW, Pay or Die will be competing with seven other films in the documentary feature competition, and it is eligible to win other awards.

Several other activities at the festival will address the topics of diabetes and U.S. health care costs, including a panel discussion titled Crushing: The Burden of Diabetes on Patients, featuring musician and actor Nick Jonas, who has type 1 diabetes, and a representative from the continuous glucose monitor manufacturer Dexcom.

Another panel, Young and Uninsured: Pay or Die, will include Dr. Rajkumar, Mr. Ruderman, Texas Representative James Talarico, who is advancing an insulin cap bill in that state, and Nicole Smith-Holt, the Minnesota mother of the young man who died because he couldn’t afford his insulin.

Mr. Ruderman, Ms. Dyer, Ms. Melamede, and Dr. Rajkumar have disclosed no relevant financial relationships.

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

A new documentary premiering at the 2023 South by Southwest (SXSW) Festival illustrates the human consequences of insulin’s high cost in the United States. Its creators hope that it will help spur action toward overall prescription pricing reform.

Pay or Die: A Documentary is scheduled to premiere March 11. It will be shown twice more during the festival, which runs from March 10 to 19 in Austin, Texas. The documentary was co-created and directed by filmmaker and cinematographer Scott Alexander Ruderman, who has type 1 diabetes, and his partner, producer and journalist Rachael Dyer. One of the executive producers is Sarah Silverman, a comic, actor, producer, and health care reform advocate.

The 90-minute film follows three human stories: A mother and young daughter who both have type 1 diabetes and become homeless after spending their rent money on insulin, a young adult diagnosed during the COVID-19 pandemic, and a mother whose 26-year-old son died from diabetic ketoacidosis (DKA) after his insulin was rationed.

“As an Australian now living in the U.S. and seeing how the health care system works here, especially for people with type 1 diabetes like Scott, and how access to insulin is a life-or-death situation, has been very eye-opening for me. I’m also half Canadian, and both are countries where access to health care is a human right, not a business,” Ms. Dyer said in an interview.

In response to the March 1 announcement from Eli Lilly about its insulin price cut, the film’s team told this news organization: “While we commend Eli Lilly in taking this first step and hope that Novo Nordisk and Sanofi [the two other major insulin manufacturers] follow suit, it is important to remember that the key issue is not about these companies voluntarily slashing prices; it’s about changing laws so the insulin manufacturers do not have the ability to raise the prices again.

“This is the life-or-death issue that we focus on in our documentary Pay or Die. It’s also important to note that insulin is just one of the many expensive prescription drugs in the U.S., which is why we need to call for reform. Affordable medication needs to be a basic human right within reach for all Americans.”
 

Physician perspective: Good news on insulin, but broader issues

The film features four physicians. One, Mayo Clinic oncologist/hematologist S. Vincent Rajkumar, MD, has spoken and published widely on insulin prices specifically and U.S. drug costs more broadly.

The other three are Joslin Clinic endocrinologist Elizabeth Halprin, MD, Massachusetts General Hospital internist Leigh Simmons, MD, and New York University physician and essayist Danielle Ofri, MD, PhD.

In an interview after the Lilly announcement, Dr. Rajkumar said, “I think this is very, very good news for patients. ... The fact that they’re doing it means they’re listening to us and listening to patients, which is good. And I do hope that other insulin manufacturers do the same shortly.”

However, he added, “for prescription drug prices and particularly cancer drug prices, there’s more reform that’s needed, and that’s at the policy level. ... The goal of the film was to use insulin to highlight the prescription drug price problem in the U.S.”
 

‘Then life changed’

The filmmaker, Mr. Ruderman, was diagnosed at age 19, during his freshman year in college. He spent several days hospitalized with DKA, and “then life changed,” he said in an interview. He went into photography first and later filmmaking, always with the uneasy knowledge that he could lose access to insulin at any time.

The impetus for the film came after he and Ms. Dyer walked into a pharmacy while visiting Canada in 2018 and discovered how much cheaper insulin was compared to the United States – roughly $20 per vial, compared to $300 in the U.S.

“When Rachael [Dyer] and I came back to the U.S., we were actually quite shocked about how many people are struggling to afford their medication ... the uninsured, those aging off their parents’ health insurance. So that was really the kickoff to us going into the field for the last 4 years making this documentary.”

As a freelancer, Mr. Ruderman has been personally paying for expensive “premium” health insurance that covers the pump and glucose monitors he uses. He buys insulin overseas as often as possible.

“Fortunately, I haven’t been in a situation where I’ve had to ration my insulin, but the fear is instilled in me. What if there’s a month when I can’t afford it? What am I going to do?” (Note: The writer of this article is in the same situation, which could be alleviated by Lilly’s action.)
 

Timing is everything

To be sure, even before Lilly’s announcement, some progress had been made since work on the film began.

The issue of insulin pricing has received wide media attention. More than 20 states have passed copay caps on insulin, and a new law capping the cost of insulin for Medicare beneficiaries at $35/month went into effect in January 2023. President Biden mentioned insulin during his State of the Union address, and Georgia Senator Raphael Warnock made the issue a centerpiece of his campaign.

But there have also been losses, including the failure thus far to pass a nationwide copay cap.

These recent developments make this a good time for the film’s debut, producer Yael Melamede said in an interview. “There’s a lot happening in the space, but also a lot of incredible disappointments along the way, so we are really interested in getting this film out now.”

Ms. Melamede, who owns a film production company, said, “I’ve done a lot of films that have some issue advocacy side to them. I love this film because it’s grounded in the stories of real people. ... We feel this is a perfect catalyst to keep the energy going and for people to say this is super-important and not get distracted.”

While the film doesn’t advocate for specific policies, there is a “call to action” at the end that points viewers to resources on the website for writing to their members of Congress along with additional ways to become personally involved.

Ms. Dyer told this news organization, “This film is not only focusing on type 1 diabetes. That is obviously the crux of the issue, but it is a broader health care message for everyone wanting to make a change for health care in this country, the richest country in the world.”

At SXSW, Pay or Die will be competing with seven other films in the documentary feature competition, and it is eligible to win other awards.

Several other activities at the festival will address the topics of diabetes and U.S. health care costs, including a panel discussion titled Crushing: The Burden of Diabetes on Patients, featuring musician and actor Nick Jonas, who has type 1 diabetes, and a representative from the continuous glucose monitor manufacturer Dexcom.

Another panel, Young and Uninsured: Pay or Die, will include Dr. Rajkumar, Mr. Ruderman, Texas Representative James Talarico, who is advancing an insulin cap bill in that state, and Nicole Smith-Holt, the Minnesota mother of the young man who died because he couldn’t afford his insulin.

Mr. Ruderman, Ms. Dyer, Ms. Melamede, and Dr. Rajkumar have disclosed no relevant financial relationships.

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

A new documentary premiering at the 2023 South by Southwest (SXSW) Festival illustrates the human consequences of insulin’s high cost in the United States. Its creators hope that it will help spur action toward overall prescription pricing reform.

Pay or Die: A Documentary is scheduled to premiere March 11. It will be shown twice more during the festival, which runs from March 10 to 19 in Austin, Texas. The documentary was co-created and directed by filmmaker and cinematographer Scott Alexander Ruderman, who has type 1 diabetes, and his partner, producer and journalist Rachael Dyer. One of the executive producers is Sarah Silverman, a comic, actor, producer, and health care reform advocate.

The 90-minute film follows three human stories: A mother and young daughter who both have type 1 diabetes and become homeless after spending their rent money on insulin, a young adult diagnosed during the COVID-19 pandemic, and a mother whose 26-year-old son died from diabetic ketoacidosis (DKA) after his insulin was rationed.

“As an Australian now living in the U.S. and seeing how the health care system works here, especially for people with type 1 diabetes like Scott, and how access to insulin is a life-or-death situation, has been very eye-opening for me. I’m also half Canadian, and both are countries where access to health care is a human right, not a business,” Ms. Dyer said in an interview.

In response to the March 1 announcement from Eli Lilly about its insulin price cut, the film’s team told this news organization: “While we commend Eli Lilly in taking this first step and hope that Novo Nordisk and Sanofi [the two other major insulin manufacturers] follow suit, it is important to remember that the key issue is not about these companies voluntarily slashing prices; it’s about changing laws so the insulin manufacturers do not have the ability to raise the prices again.

“This is the life-or-death issue that we focus on in our documentary Pay or Die. It’s also important to note that insulin is just one of the many expensive prescription drugs in the U.S., which is why we need to call for reform. Affordable medication needs to be a basic human right within reach for all Americans.”
 

Physician perspective: Good news on insulin, but broader issues

The film features four physicians. One, Mayo Clinic oncologist/hematologist S. Vincent Rajkumar, MD, has spoken and published widely on insulin prices specifically and U.S. drug costs more broadly.

The other three are Joslin Clinic endocrinologist Elizabeth Halprin, MD, Massachusetts General Hospital internist Leigh Simmons, MD, and New York University physician and essayist Danielle Ofri, MD, PhD.

In an interview after the Lilly announcement, Dr. Rajkumar said, “I think this is very, very good news for patients. ... The fact that they’re doing it means they’re listening to us and listening to patients, which is good. And I do hope that other insulin manufacturers do the same shortly.”

However, he added, “for prescription drug prices and particularly cancer drug prices, there’s more reform that’s needed, and that’s at the policy level. ... The goal of the film was to use insulin to highlight the prescription drug price problem in the U.S.”
 

‘Then life changed’

The filmmaker, Mr. Ruderman, was diagnosed at age 19, during his freshman year in college. He spent several days hospitalized with DKA, and “then life changed,” he said in an interview. He went into photography first and later filmmaking, always with the uneasy knowledge that he could lose access to insulin at any time.

The impetus for the film came after he and Ms. Dyer walked into a pharmacy while visiting Canada in 2018 and discovered how much cheaper insulin was compared to the United States – roughly $20 per vial, compared to $300 in the U.S.

“When Rachael [Dyer] and I came back to the U.S., we were actually quite shocked about how many people are struggling to afford their medication ... the uninsured, those aging off their parents’ health insurance. So that was really the kickoff to us going into the field for the last 4 years making this documentary.”

As a freelancer, Mr. Ruderman has been personally paying for expensive “premium” health insurance that covers the pump and glucose monitors he uses. He buys insulin overseas as often as possible.

“Fortunately, I haven’t been in a situation where I’ve had to ration my insulin, but the fear is instilled in me. What if there’s a month when I can’t afford it? What am I going to do?” (Note: The writer of this article is in the same situation, which could be alleviated by Lilly’s action.)
 

Timing is everything

To be sure, even before Lilly’s announcement, some progress had been made since work on the film began.

The issue of insulin pricing has received wide media attention. More than 20 states have passed copay caps on insulin, and a new law capping the cost of insulin for Medicare beneficiaries at $35/month went into effect in January 2023. President Biden mentioned insulin during his State of the Union address, and Georgia Senator Raphael Warnock made the issue a centerpiece of his campaign.

But there have also been losses, including the failure thus far to pass a nationwide copay cap.

These recent developments make this a good time for the film’s debut, producer Yael Melamede said in an interview. “There’s a lot happening in the space, but also a lot of incredible disappointments along the way, so we are really interested in getting this film out now.”

Ms. Melamede, who owns a film production company, said, “I’ve done a lot of films that have some issue advocacy side to them. I love this film because it’s grounded in the stories of real people. ... We feel this is a perfect catalyst to keep the energy going and for people to say this is super-important and not get distracted.”

While the film doesn’t advocate for specific policies, there is a “call to action” at the end that points viewers to resources on the website for writing to their members of Congress along with additional ways to become personally involved.

Ms. Dyer told this news organization, “This film is not only focusing on type 1 diabetes. That is obviously the crux of the issue, but it is a broader health care message for everyone wanting to make a change for health care in this country, the richest country in the world.”

At SXSW, Pay or Die will be competing with seven other films in the documentary feature competition, and it is eligible to win other awards.

Several other activities at the festival will address the topics of diabetes and U.S. health care costs, including a panel discussion titled Crushing: The Burden of Diabetes on Patients, featuring musician and actor Nick Jonas, who has type 1 diabetes, and a representative from the continuous glucose monitor manufacturer Dexcom.

Another panel, Young and Uninsured: Pay or Die, will include Dr. Rajkumar, Mr. Ruderman, Texas Representative James Talarico, who is advancing an insulin cap bill in that state, and Nicole Smith-Holt, the Minnesota mother of the young man who died because he couldn’t afford his insulin.

Mr. Ruderman, Ms. Dyer, Ms. Melamede, and Dr. Rajkumar have disclosed no relevant financial relationships.

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

The incidence of type 1 and type 2 diabetes continues to rise among children and adolescents in the United States, new data from the SEARCH for Diabetes in Youth study show.

The SEARCH data demonstrate an increase in the youth population aged 0-19 diagnosed with type 1 or type 2 diabetes in five representative U.S. centers. Between 2002 and 2018, the annual incidence rose by about 2% per year for type 1 diabetes and 5% per year for type 2 diabetes. The rates of increase for both types were greater among non-White than White youth.

These increases “will result in an expanding population of young adults at risk of developing early complications of diabetes whose health care needs will exceed those of their peers,” write Lynne E. Wagenknecht, DrPH, of Wake Forest University School of Medicine, Winston-Salem, N.C., and colleagues in their article, recently published in The Lancet Diabetes & Endocrinology.

In an accompanying editorial, Jonathan E. Shaw, MD, and Dianna J. Magliano, PhD, both at the Baker Heart and Diabetes Institute, Melbourne, write that one of the most “concerning findings” was a 7%-9% annual increase in the incidence of type 2 diabetes among Hispanic, Asian, and Pacific Islander populations.

“This is a health care crisis in the making. ...Youth and young-adult-onset type 2 diabetes are growing problems leading to poor outcomes and to widening social inequality, adversely affecting a population that might already be disadvantaged. Better information about its natural history, prevention, and management is urgently needed,” they write.  
 

Upward trends in both diabetes types

Overall, 18,169 children and adolescents with type 1 diabetes and 5,293 with type 2 diabetes were identified over the 17-year study period in SEARCH. After adjustment for age, sex, and race/ethnicity, there was a significant increase in type 1 diabetes incidence from 19.5 cases/100,000 population in 2002-2003 to 22.2/100,000 in 2017-2018, a 2.02% annual increase.

The upward trend was even greater for type 2 diabetes, from 9.0/100,000 in 2002-2003 to 17.9/100,000 in 2017-2018, a 5.31% annual increase.

The annual rate of increase in type 1 diabetes was highest among Asian/Pacific Islander youth (4.84%), followed by Hispanic (4.14%) and Black youth (2.93%): All significantly rose over the 17 years.

For type 2 diabetes, significant annual rates of increase were also highest for Asian/Pacific Islanders (8.92%), followed by Hispanic (7.17%) and Black youth (5.99%).

Among youth aged 15-19 years, the overall incidence of type 2 diabetes exceeded that of type 1 diabetes (19.7 vs. 14.6/100,000).

The incidence of type 2 diabetes may be rising because of increased rates of obesity, as well as increased screening of at-risk youth, the authors say.

And, the editorialists note, obesity is also a risk factor for type 1 diabetes. 

Peak incidence of type 1 diabetes occurred at age 10 years, while for type 2 diabetes, the peak was at 16 years. There were also seasonal peaks, occurring in January for type 1 diabetes and in August for type 2 diabetes. Those seasonal patterns have been previously reported; they are possibly because of increased viral infections and decreased sun exposure for the former, and increased physical exams in preparation for school in the latter, the authors speculate.

Dr. Shaw and Dr. Magliano note that the reduced incidence after age 16 years “might simply reflect a failure to diagnose,” suggesting that there will likely be an upturn in incidence in the subsequent decade.

The editorialists also point out: “Not only does the long duration of diabetes that youth-onset leads to cause a large burden of fatal and nonfatal complications, but it magnifies intergenerational effects.”

“When type 2 diabetes is already present before pregnancy, birth outcomes are worse, and the long-term metabolic health of the offspring is adversely affected. This does not bode well for the epidemic of diabetes and its complications.”

The study was funded by the Centers for Disease Control and Prevention and National Institutes of Health. The authors and Dr. Magliano have reported no relevant financial relationships. Dr. Shaw has reported receiving honoraria for lectures and for advisory boards and grants from AstraZeneca, Boehringer Ingelheim, Pfizer, Eli Lilly, Sanofi, Roche, Mylan, and Zuellig Pharma.

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

The incidence of type 1 and type 2 diabetes continues to rise among children and adolescents in the United States, new data from the SEARCH for Diabetes in Youth study show.

The SEARCH data demonstrate an increase in the youth population aged 0-19 diagnosed with type 1 or type 2 diabetes in five representative U.S. centers. Between 2002 and 2018, the annual incidence rose by about 2% per year for type 1 diabetes and 5% per year for type 2 diabetes. The rates of increase for both types were greater among non-White than White youth.

These increases “will result in an expanding population of young adults at risk of developing early complications of diabetes whose health care needs will exceed those of their peers,” write Lynne E. Wagenknecht, DrPH, of Wake Forest University School of Medicine, Winston-Salem, N.C., and colleagues in their article, recently published in The Lancet Diabetes & Endocrinology.

In an accompanying editorial, Jonathan E. Shaw, MD, and Dianna J. Magliano, PhD, both at the Baker Heart and Diabetes Institute, Melbourne, write that one of the most “concerning findings” was a 7%-9% annual increase in the incidence of type 2 diabetes among Hispanic, Asian, and Pacific Islander populations.

“This is a health care crisis in the making. ...Youth and young-adult-onset type 2 diabetes are growing problems leading to poor outcomes and to widening social inequality, adversely affecting a population that might already be disadvantaged. Better information about its natural history, prevention, and management is urgently needed,” they write.  
 

Upward trends in both diabetes types

Overall, 18,169 children and adolescents with type 1 diabetes and 5,293 with type 2 diabetes were identified over the 17-year study period in SEARCH. After adjustment for age, sex, and race/ethnicity, there was a significant increase in type 1 diabetes incidence from 19.5 cases/100,000 population in 2002-2003 to 22.2/100,000 in 2017-2018, a 2.02% annual increase.

The upward trend was even greater for type 2 diabetes, from 9.0/100,000 in 2002-2003 to 17.9/100,000 in 2017-2018, a 5.31% annual increase.

The annual rate of increase in type 1 diabetes was highest among Asian/Pacific Islander youth (4.84%), followed by Hispanic (4.14%) and Black youth (2.93%): All significantly rose over the 17 years.

For type 2 diabetes, significant annual rates of increase were also highest for Asian/Pacific Islanders (8.92%), followed by Hispanic (7.17%) and Black youth (5.99%).

Among youth aged 15-19 years, the overall incidence of type 2 diabetes exceeded that of type 1 diabetes (19.7 vs. 14.6/100,000).

The incidence of type 2 diabetes may be rising because of increased rates of obesity, as well as increased screening of at-risk youth, the authors say.

And, the editorialists note, obesity is also a risk factor for type 1 diabetes. 

Peak incidence of type 1 diabetes occurred at age 10 years, while for type 2 diabetes, the peak was at 16 years. There were also seasonal peaks, occurring in January for type 1 diabetes and in August for type 2 diabetes. Those seasonal patterns have been previously reported; they are possibly because of increased viral infections and decreased sun exposure for the former, and increased physical exams in preparation for school in the latter, the authors speculate.

Dr. Shaw and Dr. Magliano note that the reduced incidence after age 16 years “might simply reflect a failure to diagnose,” suggesting that there will likely be an upturn in incidence in the subsequent decade.

The editorialists also point out: “Not only does the long duration of diabetes that youth-onset leads to cause a large burden of fatal and nonfatal complications, but it magnifies intergenerational effects.”

“When type 2 diabetes is already present before pregnancy, birth outcomes are worse, and the long-term metabolic health of the offspring is adversely affected. This does not bode well for the epidemic of diabetes and its complications.”

The study was funded by the Centers for Disease Control and Prevention and National Institutes of Health. The authors and Dr. Magliano have reported no relevant financial relationships. Dr. Shaw has reported receiving honoraria for lectures and for advisory boards and grants from AstraZeneca, Boehringer Ingelheim, Pfizer, Eli Lilly, Sanofi, Roche, Mylan, and Zuellig Pharma.

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

The incidence of type 1 and type 2 diabetes continues to rise among children and adolescents in the United States, new data from the SEARCH for Diabetes in Youth study show.

The SEARCH data demonstrate an increase in the youth population aged 0-19 diagnosed with type 1 or type 2 diabetes in five representative U.S. centers. Between 2002 and 2018, the annual incidence rose by about 2% per year for type 1 diabetes and 5% per year for type 2 diabetes. The rates of increase for both types were greater among non-White than White youth.

These increases “will result in an expanding population of young adults at risk of developing early complications of diabetes whose health care needs will exceed those of their peers,” write Lynne E. Wagenknecht, DrPH, of Wake Forest University School of Medicine, Winston-Salem, N.C., and colleagues in their article, recently published in The Lancet Diabetes & Endocrinology.

In an accompanying editorial, Jonathan E. Shaw, MD, and Dianna J. Magliano, PhD, both at the Baker Heart and Diabetes Institute, Melbourne, write that one of the most “concerning findings” was a 7%-9% annual increase in the incidence of type 2 diabetes among Hispanic, Asian, and Pacific Islander populations.

“This is a health care crisis in the making. ...Youth and young-adult-onset type 2 diabetes are growing problems leading to poor outcomes and to widening social inequality, adversely affecting a population that might already be disadvantaged. Better information about its natural history, prevention, and management is urgently needed,” they write.  
 

Upward trends in both diabetes types

Overall, 18,169 children and adolescents with type 1 diabetes and 5,293 with type 2 diabetes were identified over the 17-year study period in SEARCH. After adjustment for age, sex, and race/ethnicity, there was a significant increase in type 1 diabetes incidence from 19.5 cases/100,000 population in 2002-2003 to 22.2/100,000 in 2017-2018, a 2.02% annual increase.

The upward trend was even greater for type 2 diabetes, from 9.0/100,000 in 2002-2003 to 17.9/100,000 in 2017-2018, a 5.31% annual increase.

The annual rate of increase in type 1 diabetes was highest among Asian/Pacific Islander youth (4.84%), followed by Hispanic (4.14%) and Black youth (2.93%): All significantly rose over the 17 years.

For type 2 diabetes, significant annual rates of increase were also highest for Asian/Pacific Islanders (8.92%), followed by Hispanic (7.17%) and Black youth (5.99%).

Among youth aged 15-19 years, the overall incidence of type 2 diabetes exceeded that of type 1 diabetes (19.7 vs. 14.6/100,000).

The incidence of type 2 diabetes may be rising because of increased rates of obesity, as well as increased screening of at-risk youth, the authors say.

And, the editorialists note, obesity is also a risk factor for type 1 diabetes. 

Peak incidence of type 1 diabetes occurred at age 10 years, while for type 2 diabetes, the peak was at 16 years. There were also seasonal peaks, occurring in January for type 1 diabetes and in August for type 2 diabetes. Those seasonal patterns have been previously reported; they are possibly because of increased viral infections and decreased sun exposure for the former, and increased physical exams in preparation for school in the latter, the authors speculate.

Dr. Shaw and Dr. Magliano note that the reduced incidence after age 16 years “might simply reflect a failure to diagnose,” suggesting that there will likely be an upturn in incidence in the subsequent decade.

The editorialists also point out: “Not only does the long duration of diabetes that youth-onset leads to cause a large burden of fatal and nonfatal complications, but it magnifies intergenerational effects.”

“When type 2 diabetes is already present before pregnancy, birth outcomes are worse, and the long-term metabolic health of the offspring is adversely affected. This does not bode well for the epidemic of diabetes and its complications.”

The study was funded by the Centers for Disease Control and Prevention and National Institutes of Health. The authors and Dr. Magliano have reported no relevant financial relationships. Dr. Shaw has reported receiving honoraria for lectures and for advisory boards and grants from AstraZeneca, Boehringer Ingelheim, Pfizer, Eli Lilly, Sanofi, Roche, Mylan, and Zuellig Pharma.

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

Two diabetes management devices that aid in the precision of insulin delivery have been recently cleared by the Food and Drug Administration.

On March 2, the FDA cleared the Android version of Bigfoot Biomedical’s Unity Mobile App for use with its system of smart pen caps that are compatible with different disposable insulin pens for administering both long-acting and rapid-acting insulin.

The system, which has been compatible with iOS devices since May 2021, is “the first and only FDA-cleared smart injection system that turns CGM [continuous glucose monitoring] data into dosing recommendations displayed right on the pen cap for people using multiple daily [insulin] injection therapy,” according to a company statement.

The Bigfoot app allows users to input and review provider treatment recommendations, displays current glucose ranges, and delivers real-time alerts.

Once it is commercially launched, the Android phone application will be available via the Google Play Store. “Given that 41% of U.S. smartphone users choose Android devices, this clearance enables expanded access to a large group of people with diabetes,” the company said.

On March 6, the FDA cleared the Abbott FreeStyle Libre 2 and FreeStyle Libre 3 devices as “integrated” CGM sensors. This means that they can now be used as components in automated insulin delivery systems, along with insulin pumps and connectivity software.

Abbott is working with insulin pump manufacturers Insulet and Tandem in the United States for integration with the FreeStyle Libre versions 2 and 3. Outside the United States, the Libre 3 is already authorized to work with mylife Loop from Ypsomed and CamDiab in Germany. Further launches are expected in the United Kingdom, Switzerland, and the Netherlands later this year.

The modified FreeStyle Libre 2 and FreeStyle Libre 3 sensors have been cleared for use by patients as young as age 2 years and for up to 15 days, in contrast to the previous versions, which were available for patients as young as 4 years for use up to 14 days. The FDA has cleared all Libre sensors – 2 and 3, current and future versions – for use by pregnant women with any type of diabetes.

The modified sensors will be available in the United States later this year and will eventually replace the Libre sensors in current use, the company said in a statement.

“The FreeStyle Libre portfolio is still the most affordable CGM on the market,” an Abbott representative said in an interview.

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

Two diabetes management devices that aid in the precision of insulin delivery have been recently cleared by the Food and Drug Administration.

On March 2, the FDA cleared the Android version of Bigfoot Biomedical’s Unity Mobile App for use with its system of smart pen caps that are compatible with different disposable insulin pens for administering both long-acting and rapid-acting insulin.

The system, which has been compatible with iOS devices since May 2021, is “the first and only FDA-cleared smart injection system that turns CGM [continuous glucose monitoring] data into dosing recommendations displayed right on the pen cap for people using multiple daily [insulin] injection therapy,” according to a company statement.

The Bigfoot app allows users to input and review provider treatment recommendations, displays current glucose ranges, and delivers real-time alerts.

Once it is commercially launched, the Android phone application will be available via the Google Play Store. “Given that 41% of U.S. smartphone users choose Android devices, this clearance enables expanded access to a large group of people with diabetes,” the company said.

On March 6, the FDA cleared the Abbott FreeStyle Libre 2 and FreeStyle Libre 3 devices as “integrated” CGM sensors. This means that they can now be used as components in automated insulin delivery systems, along with insulin pumps and connectivity software.

Abbott is working with insulin pump manufacturers Insulet and Tandem in the United States for integration with the FreeStyle Libre versions 2 and 3. Outside the United States, the Libre 3 is already authorized to work with mylife Loop from Ypsomed and CamDiab in Germany. Further launches are expected in the United Kingdom, Switzerland, and the Netherlands later this year.

The modified FreeStyle Libre 2 and FreeStyle Libre 3 sensors have been cleared for use by patients as young as age 2 years and for up to 15 days, in contrast to the previous versions, which were available for patients as young as 4 years for use up to 14 days. The FDA has cleared all Libre sensors – 2 and 3, current and future versions – for use by pregnant women with any type of diabetes.

The modified sensors will be available in the United States later this year and will eventually replace the Libre sensors in current use, the company said in a statement.

“The FreeStyle Libre portfolio is still the most affordable CGM on the market,” an Abbott representative said in an interview.

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

Two diabetes management devices that aid in the precision of insulin delivery have been recently cleared by the Food and Drug Administration.

On March 2, the FDA cleared the Android version of Bigfoot Biomedical’s Unity Mobile App for use with its system of smart pen caps that are compatible with different disposable insulin pens for administering both long-acting and rapid-acting insulin.

The system, which has been compatible with iOS devices since May 2021, is “the first and only FDA-cleared smart injection system that turns CGM [continuous glucose monitoring] data into dosing recommendations displayed right on the pen cap for people using multiple daily [insulin] injection therapy,” according to a company statement.

The Bigfoot app allows users to input and review provider treatment recommendations, displays current glucose ranges, and delivers real-time alerts.

Once it is commercially launched, the Android phone application will be available via the Google Play Store. “Given that 41% of U.S. smartphone users choose Android devices, this clearance enables expanded access to a large group of people with diabetes,” the company said.

On March 6, the FDA cleared the Abbott FreeStyle Libre 2 and FreeStyle Libre 3 devices as “integrated” CGM sensors. This means that they can now be used as components in automated insulin delivery systems, along with insulin pumps and connectivity software.

Abbott is working with insulin pump manufacturers Insulet and Tandem in the United States for integration with the FreeStyle Libre versions 2 and 3. Outside the United States, the Libre 3 is already authorized to work with mylife Loop from Ypsomed and CamDiab in Germany. Further launches are expected in the United Kingdom, Switzerland, and the Netherlands later this year.

The modified FreeStyle Libre 2 and FreeStyle Libre 3 sensors have been cleared for use by patients as young as age 2 years and for up to 15 days, in contrast to the previous versions, which were available for patients as young as 4 years for use up to 14 days. The FDA has cleared all Libre sensors – 2 and 3, current and future versions – for use by pregnant women with any type of diabetes.

The modified sensors will be available in the United States later this year and will eventually replace the Libre sensors in current use, the company said in a statement.

“The FreeStyle Libre portfolio is still the most affordable CGM on the market,” an Abbott representative said in an interview.

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

Eli Lilly will cut prices for most of its insulins in the United States by 70% and cap out-of-pocket costs for insulin at $35 per month, the company announced on March 1.

“Lilly is taking these actions to make it easier to access Lilly insulin and help Americans who may have difficulty navigating a complex healthcare system that may keep them from getting affordable insulin,” the company said in a statement.

iStock/ThinkStock

The $35 price cap is effective immediately at participating retail pharmacies for people with commercial insurance. Those without insurance can go to InsulinAffordability.com and download the Lilly Insulin Value Program savings card to receive Lilly insulins for $35 per month.

The company says it will cut the list price of its nonbranded Insulin Lispro Injection 100 units/mL to $25 a vial, effective May 1, 2023. The list price of the branded Humalog (insulin lispro injection) 100 units/mL will be cut by 70%, effective in the fourth quarter of 2023.

Lilly is among the three main companies that manufacture insulin, along with Novo Nordisk and Sanofi, that have come under fire over the cost of insulin in the US. Studies have shown that up to 25% of people with type 1 diabetes ration insulin because of costs, putting their health and often their lives in jeopardy.

Prices in the United States are around 10 times higher than in other countries. California is the latest state to say it plans to sue these big three companies over the high price of insulin and has announced plans to make its own cheaper versions.

Asked at a telephone press briefing if the lawsuit prompted the company’s move, Lilly chair and CEO David A. Ricks said: “Of course there are complaints against the industry and the company. We see those as completely unfounded. However, we can probably all agree that patients should have a consistent and lower-cost experience at the pharmacy counter, and that’s what today’s announcement is about. We’re doing this completely voluntarily because it’s time and it’s the right thing to do.”

On hearing the company announcement, Laura Nally, MD, a pediatric endocrinologist living with type 1 diabetes, @drnallypants, tweeted: “YES. After years of advocacy, the list price of Lispro/Humalog is now similar to what it was in the late 1990s. Cheers to all the #pwd [people with diabetes] who have advocated through #insulin4all! But we still have work to do to improve access to other diabetes medications & supplies.”

#insulin4all is a worldwide campaign to ensure that people with type 1 diabetes have access to affordable insulin and other supplies needed to manage the condition, such as glucose strips. It is supported, among others, by the advocacy group T1International.

Also giving his reaction to the Lilly announcement, Chuck Henderson, CEO of the American Diabetes Association, said: “We applaud Eli Lilly for taking the important step to limit cost-sharing for its insulin, and we encourage other insulin manufacturers to do the same.

“While we have been able to help achieve significant progress on the issue of insulin affordability, including Medicare’s new out-of-pocket cost cap on insulin, state copay caps, and patient assistance developments from insulin manufacturers, we know that our work is not done,” he added.

“ADA will work to ensure that Eli Lilly’s patient assistance program is benefiting patients as intended and continue the fight so that everyone who needs insulin has access.”

And Endocrine Society chief medical officer Robert Lash, MD, said: “Lilly’s move to apply a $35/month cap for people with private insurance will be a significant improvement for adults and children with diabetes who use Lilly’s products.

“We encourage all insulin manufacturers to join in the effort to reduce out-of-pocket costs for people who need insulin.”

Lilly will also launch a new insulin biosimilar, Rezvoglar (insulin glargine-aglr) injection, which is similar to and interchangeable with insulin glargine (Lantus). The cost will by $92 for a five pack of KwikPens, a 78% discount, compared with the cost of Lantus, beginning April 1, 2023.

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

Eli Lilly will cut prices for most of its insulins in the United States by 70% and cap out-of-pocket costs for insulin at $35 per month, the company announced on March 1.

“Lilly is taking these actions to make it easier to access Lilly insulin and help Americans who may have difficulty navigating a complex healthcare system that may keep them from getting affordable insulin,” the company said in a statement.

iStock/ThinkStock

The $35 price cap is effective immediately at participating retail pharmacies for people with commercial insurance. Those without insurance can go to InsulinAffordability.com and download the Lilly Insulin Value Program savings card to receive Lilly insulins for $35 per month.

The company says it will cut the list price of its nonbranded Insulin Lispro Injection 100 units/mL to $25 a vial, effective May 1, 2023. The list price of the branded Humalog (insulin lispro injection) 100 units/mL will be cut by 70%, effective in the fourth quarter of 2023.

Lilly is among the three main companies that manufacture insulin, along with Novo Nordisk and Sanofi, that have come under fire over the cost of insulin in the US. Studies have shown that up to 25% of people with type 1 diabetes ration insulin because of costs, putting their health and often their lives in jeopardy.

Prices in the United States are around 10 times higher than in other countries. California is the latest state to say it plans to sue these big three companies over the high price of insulin and has announced plans to make its own cheaper versions.

Asked at a telephone press briefing if the lawsuit prompted the company’s move, Lilly chair and CEO David A. Ricks said: “Of course there are complaints against the industry and the company. We see those as completely unfounded. However, we can probably all agree that patients should have a consistent and lower-cost experience at the pharmacy counter, and that’s what today’s announcement is about. We’re doing this completely voluntarily because it’s time and it’s the right thing to do.”

On hearing the company announcement, Laura Nally, MD, a pediatric endocrinologist living with type 1 diabetes, @drnallypants, tweeted: “YES. After years of advocacy, the list price of Lispro/Humalog is now similar to what it was in the late 1990s. Cheers to all the #pwd [people with diabetes] who have advocated through #insulin4all! But we still have work to do to improve access to other diabetes medications & supplies.”

#insulin4all is a worldwide campaign to ensure that people with type 1 diabetes have access to affordable insulin and other supplies needed to manage the condition, such as glucose strips. It is supported, among others, by the advocacy group T1International.

Also giving his reaction to the Lilly announcement, Chuck Henderson, CEO of the American Diabetes Association, said: “We applaud Eli Lilly for taking the important step to limit cost-sharing for its insulin, and we encourage other insulin manufacturers to do the same.

“While we have been able to help achieve significant progress on the issue of insulin affordability, including Medicare’s new out-of-pocket cost cap on insulin, state copay caps, and patient assistance developments from insulin manufacturers, we know that our work is not done,” he added.

“ADA will work to ensure that Eli Lilly’s patient assistance program is benefiting patients as intended and continue the fight so that everyone who needs insulin has access.”

And Endocrine Society chief medical officer Robert Lash, MD, said: “Lilly’s move to apply a $35/month cap for people with private insurance will be a significant improvement for adults and children with diabetes who use Lilly’s products.

“We encourage all insulin manufacturers to join in the effort to reduce out-of-pocket costs for people who need insulin.”

Lilly will also launch a new insulin biosimilar, Rezvoglar (insulin glargine-aglr) injection, which is similar to and interchangeable with insulin glargine (Lantus). The cost will by $92 for a five pack of KwikPens, a 78% discount, compared with the cost of Lantus, beginning April 1, 2023.

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

Eli Lilly will cut prices for most of its insulins in the United States by 70% and cap out-of-pocket costs for insulin at $35 per month, the company announced on March 1.

“Lilly is taking these actions to make it easier to access Lilly insulin and help Americans who may have difficulty navigating a complex healthcare system that may keep them from getting affordable insulin,” the company said in a statement.

iStock/ThinkStock

The $35 price cap is effective immediately at participating retail pharmacies for people with commercial insurance. Those without insurance can go to InsulinAffordability.com and download the Lilly Insulin Value Program savings card to receive Lilly insulins for $35 per month.

The company says it will cut the list price of its nonbranded Insulin Lispro Injection 100 units/mL to $25 a vial, effective May 1, 2023. The list price of the branded Humalog (insulin lispro injection) 100 units/mL will be cut by 70%, effective in the fourth quarter of 2023.

Lilly is among the three main companies that manufacture insulin, along with Novo Nordisk and Sanofi, that have come under fire over the cost of insulin in the US. Studies have shown that up to 25% of people with type 1 diabetes ration insulin because of costs, putting their health and often their lives in jeopardy.

Prices in the United States are around 10 times higher than in other countries. California is the latest state to say it plans to sue these big three companies over the high price of insulin and has announced plans to make its own cheaper versions.

Asked at a telephone press briefing if the lawsuit prompted the company’s move, Lilly chair and CEO David A. Ricks said: “Of course there are complaints against the industry and the company. We see those as completely unfounded. However, we can probably all agree that patients should have a consistent and lower-cost experience at the pharmacy counter, and that’s what today’s announcement is about. We’re doing this completely voluntarily because it’s time and it’s the right thing to do.”

On hearing the company announcement, Laura Nally, MD, a pediatric endocrinologist living with type 1 diabetes, @drnallypants, tweeted: “YES. After years of advocacy, the list price of Lispro/Humalog is now similar to what it was in the late 1990s. Cheers to all the #pwd [people with diabetes] who have advocated through #insulin4all! But we still have work to do to improve access to other diabetes medications & supplies.”

#insulin4all is a worldwide campaign to ensure that people with type 1 diabetes have access to affordable insulin and other supplies needed to manage the condition, such as glucose strips. It is supported, among others, by the advocacy group T1International.

Also giving his reaction to the Lilly announcement, Chuck Henderson, CEO of the American Diabetes Association, said: “We applaud Eli Lilly for taking the important step to limit cost-sharing for its insulin, and we encourage other insulin manufacturers to do the same.

“While we have been able to help achieve significant progress on the issue of insulin affordability, including Medicare’s new out-of-pocket cost cap on insulin, state copay caps, and patient assistance developments from insulin manufacturers, we know that our work is not done,” he added.

“ADA will work to ensure that Eli Lilly’s patient assistance program is benefiting patients as intended and continue the fight so that everyone who needs insulin has access.”

And Endocrine Society chief medical officer Robert Lash, MD, said: “Lilly’s move to apply a $35/month cap for people with private insurance will be a significant improvement for adults and children with diabetes who use Lilly’s products.

“We encourage all insulin manufacturers to join in the effort to reduce out-of-pocket costs for people who need insulin.”

Lilly will also launch a new insulin biosimilar, Rezvoglar (insulin glargine-aglr) injection, which is similar to and interchangeable with insulin glargine (Lantus). The cost will by $92 for a five pack of KwikPens, a 78% discount, compared with the cost of Lantus, beginning April 1, 2023.

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

In children and adolescents with new-onset type 1 diabetes, the calcium channel blocker verapamil slowed the destruction of insulin-producing pancreatic beta cells for up to a year, new data show.

Use of daily verapamil within a month of diagnosis resulted in a 30% increase in C-peptide secretion (a measure of preserved beta-cell function), compared with placebo at 52 weeks, without serious adverse events.

To put it another way, verapamil delayed the expected decline in C-peptide production from 3 months after diagnosis of type 1 diabetes to 6 months after diagnosis.

“We think this is a really, really exciting finding that’s hopefully going to impact the care for children with type 1 diabetes in the new-onset period,” lead author Gregory P. Forlenza, MD, said during his presentation of the data on Feb. 24 at the annual Advanced Technologies & Treatments for Diabetes (ATTD) meeting in Berlin.

“In view of the favorable safety profile, particularly compared with immune-suppressive agents, once-a-day oral administration, and low cost, initiation of verapamil should be a consideration for newly diagnosed patients with type 1 diabetes,” added Dr. Forlenza, a pediatric endocrinologist at the Barbara Davis Center for Diabetes, Anschutz Medical Campus, University of Colorado, Aurora.

The data were also simultaneously published in JAMA, as part of the CLVer (Hybrid Closed Loop Therapy and Verapamil for Beta Cell Preservation in New Onset Type 1 Diabetes) trial.

The randomized, double-blind, six-center trial involved 113 participants, aged 7-17 years, with newly diagnosed type 1 diabetes. They were randomized to the most advanced commercially available automated insulin delivery systems available or standard care to test the effects of intensive glucose control on C-peptide levels for 52 weeks during the COVID-19 pandemic (July 2020 to September 2022). Eighty-eight patients who weighed 30 kg (66 lb) or more were further randomized (1:1) to daily extended-release verapamil or placebo for the same duration. 

The positive findings for verapamil, published in one paper, contrasted with the negative ones for the automated insulin delivery (AID) system. The latter did not prevent the expected decline in C-peptide, putting to rest a long-held hypothesis that reducing glucotoxicity might preserve beta-cell function in newly diagnosed individuals with type 1 diabetes, noted Dr. Forlenza.
 

Could combination therapy work?

In recent years, immune-modulating agents have increasingly been shown to preserve beta-cell function in both new-onset and preclinical type 1 diabetes. One such agent, teplizumab (Tzield, Provention Bio), was approved by the U.S. Food and Drug Administration in November 2022 to delay type 1 diabetes onset in those at high risk.

Calcium channel blockers such as verapamil – used for years to treat hypertension and cardiac arrhythmias – may accomplish the same goal as teplizumab but in a different way, by reducing the protein overexpression that induces beta-cell apoptosis and death.

Dr. Forlenza showed a slide comparing the preservation of C-peptide, which was much lower with verapamil, at 30%, than with teplizumab, at 75%.

Asked to comment, session moderator Torben Biester, MD, a pediatric diabetologist at Auf der Bult-Zentrum Diabetes-Center for Children and Adolescents, Hanover, Germany, said: “[Verapamil] is a very cheap [daily] pill. [Teplizumab] is a very high-priced ... immune therapy in the United States ... an infusion twice for 10 days, so it’s a lot more burden for the patients and a lot more risk of side effects.”

“The future might be combination therapy,” added Dr. Biester.

And in an editorial published in JAMA and accompanying the two CLVer papers, Jennifer Couper, MD, of the University of Adelaide, agrees: “A well-tolerated, inexpensive, oral treatment such as verapamil with modest benefits on C-peptide production is relevant to practice.”

The new work “supports investigation of verapamil in combination with other effective agents during the earlier stages of type 1 diabetes before insulin dependence develops,” she noted.
 

Verapamil results ‘brilliant’ but more work needed

In the verapamil part of the CLVer trial, by 52 weeks, verapamil doses in the youth who received it ranged from 120-360 mg/day based on weight and tolerance.

The primary outcome, C-peptide area under the curve, stayed stable, from 0.66 pmol/mL at baseline to 0.65 pmol/mL at 52 weeks in the verapamil group, compared with a drop from 0.60 pmol/mL down to 0.44 pmol/mL with placebo, a significant difference of 0.14 pmol/mL (P = .04), representing a 30% higher C-peptide level in the verapamil group.

“For us, this is a phenomenally exciting result,” Dr. Forlenza commented during his presentation.

At 52 weeks, A1c was 6.6% in the verapamil group versus 6.9% with placebo, which was not significantly different. Daily insulin dose was 0.65 versus 0.74 units/kg per day, respectively, also not significantly different.

One severe hypoglycemic event occurred in each group, and one diabetic ketoacidosis event occurred in the placebo group. In the verapamil group, three participants experienced “nonserious” electrocardiogram abnormalities and one had hypertension.

Dr. Biester said he isn’t “that concerned” about the small number of mild ECG abnormalities seen in the study with verapamil, as this is a known side effect. But overall, he said, “I would think that for a recommendation for routine use it’s too early after one study, even though the results are brilliant.”

He noted that he is involved in a similar ongoing study of verapamil in adults with new-onset type 1 diabetes, called Ver-A-T1D.
 

No C-peptide effect of tight glycemic control: ‘A tough pill’

In the AID part of the study, the 113 participants were randomized 2:1 to one of two commercially available AID systems (Tandem t:slim X2 with Control-IQ or Medtronic 670G or 780G) plus frequent contact (a median of 35 times) by study staff, or standard management using a continuous glucose monitor (CGM) with an insulin pump or multiple daily injections.

At 52 weeks, A1c was 6.5% for the intensive group versus 7.1% with standard care, a significant difference. Time in blood glucose range of 70-180 mg/dL was significantly longer with intensive management, at 78%, compared with standard care, at 64%.

Nonetheless, the change in C-peptide area under the curve did not differ between the two groups, decreasing from 0.57 pmol/mL at baseline to 0.45 pmol/mL at 52 weeks with the AID system, compared with a decrease from 0.60 pmol/L down to 0.50 pmol/L with standard care (P = .89).

Dr. Forlenza commented that the hypothesis that tight glycemic control would delay the decline in C-peptide secretion “is something I think a lot of endocrinologists assumed to be true and something I’ve heard lots of colleagues over the years talk about.”

Consequently, he said these findings are “a tough pill for us to swallow ... but it’s important for us in the field to understand.”

“Even with frequent contacts that are well above the level we’d be able to do in standard clinical care, and even with use of the most advanced AID systems we have ... we saw absolutely no difference in stimulated C-peptide levels at any of the timepoints throughout the first year or at 52 weeks.”

“So, in our opinion, this,” combined with a prior study from 2022, “should put this hypothesis to rest,” he said.

“Excellent glycemic control has a benefit in and of itself, but it was not a successful intervention for beta-cell preservation.”

Dr. Forlenza has reported serving as a consultant, speaker, or advisory board member for Medtronic, Dexcom, Abbott, Tandem Diabetes Care, Insulet, Lilly, and Beta Bionics, and his institution has also received funding on his behalf for research grants from these companies. Dr. Biester has reported receiving speaker’s fees from DexCom, Medtronic, Novo Nordisk, F. Hoffmann–La Roche, Sanofi, and Ypsomed Holding; serving on advisory boards for Ascensia Diabetes Care Holdings, AstraZeneca, DexCom, and Medtronic; and receiving personal fees from SYNLAB; and is a member of the European Commission Expert Panel for Medical Devices for Endocrinology and Diabetes. Dr. Couper has reported no relevant financial relationships.

The rationale for the companion CLVer analysis of the effect of reducing glucose toxicity via tight glycemic control on C-peptide progression dates back to an inpatient study published in 1989 involving 26 adolescents using an early artificial pancreas prototype called a Biostator, in which beta-cell preservation was achieved. However, two more recent studies of this approach, including one published in late 2022, did not show a difference. The CLVer analysis involved 113 participants randomized 2:1 to one of two commercially available AID systems (Tandem t:slim X2 with Control-IQ or Medtronic 670G or 780G) plus frequent contact by study staff, or standard management using a CGM with a pump or multiple daily injections.

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

In children and adolescents with new-onset type 1 diabetes, the calcium channel blocker verapamil slowed the destruction of insulin-producing pancreatic beta cells for up to a year, new data show.

Use of daily verapamil within a month of diagnosis resulted in a 30% increase in C-peptide secretion (a measure of preserved beta-cell function), compared with placebo at 52 weeks, without serious adverse events.

To put it another way, verapamil delayed the expected decline in C-peptide production from 3 months after diagnosis of type 1 diabetes to 6 months after diagnosis.

“We think this is a really, really exciting finding that’s hopefully going to impact the care for children with type 1 diabetes in the new-onset period,” lead author Gregory P. Forlenza, MD, said during his presentation of the data on Feb. 24 at the annual Advanced Technologies & Treatments for Diabetes (ATTD) meeting in Berlin.

“In view of the favorable safety profile, particularly compared with immune-suppressive agents, once-a-day oral administration, and low cost, initiation of verapamil should be a consideration for newly diagnosed patients with type 1 diabetes,” added Dr. Forlenza, a pediatric endocrinologist at the Barbara Davis Center for Diabetes, Anschutz Medical Campus, University of Colorado, Aurora.

The data were also simultaneously published in JAMA, as part of the CLVer (Hybrid Closed Loop Therapy and Verapamil for Beta Cell Preservation in New Onset Type 1 Diabetes) trial.

The randomized, double-blind, six-center trial involved 113 participants, aged 7-17 years, with newly diagnosed type 1 diabetes. They were randomized to the most advanced commercially available automated insulin delivery systems available or standard care to test the effects of intensive glucose control on C-peptide levels for 52 weeks during the COVID-19 pandemic (July 2020 to September 2022). Eighty-eight patients who weighed 30 kg (66 lb) or more were further randomized (1:1) to daily extended-release verapamil or placebo for the same duration. 

The positive findings for verapamil, published in one paper, contrasted with the negative ones for the automated insulin delivery (AID) system. The latter did not prevent the expected decline in C-peptide, putting to rest a long-held hypothesis that reducing glucotoxicity might preserve beta-cell function in newly diagnosed individuals with type 1 diabetes, noted Dr. Forlenza.
 

Could combination therapy work?

In recent years, immune-modulating agents have increasingly been shown to preserve beta-cell function in both new-onset and preclinical type 1 diabetes. One such agent, teplizumab (Tzield, Provention Bio), was approved by the U.S. Food and Drug Administration in November 2022 to delay type 1 diabetes onset in those at high risk.

Calcium channel blockers such as verapamil – used for years to treat hypertension and cardiac arrhythmias – may accomplish the same goal as teplizumab but in a different way, by reducing the protein overexpression that induces beta-cell apoptosis and death.

Dr. Forlenza showed a slide comparing the preservation of C-peptide, which was much lower with verapamil, at 30%, than with teplizumab, at 75%.

Asked to comment, session moderator Torben Biester, MD, a pediatric diabetologist at Auf der Bult-Zentrum Diabetes-Center for Children and Adolescents, Hanover, Germany, said: “[Verapamil] is a very cheap [daily] pill. [Teplizumab] is a very high-priced ... immune therapy in the United States ... an infusion twice for 10 days, so it’s a lot more burden for the patients and a lot more risk of side effects.”

“The future might be combination therapy,” added Dr. Biester.

And in an editorial published in JAMA and accompanying the two CLVer papers, Jennifer Couper, MD, of the University of Adelaide, agrees: “A well-tolerated, inexpensive, oral treatment such as verapamil with modest benefits on C-peptide production is relevant to practice.”

The new work “supports investigation of verapamil in combination with other effective agents during the earlier stages of type 1 diabetes before insulin dependence develops,” she noted.
 

Verapamil results ‘brilliant’ but more work needed

In the verapamil part of the CLVer trial, by 52 weeks, verapamil doses in the youth who received it ranged from 120-360 mg/day based on weight and tolerance.

The primary outcome, C-peptide area under the curve, stayed stable, from 0.66 pmol/mL at baseline to 0.65 pmol/mL at 52 weeks in the verapamil group, compared with a drop from 0.60 pmol/mL down to 0.44 pmol/mL with placebo, a significant difference of 0.14 pmol/mL (P = .04), representing a 30% higher C-peptide level in the verapamil group.

“For us, this is a phenomenally exciting result,” Dr. Forlenza commented during his presentation.

At 52 weeks, A1c was 6.6% in the verapamil group versus 6.9% with placebo, which was not significantly different. Daily insulin dose was 0.65 versus 0.74 units/kg per day, respectively, also not significantly different.

One severe hypoglycemic event occurred in each group, and one diabetic ketoacidosis event occurred in the placebo group. In the verapamil group, three participants experienced “nonserious” electrocardiogram abnormalities and one had hypertension.

Dr. Biester said he isn’t “that concerned” about the small number of mild ECG abnormalities seen in the study with verapamil, as this is a known side effect. But overall, he said, “I would think that for a recommendation for routine use it’s too early after one study, even though the results are brilliant.”

He noted that he is involved in a similar ongoing study of verapamil in adults with new-onset type 1 diabetes, called Ver-A-T1D.
 

No C-peptide effect of tight glycemic control: ‘A tough pill’

In the AID part of the study, the 113 participants were randomized 2:1 to one of two commercially available AID systems (Tandem t:slim X2 with Control-IQ or Medtronic 670G or 780G) plus frequent contact (a median of 35 times) by study staff, or standard management using a continuous glucose monitor (CGM) with an insulin pump or multiple daily injections.

At 52 weeks, A1c was 6.5% for the intensive group versus 7.1% with standard care, a significant difference. Time in blood glucose range of 70-180 mg/dL was significantly longer with intensive management, at 78%, compared with standard care, at 64%.

Nonetheless, the change in C-peptide area under the curve did not differ between the two groups, decreasing from 0.57 pmol/mL at baseline to 0.45 pmol/mL at 52 weeks with the AID system, compared with a decrease from 0.60 pmol/L down to 0.50 pmol/L with standard care (P = .89).

Dr. Forlenza commented that the hypothesis that tight glycemic control would delay the decline in C-peptide secretion “is something I think a lot of endocrinologists assumed to be true and something I’ve heard lots of colleagues over the years talk about.”

Consequently, he said these findings are “a tough pill for us to swallow ... but it’s important for us in the field to understand.”

“Even with frequent contacts that are well above the level we’d be able to do in standard clinical care, and even with use of the most advanced AID systems we have ... we saw absolutely no difference in stimulated C-peptide levels at any of the timepoints throughout the first year or at 52 weeks.”

“So, in our opinion, this,” combined with a prior study from 2022, “should put this hypothesis to rest,” he said.

“Excellent glycemic control has a benefit in and of itself, but it was not a successful intervention for beta-cell preservation.”

Dr. Forlenza has reported serving as a consultant, speaker, or advisory board member for Medtronic, Dexcom, Abbott, Tandem Diabetes Care, Insulet, Lilly, and Beta Bionics, and his institution has also received funding on his behalf for research grants from these companies. Dr. Biester has reported receiving speaker’s fees from DexCom, Medtronic, Novo Nordisk, F. Hoffmann–La Roche, Sanofi, and Ypsomed Holding; serving on advisory boards for Ascensia Diabetes Care Holdings, AstraZeneca, DexCom, and Medtronic; and receiving personal fees from SYNLAB; and is a member of the European Commission Expert Panel for Medical Devices for Endocrinology and Diabetes. Dr. Couper has reported no relevant financial relationships.

The rationale for the companion CLVer analysis of the effect of reducing glucose toxicity via tight glycemic control on C-peptide progression dates back to an inpatient study published in 1989 involving 26 adolescents using an early artificial pancreas prototype called a Biostator, in which beta-cell preservation was achieved. However, two more recent studies of this approach, including one published in late 2022, did not show a difference. The CLVer analysis involved 113 participants randomized 2:1 to one of two commercially available AID systems (Tandem t:slim X2 with Control-IQ or Medtronic 670G or 780G) plus frequent contact by study staff, or standard management using a CGM with a pump or multiple daily injections.

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

In children and adolescents with new-onset type 1 diabetes, the calcium channel blocker verapamil slowed the destruction of insulin-producing pancreatic beta cells for up to a year, new data show.

Use of daily verapamil within a month of diagnosis resulted in a 30% increase in C-peptide secretion (a measure of preserved beta-cell function), compared with placebo at 52 weeks, without serious adverse events.

To put it another way, verapamil delayed the expected decline in C-peptide production from 3 months after diagnosis of type 1 diabetes to 6 months after diagnosis.

“We think this is a really, really exciting finding that’s hopefully going to impact the care for children with type 1 diabetes in the new-onset period,” lead author Gregory P. Forlenza, MD, said during his presentation of the data on Feb. 24 at the annual Advanced Technologies & Treatments for Diabetes (ATTD) meeting in Berlin.

“In view of the favorable safety profile, particularly compared with immune-suppressive agents, once-a-day oral administration, and low cost, initiation of verapamil should be a consideration for newly diagnosed patients with type 1 diabetes,” added Dr. Forlenza, a pediatric endocrinologist at the Barbara Davis Center for Diabetes, Anschutz Medical Campus, University of Colorado, Aurora.

The data were also simultaneously published in JAMA, as part of the CLVer (Hybrid Closed Loop Therapy and Verapamil for Beta Cell Preservation in New Onset Type 1 Diabetes) trial.

The randomized, double-blind, six-center trial involved 113 participants, aged 7-17 years, with newly diagnosed type 1 diabetes. They were randomized to the most advanced commercially available automated insulin delivery systems available or standard care to test the effects of intensive glucose control on C-peptide levels for 52 weeks during the COVID-19 pandemic (July 2020 to September 2022). Eighty-eight patients who weighed 30 kg (66 lb) or more were further randomized (1:1) to daily extended-release verapamil or placebo for the same duration. 

The positive findings for verapamil, published in one paper, contrasted with the negative ones for the automated insulin delivery (AID) system. The latter did not prevent the expected decline in C-peptide, putting to rest a long-held hypothesis that reducing glucotoxicity might preserve beta-cell function in newly diagnosed individuals with type 1 diabetes, noted Dr. Forlenza.
 

Could combination therapy work?

In recent years, immune-modulating agents have increasingly been shown to preserve beta-cell function in both new-onset and preclinical type 1 diabetes. One such agent, teplizumab (Tzield, Provention Bio), was approved by the U.S. Food and Drug Administration in November 2022 to delay type 1 diabetes onset in those at high risk.

Calcium channel blockers such as verapamil – used for years to treat hypertension and cardiac arrhythmias – may accomplish the same goal as teplizumab but in a different way, by reducing the protein overexpression that induces beta-cell apoptosis and death.

Dr. Forlenza showed a slide comparing the preservation of C-peptide, which was much lower with verapamil, at 30%, than with teplizumab, at 75%.

Asked to comment, session moderator Torben Biester, MD, a pediatric diabetologist at Auf der Bult-Zentrum Diabetes-Center for Children and Adolescents, Hanover, Germany, said: “[Verapamil] is a very cheap [daily] pill. [Teplizumab] is a very high-priced ... immune therapy in the United States ... an infusion twice for 10 days, so it’s a lot more burden for the patients and a lot more risk of side effects.”

“The future might be combination therapy,” added Dr. Biester.

And in an editorial published in JAMA and accompanying the two CLVer papers, Jennifer Couper, MD, of the University of Adelaide, agrees: “A well-tolerated, inexpensive, oral treatment such as verapamil with modest benefits on C-peptide production is relevant to practice.”

The new work “supports investigation of verapamil in combination with other effective agents during the earlier stages of type 1 diabetes before insulin dependence develops,” she noted.
 

Verapamil results ‘brilliant’ but more work needed

In the verapamil part of the CLVer trial, by 52 weeks, verapamil doses in the youth who received it ranged from 120-360 mg/day based on weight and tolerance.

The primary outcome, C-peptide area under the curve, stayed stable, from 0.66 pmol/mL at baseline to 0.65 pmol/mL at 52 weeks in the verapamil group, compared with a drop from 0.60 pmol/mL down to 0.44 pmol/mL with placebo, a significant difference of 0.14 pmol/mL (P = .04), representing a 30% higher C-peptide level in the verapamil group.

“For us, this is a phenomenally exciting result,” Dr. Forlenza commented during his presentation.

At 52 weeks, A1c was 6.6% in the verapamil group versus 6.9% with placebo, which was not significantly different. Daily insulin dose was 0.65 versus 0.74 units/kg per day, respectively, also not significantly different.

One severe hypoglycemic event occurred in each group, and one diabetic ketoacidosis event occurred in the placebo group. In the verapamil group, three participants experienced “nonserious” electrocardiogram abnormalities and one had hypertension.

Dr. Biester said he isn’t “that concerned” about the small number of mild ECG abnormalities seen in the study with verapamil, as this is a known side effect. But overall, he said, “I would think that for a recommendation for routine use it’s too early after one study, even though the results are brilliant.”

He noted that he is involved in a similar ongoing study of verapamil in adults with new-onset type 1 diabetes, called Ver-A-T1D.
 

No C-peptide effect of tight glycemic control: ‘A tough pill’

In the AID part of the study, the 113 participants were randomized 2:1 to one of two commercially available AID systems (Tandem t:slim X2 with Control-IQ or Medtronic 670G or 780G) plus frequent contact (a median of 35 times) by study staff, or standard management using a continuous glucose monitor (CGM) with an insulin pump or multiple daily injections.

At 52 weeks, A1c was 6.5% for the intensive group versus 7.1% with standard care, a significant difference. Time in blood glucose range of 70-180 mg/dL was significantly longer with intensive management, at 78%, compared with standard care, at 64%.

Nonetheless, the change in C-peptide area under the curve did not differ between the two groups, decreasing from 0.57 pmol/mL at baseline to 0.45 pmol/mL at 52 weeks with the AID system, compared with a decrease from 0.60 pmol/L down to 0.50 pmol/L with standard care (P = .89).

Dr. Forlenza commented that the hypothesis that tight glycemic control would delay the decline in C-peptide secretion “is something I think a lot of endocrinologists assumed to be true and something I’ve heard lots of colleagues over the years talk about.”

Consequently, he said these findings are “a tough pill for us to swallow ... but it’s important for us in the field to understand.”

“Even with frequent contacts that are well above the level we’d be able to do in standard clinical care, and even with use of the most advanced AID systems we have ... we saw absolutely no difference in stimulated C-peptide levels at any of the timepoints throughout the first year or at 52 weeks.”

“So, in our opinion, this,” combined with a prior study from 2022, “should put this hypothesis to rest,” he said.

“Excellent glycemic control has a benefit in and of itself, but it was not a successful intervention for beta-cell preservation.”

Dr. Forlenza has reported serving as a consultant, speaker, or advisory board member for Medtronic, Dexcom, Abbott, Tandem Diabetes Care, Insulet, Lilly, and Beta Bionics, and his institution has also received funding on his behalf for research grants from these companies. Dr. Biester has reported receiving speaker’s fees from DexCom, Medtronic, Novo Nordisk, F. Hoffmann–La Roche, Sanofi, and Ypsomed Holding; serving on advisory boards for Ascensia Diabetes Care Holdings, AstraZeneca, DexCom, and Medtronic; and receiving personal fees from SYNLAB; and is a member of the European Commission Expert Panel for Medical Devices for Endocrinology and Diabetes. Dr. Couper has reported no relevant financial relationships.

The rationale for the companion CLVer analysis of the effect of reducing glucose toxicity via tight glycemic control on C-peptide progression dates back to an inpatient study published in 1989 involving 26 adolescents using an early artificial pancreas prototype called a Biostator, in which beta-cell preservation was achieved. However, two more recent studies of this approach, including one published in late 2022, did not show a difference. The CLVer analysis involved 113 participants randomized 2:1 to one of two commercially available AID systems (Tandem t:slim X2 with Control-IQ or Medtronic 670G or 780G) plus frequent contact by study staff, or standard management using a CGM with a pump or multiple daily injections.

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

Youth with type 1 diabetes who use real-time continuous glucose monitoring (rtCGM) and an insulin pump spend more time in target glucose range than do those using intermittently scanned CGM (isCGM) and/or multiple daily insulin injections, new data show.

In the multinational cohort study of more than 4,500 people younger than age 21 with type 1 diabetes, those using rtCGM and pumps also spent less time above and below glucose targets and had fewer severe adverse events – either severe hypoglycemia or diabetic ketoacidosis (DKA) – compared with injections and isCGM.

Daria Nipot/Getty Images

The findings were published online in JAMA Network Open by Klemen Dovc, MD, PhD, assistant professor in the department of pediatric endocrinology, diabetes, and metabolic diseases, University Children’s Hospital, Ljubljana, Slovenia, and colleagues.

“These results underscore the synergistic effect of advanced diabetes technologies that should be more readily available to youths with type 1 diabetes for further improvement of diabetes-related clinical outcomes,” the authors wrote.

Moreover, Dr. Dovc told this news organization: “Clinicians should be aware that there may be differences in effectiveness between different types of devices, and that choosing the right device for each individual may be important for achieving optimal outcomes.”
 

Real-time CGM + insulin pump = highest time in range

The researchers explained that two modalities of CGM are broadly available: rtCGM, which continuously displays glucose concentration in the interstitial fluid (usually at intervals of 1-5 minutes) on a dedicated receiver or other portable device, such as a smartphone, and provides various adjustable alarms, and isCGM, which displays data on demand when the transmitter is scanned using either a dedicated reader or smartphone-based application.

rtCGMs include devices from Dexcom and Medtronic. The isCGM, or “flash,” generally refers to the Abbott FreeStyle Libre.

The study included individuals younger than 21 years from 34 centers in 21 countries in the SWEET registry, a worldwide network of diabetes care centers for youth, between Jan. 1, 2016, and Dec. 31, 2021.

The researchers didn’t report which particular devices were used in the trial, rather they just divided patients into four groups: 850 used isCGM with a pump, 1,231 used isCGM with multiple daily injections, 2,252 used rtCGM with a pump, and 886 used rtCGM with insulin injections.

After adjustments for sex, age, diabetes duration, and body mass index standard deviation score, rtCGM plus insulin pump was the most likely group to achieve the recommended greater than 70% time in target glycemic range (70-180 mg/dL), with 36.2% achieving it, followed by rtCGM plus injections, at 20.9%, and isCGM plus injections, at 12.5%. Those using isCGM with an insulin pump were the least likely to achieve time in range, at just 11.3%.

Similar trends were seen for the recommended goal of less than 4% of time spent below range (< 70 mg/dL) and less than 25% of time spent above range (> 180 mg/dL). Those using rtCGM with a pump had the highest proportions achieving both of those goals, 73.1% and 32.5%, respectively.  

The use of rtCGM, with or without a pump, was associated with lower rates of severe hypoglycemia (2.5% and 2.0%, respectively) than isCGM with or without a pump (5.5% and 5.2%, respectively).

Similarly, the proportion experiencing at least one DKA episode varied from 1.4% for rtCGM plus insulin pump and 0.7% for rtCGM plus injections to 3.0% for isCGM plus pump and 1.5% isCGM plus injections.


 

Study looked at older technology but results still reflect benefit

Among the rtCGM plus insulin pump group were 264 participants (5% of the total study population) recorded in the database as using automated insulin delivery (AID) systems, also known as the artificial pancreas, although this is likely an undercount as the presence of communication between the two devices was not automatically recorded, Dr. Dovc explained.

Those individuals recorded as using AIDs had a higher unadjusted time in range compared with non-AID users (66.3% vs. 59.0%) and lower time above range (30.1% vs. 37.0%) but didn’t differ in time below range (2.9% vs. 3.0%).

Dr. Dovc told this news organization: “While automated systems are becoming more common, there are still many individuals who do not have access to glucose-responsive devices.” Reasons include lack of reimbursement, or decisions not to use them, he said.

But, he added, “Despite the low reported numbers of AID users, results achieved in the pump with real-time CGM [group] are admirable and approaching recommended consensus targets with a clinically meaningful difference towards all other treatment modalities. As our findings may not be directly applicable to all participants using automated systems, they may still provide useful insights into the factors that influence glycemic control.”

Similarly, the intermittently scanned CGMs used by most in the study, and particularly in the earlier period, didn’t have low- or high-glucose alarms as do later versions. And an even more recent version also doesn’t require scanning either, so is essentially also “real-time.”

Dr. Dovc noted, “in the first half of our observational period only first generation of intermittently-scanned CGM was generally available, and we can speculate that only a small proportion started to use second generation towards the end of our observational period. The exact number of second-generation users was not available in this analysis.”

He acknowledged that because the study was observational and not randomized, patient choice of device could have influenced the outcomes.

“For example, participants who choose to use a more expensive device may have more resources or support available to them, which could influence their ability to manage their diabetes effectively. Additionally, individuals who choose to use a particular device may be more motivated or engaged in their diabetes care, which could also impact their outcomes. It would be important for future studies to explore the impact of device selection on device effectiveness and to control for this potential confounding factor in the analysis.”

This study was supported by the international Better Control in Pediatric and Adolescent Diabetes: Working to Create Centers of Reference (SWEET) corporate members, including Abbott Laboratories, Boehringer Ingelheim, Dexcom, Insulet, Eli Lilly, Medtronic, Sanofi, and the Slovenian National Research Agency. Dr. Dovc disclosed ties with Abbott Laboratories, Medtronic, Novo Nordisk, Eli Lilly, and Pfizer. He served as a member of the European Commission Expert Panel for Medical Devices for Endocrinology and Diabetes.   

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

Youth with type 1 diabetes who use real-time continuous glucose monitoring (rtCGM) and an insulin pump spend more time in target glucose range than do those using intermittently scanned CGM (isCGM) and/or multiple daily insulin injections, new data show.

In the multinational cohort study of more than 4,500 people younger than age 21 with type 1 diabetes, those using rtCGM and pumps also spent less time above and below glucose targets and had fewer severe adverse events – either severe hypoglycemia or diabetic ketoacidosis (DKA) – compared with injections and isCGM.

Daria Nipot/Getty Images

The findings were published online in JAMA Network Open by Klemen Dovc, MD, PhD, assistant professor in the department of pediatric endocrinology, diabetes, and metabolic diseases, University Children’s Hospital, Ljubljana, Slovenia, and colleagues.

“These results underscore the synergistic effect of advanced diabetes technologies that should be more readily available to youths with type 1 diabetes for further improvement of diabetes-related clinical outcomes,” the authors wrote.

Moreover, Dr. Dovc told this news organization: “Clinicians should be aware that there may be differences in effectiveness between different types of devices, and that choosing the right device for each individual may be important for achieving optimal outcomes.”
 

Real-time CGM + insulin pump = highest time in range

The researchers explained that two modalities of CGM are broadly available: rtCGM, which continuously displays glucose concentration in the interstitial fluid (usually at intervals of 1-5 minutes) on a dedicated receiver or other portable device, such as a smartphone, and provides various adjustable alarms, and isCGM, which displays data on demand when the transmitter is scanned using either a dedicated reader or smartphone-based application.

rtCGMs include devices from Dexcom and Medtronic. The isCGM, or “flash,” generally refers to the Abbott FreeStyle Libre.

The study included individuals younger than 21 years from 34 centers in 21 countries in the SWEET registry, a worldwide network of diabetes care centers for youth, between Jan. 1, 2016, and Dec. 31, 2021.

The researchers didn’t report which particular devices were used in the trial, rather they just divided patients into four groups: 850 used isCGM with a pump, 1,231 used isCGM with multiple daily injections, 2,252 used rtCGM with a pump, and 886 used rtCGM with insulin injections.

After adjustments for sex, age, diabetes duration, and body mass index standard deviation score, rtCGM plus insulin pump was the most likely group to achieve the recommended greater than 70% time in target glycemic range (70-180 mg/dL), with 36.2% achieving it, followed by rtCGM plus injections, at 20.9%, and isCGM plus injections, at 12.5%. Those using isCGM with an insulin pump were the least likely to achieve time in range, at just 11.3%.

Similar trends were seen for the recommended goal of less than 4% of time spent below range (< 70 mg/dL) and less than 25% of time spent above range (> 180 mg/dL). Those using rtCGM with a pump had the highest proportions achieving both of those goals, 73.1% and 32.5%, respectively.  

The use of rtCGM, with or without a pump, was associated with lower rates of severe hypoglycemia (2.5% and 2.0%, respectively) than isCGM with or without a pump (5.5% and 5.2%, respectively).

Similarly, the proportion experiencing at least one DKA episode varied from 1.4% for rtCGM plus insulin pump and 0.7% for rtCGM plus injections to 3.0% for isCGM plus pump and 1.5% isCGM plus injections.


 

Study looked at older technology but results still reflect benefit

Among the rtCGM plus insulin pump group were 264 participants (5% of the total study population) recorded in the database as using automated insulin delivery (AID) systems, also known as the artificial pancreas, although this is likely an undercount as the presence of communication between the two devices was not automatically recorded, Dr. Dovc explained.

Those individuals recorded as using AIDs had a higher unadjusted time in range compared with non-AID users (66.3% vs. 59.0%) and lower time above range (30.1% vs. 37.0%) but didn’t differ in time below range (2.9% vs. 3.0%).

Dr. Dovc told this news organization: “While automated systems are becoming more common, there are still many individuals who do not have access to glucose-responsive devices.” Reasons include lack of reimbursement, or decisions not to use them, he said.

But, he added, “Despite the low reported numbers of AID users, results achieved in the pump with real-time CGM [group] are admirable and approaching recommended consensus targets with a clinically meaningful difference towards all other treatment modalities. As our findings may not be directly applicable to all participants using automated systems, they may still provide useful insights into the factors that influence glycemic control.”

Similarly, the intermittently scanned CGMs used by most in the study, and particularly in the earlier period, didn’t have low- or high-glucose alarms as do later versions. And an even more recent version also doesn’t require scanning either, so is essentially also “real-time.”

Dr. Dovc noted, “in the first half of our observational period only first generation of intermittently-scanned CGM was generally available, and we can speculate that only a small proportion started to use second generation towards the end of our observational period. The exact number of second-generation users was not available in this analysis.”

He acknowledged that because the study was observational and not randomized, patient choice of device could have influenced the outcomes.

“For example, participants who choose to use a more expensive device may have more resources or support available to them, which could influence their ability to manage their diabetes effectively. Additionally, individuals who choose to use a particular device may be more motivated or engaged in their diabetes care, which could also impact their outcomes. It would be important for future studies to explore the impact of device selection on device effectiveness and to control for this potential confounding factor in the analysis.”

This study was supported by the international Better Control in Pediatric and Adolescent Diabetes: Working to Create Centers of Reference (SWEET) corporate members, including Abbott Laboratories, Boehringer Ingelheim, Dexcom, Insulet, Eli Lilly, Medtronic, Sanofi, and the Slovenian National Research Agency. Dr. Dovc disclosed ties with Abbott Laboratories, Medtronic, Novo Nordisk, Eli Lilly, and Pfizer. He served as a member of the European Commission Expert Panel for Medical Devices for Endocrinology and Diabetes.   

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

Youth with type 1 diabetes who use real-time continuous glucose monitoring (rtCGM) and an insulin pump spend more time in target glucose range than do those using intermittently scanned CGM (isCGM) and/or multiple daily insulin injections, new data show.

In the multinational cohort study of more than 4,500 people younger than age 21 with type 1 diabetes, those using rtCGM and pumps also spent less time above and below glucose targets and had fewer severe adverse events – either severe hypoglycemia or diabetic ketoacidosis (DKA) – compared with injections and isCGM.

Daria Nipot/Getty Images

The findings were published online in JAMA Network Open by Klemen Dovc, MD, PhD, assistant professor in the department of pediatric endocrinology, diabetes, and metabolic diseases, University Children’s Hospital, Ljubljana, Slovenia, and colleagues.

“These results underscore the synergistic effect of advanced diabetes technologies that should be more readily available to youths with type 1 diabetes for further improvement of diabetes-related clinical outcomes,” the authors wrote.

Moreover, Dr. Dovc told this news organization: “Clinicians should be aware that there may be differences in effectiveness between different types of devices, and that choosing the right device for each individual may be important for achieving optimal outcomes.”
 

Real-time CGM + insulin pump = highest time in range

The researchers explained that two modalities of CGM are broadly available: rtCGM, which continuously displays glucose concentration in the interstitial fluid (usually at intervals of 1-5 minutes) on a dedicated receiver or other portable device, such as a smartphone, and provides various adjustable alarms, and isCGM, which displays data on demand when the transmitter is scanned using either a dedicated reader or smartphone-based application.

rtCGMs include devices from Dexcom and Medtronic. The isCGM, or “flash,” generally refers to the Abbott FreeStyle Libre.

The study included individuals younger than 21 years from 34 centers in 21 countries in the SWEET registry, a worldwide network of diabetes care centers for youth, between Jan. 1, 2016, and Dec. 31, 2021.

The researchers didn’t report which particular devices were used in the trial, rather they just divided patients into four groups: 850 used isCGM with a pump, 1,231 used isCGM with multiple daily injections, 2,252 used rtCGM with a pump, and 886 used rtCGM with insulin injections.

After adjustments for sex, age, diabetes duration, and body mass index standard deviation score, rtCGM plus insulin pump was the most likely group to achieve the recommended greater than 70% time in target glycemic range (70-180 mg/dL), with 36.2% achieving it, followed by rtCGM plus injections, at 20.9%, and isCGM plus injections, at 12.5%. Those using isCGM with an insulin pump were the least likely to achieve time in range, at just 11.3%.

Similar trends were seen for the recommended goal of less than 4% of time spent below range (< 70 mg/dL) and less than 25% of time spent above range (> 180 mg/dL). Those using rtCGM with a pump had the highest proportions achieving both of those goals, 73.1% and 32.5%, respectively.  

The use of rtCGM, with or without a pump, was associated with lower rates of severe hypoglycemia (2.5% and 2.0%, respectively) than isCGM with or without a pump (5.5% and 5.2%, respectively).

Similarly, the proportion experiencing at least one DKA episode varied from 1.4% for rtCGM plus insulin pump and 0.7% for rtCGM plus injections to 3.0% for isCGM plus pump and 1.5% isCGM plus injections.


 

Study looked at older technology but results still reflect benefit

Among the rtCGM plus insulin pump group were 264 participants (5% of the total study population) recorded in the database as using automated insulin delivery (AID) systems, also known as the artificial pancreas, although this is likely an undercount as the presence of communication between the two devices was not automatically recorded, Dr. Dovc explained.

Those individuals recorded as using AIDs had a higher unadjusted time in range compared with non-AID users (66.3% vs. 59.0%) and lower time above range (30.1% vs. 37.0%) but didn’t differ in time below range (2.9% vs. 3.0%).

Dr. Dovc told this news organization: “While automated systems are becoming more common, there are still many individuals who do not have access to glucose-responsive devices.” Reasons include lack of reimbursement, or decisions not to use them, he said.

But, he added, “Despite the low reported numbers of AID users, results achieved in the pump with real-time CGM [group] are admirable and approaching recommended consensus targets with a clinically meaningful difference towards all other treatment modalities. As our findings may not be directly applicable to all participants using automated systems, they may still provide useful insights into the factors that influence glycemic control.”

Similarly, the intermittently scanned CGMs used by most in the study, and particularly in the earlier period, didn’t have low- or high-glucose alarms as do later versions. And an even more recent version also doesn’t require scanning either, so is essentially also “real-time.”

Dr. Dovc noted, “in the first half of our observational period only first generation of intermittently-scanned CGM was generally available, and we can speculate that only a small proportion started to use second generation towards the end of our observational period. The exact number of second-generation users was not available in this analysis.”

He acknowledged that because the study was observational and not randomized, patient choice of device could have influenced the outcomes.

“For example, participants who choose to use a more expensive device may have more resources or support available to them, which could influence their ability to manage their diabetes effectively. Additionally, individuals who choose to use a particular device may be more motivated or engaged in their diabetes care, which could also impact their outcomes. It would be important for future studies to explore the impact of device selection on device effectiveness and to control for this potential confounding factor in the analysis.”

This study was supported by the international Better Control in Pediatric and Adolescent Diabetes: Working to Create Centers of Reference (SWEET) corporate members, including Abbott Laboratories, Boehringer Ingelheim, Dexcom, Insulet, Eli Lilly, Medtronic, Sanofi, and the Slovenian National Research Agency. Dr. Dovc disclosed ties with Abbott Laboratories, Medtronic, Novo Nordisk, Eli Lilly, and Pfizer. He served as a member of the European Commission Expert Panel for Medical Devices for Endocrinology and Diabetes.   

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

The increased risk for diabetes following COVID-19 infection has persisted into the Omicron era, but vaccination against SARS-CoV-2 appears to diminish that likelihood, new data suggest.

The findings, from more than 20,000 patients in the Cedars-Sinai Health System in Los Angeles, suggest that “continued efforts to prevent COVID-19 infection may be beneficial to patient health until we develop better understanding of the effects of potential long-term effects of COVID-19,” lead author Alan C. Kwan, MD, of the department of cardiology at Cedars Sinai’s Smidt Heart Institute, said in an interview.

Several studies conducted early in the pandemic suggested increased risks for both new-onset diabetes and cardiometabolic diseases following COVID-19 infection, possibly because of persistent inflammation contributing to insulin resistance.

However, it hasn’t been clear if those risks have persisted with the more recent predominance of the less-virulent Omicron variant or whether the COVID-19 vaccine influences the risk. This new study suggests that both are the case.

“Our results verify that the risk of developing type 2 diabetes after a COVID-19 infection was not just an early observation but, in fact, a real risk that has, unfortunately, persisted through the Omicron era,” Dr. Kwan noted.

“While the level of evidence by our study and others may not reach the degree needed to affect formal guidelines at this time, we believe it is reasonable to have increased clinical suspicion for diabetes after COVID-19 infection and a lower threshold for testing,” he added.

Moreover, “we believe that our study and others suggest the potential role of COVID-19 to affect cardiovascular risk, and so both prevention of COVID-19 infection, through reasonable personal practices and vaccination, and an increased attention to cardiovascular health after COVID-19 infection is warranted.”

The findings were published online in JAMA Network Open.

Dr. Kwan and colleagues analyzed data for a total of 23,709 patients treated (inpatient and outpatient) for at least one COVID-19 infection between March 2020 and June 2022.

Rates of new-onset diabetes (using ICD-10 codes, primarily type 2 diabetes), hypertension, and hyperlipidemia were all elevated in the 90 days following COVID-19 infection compared with the 90 days prior. The same was true of two diagnoses unrelated to COVID-19, urinary tract infection and gastroesophageal reflux, used as benchmarks of health care engagement.

The highest odds for post versus preinfection were for diabetes (odds ratio, 2.35; P < .001), followed by hypertension (OR, 1.54; P < .001), the benchmark diagnoses (OR, 1.42; P < .001), and hyperlipidemia (OR, 1.22; P = .03).

Following adjustments, the risk versus the benchmark conditions for new-onset diabetes before versus after COVID-19 was significantly elevated (OR, 1.58; P < .001), while the risks for hypertension and hyperlipidemia versus benchmark diagnoses were not (OR, 1.06; P = .52 and 0.91, P = .43, respectively).

The diabetes risk after versus before COVID-19 infection was higher among those who had not been vaccinated (OR, 1.78; P < .001), compared with those who had received the vaccine (OR, 1.07; P = .80).

However, there was no significant interaction between vaccination and diabetes diagnosis (P = .08). “For this reason, we believe our data are suggestive of a protective effect in the population who received vaccination prior to infection, but [this is] not definitive,” Dr. Kwan said.

There were no apparent interactions by age, sex, or pre-existing cardiovascular risk factors, including hypertension or hyperlipidemia. Age, sex, and timing of index infection regarding the Omicron variant were not associated with an increased risk of a new cardiometabolic diagnosis before or after COVID-19 infection in any of the models.

Dr. Kwan said in an interview: “We have continued to be surprised by the evolving understanding of the SARS-CoV-2 virus and the effects on human health. In the beginning of the pandemic it was framed as a purely respiratory virus, which we now know to be a severely limited description of all of its potential effects on the human body. We believe that our research and others raise a concern for increased cardiometabolic risk after COVID infection.”

He added that, “while knowledge is incomplete on this topic, we believe that clinical providers may wish to have a higher degree of suspicion for both diabetes and risk of future cardiac events in patients after COVID infection, and that continued efforts to prevent COVID infection may be beneficial to patient health until we develop better understanding of the potential long-term effects of COVID.”

This study was funded by the Erika J. Glazer Family Foundation, the Doris Duke Charitable Foundation, and grants from the National Institutes of Health. Dr. Kwan reported receiving grants from the Doris Duke Charitable Foundation during the conduct of the study.

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

The increased risk for diabetes following COVID-19 infection has persisted into the Omicron era, but vaccination against SARS-CoV-2 appears to diminish that likelihood, new data suggest.

The findings, from more than 20,000 patients in the Cedars-Sinai Health System in Los Angeles, suggest that “continued efforts to prevent COVID-19 infection may be beneficial to patient health until we develop better understanding of the effects of potential long-term effects of COVID-19,” lead author Alan C. Kwan, MD, of the department of cardiology at Cedars Sinai’s Smidt Heart Institute, said in an interview.

Several studies conducted early in the pandemic suggested increased risks for both new-onset diabetes and cardiometabolic diseases following COVID-19 infection, possibly because of persistent inflammation contributing to insulin resistance.

However, it hasn’t been clear if those risks have persisted with the more recent predominance of the less-virulent Omicron variant or whether the COVID-19 vaccine influences the risk. This new study suggests that both are the case.

“Our results verify that the risk of developing type 2 diabetes after a COVID-19 infection was not just an early observation but, in fact, a real risk that has, unfortunately, persisted through the Omicron era,” Dr. Kwan noted.

“While the level of evidence by our study and others may not reach the degree needed to affect formal guidelines at this time, we believe it is reasonable to have increased clinical suspicion for diabetes after COVID-19 infection and a lower threshold for testing,” he added.

Moreover, “we believe that our study and others suggest the potential role of COVID-19 to affect cardiovascular risk, and so both prevention of COVID-19 infection, through reasonable personal practices and vaccination, and an increased attention to cardiovascular health after COVID-19 infection is warranted.”

The findings were published online in JAMA Network Open.

Dr. Kwan and colleagues analyzed data for a total of 23,709 patients treated (inpatient and outpatient) for at least one COVID-19 infection between March 2020 and June 2022.

Rates of new-onset diabetes (using ICD-10 codes, primarily type 2 diabetes), hypertension, and hyperlipidemia were all elevated in the 90 days following COVID-19 infection compared with the 90 days prior. The same was true of two diagnoses unrelated to COVID-19, urinary tract infection and gastroesophageal reflux, used as benchmarks of health care engagement.

The highest odds for post versus preinfection were for diabetes (odds ratio, 2.35; P < .001), followed by hypertension (OR, 1.54; P < .001), the benchmark diagnoses (OR, 1.42; P < .001), and hyperlipidemia (OR, 1.22; P = .03).

Following adjustments, the risk versus the benchmark conditions for new-onset diabetes before versus after COVID-19 was significantly elevated (OR, 1.58; P < .001), while the risks for hypertension and hyperlipidemia versus benchmark diagnoses were not (OR, 1.06; P = .52 and 0.91, P = .43, respectively).

The diabetes risk after versus before COVID-19 infection was higher among those who had not been vaccinated (OR, 1.78; P < .001), compared with those who had received the vaccine (OR, 1.07; P = .80).

However, there was no significant interaction between vaccination and diabetes diagnosis (P = .08). “For this reason, we believe our data are suggestive of a protective effect in the population who received vaccination prior to infection, but [this is] not definitive,” Dr. Kwan said.

There were no apparent interactions by age, sex, or pre-existing cardiovascular risk factors, including hypertension or hyperlipidemia. Age, sex, and timing of index infection regarding the Omicron variant were not associated with an increased risk of a new cardiometabolic diagnosis before or after COVID-19 infection in any of the models.

Dr. Kwan said in an interview: “We have continued to be surprised by the evolving understanding of the SARS-CoV-2 virus and the effects on human health. In the beginning of the pandemic it was framed as a purely respiratory virus, which we now know to be a severely limited description of all of its potential effects on the human body. We believe that our research and others raise a concern for increased cardiometabolic risk after COVID infection.”

He added that, “while knowledge is incomplete on this topic, we believe that clinical providers may wish to have a higher degree of suspicion for both diabetes and risk of future cardiac events in patients after COVID infection, and that continued efforts to prevent COVID infection may be beneficial to patient health until we develop better understanding of the potential long-term effects of COVID.”

This study was funded by the Erika J. Glazer Family Foundation, the Doris Duke Charitable Foundation, and grants from the National Institutes of Health. Dr. Kwan reported receiving grants from the Doris Duke Charitable Foundation during the conduct of the study.

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

The increased risk for diabetes following COVID-19 infection has persisted into the Omicron era, but vaccination against SARS-CoV-2 appears to diminish that likelihood, new data suggest.

The findings, from more than 20,000 patients in the Cedars-Sinai Health System in Los Angeles, suggest that “continued efforts to prevent COVID-19 infection may be beneficial to patient health until we develop better understanding of the effects of potential long-term effects of COVID-19,” lead author Alan C. Kwan, MD, of the department of cardiology at Cedars Sinai’s Smidt Heart Institute, said in an interview.

Several studies conducted early in the pandemic suggested increased risks for both new-onset diabetes and cardiometabolic diseases following COVID-19 infection, possibly because of persistent inflammation contributing to insulin resistance.

However, it hasn’t been clear if those risks have persisted with the more recent predominance of the less-virulent Omicron variant or whether the COVID-19 vaccine influences the risk. This new study suggests that both are the case.

“Our results verify that the risk of developing type 2 diabetes after a COVID-19 infection was not just an early observation but, in fact, a real risk that has, unfortunately, persisted through the Omicron era,” Dr. Kwan noted.

“While the level of evidence by our study and others may not reach the degree needed to affect formal guidelines at this time, we believe it is reasonable to have increased clinical suspicion for diabetes after COVID-19 infection and a lower threshold for testing,” he added.

Moreover, “we believe that our study and others suggest the potential role of COVID-19 to affect cardiovascular risk, and so both prevention of COVID-19 infection, through reasonable personal practices and vaccination, and an increased attention to cardiovascular health after COVID-19 infection is warranted.”

The findings were published online in JAMA Network Open.

Dr. Kwan and colleagues analyzed data for a total of 23,709 patients treated (inpatient and outpatient) for at least one COVID-19 infection between March 2020 and June 2022.

Rates of new-onset diabetes (using ICD-10 codes, primarily type 2 diabetes), hypertension, and hyperlipidemia were all elevated in the 90 days following COVID-19 infection compared with the 90 days prior. The same was true of two diagnoses unrelated to COVID-19, urinary tract infection and gastroesophageal reflux, used as benchmarks of health care engagement.

The highest odds for post versus preinfection were for diabetes (odds ratio, 2.35; P < .001), followed by hypertension (OR, 1.54; P < .001), the benchmark diagnoses (OR, 1.42; P < .001), and hyperlipidemia (OR, 1.22; P = .03).

Following adjustments, the risk versus the benchmark conditions for new-onset diabetes before versus after COVID-19 was significantly elevated (OR, 1.58; P < .001), while the risks for hypertension and hyperlipidemia versus benchmark diagnoses were not (OR, 1.06; P = .52 and 0.91, P = .43, respectively).

The diabetes risk after versus before COVID-19 infection was higher among those who had not been vaccinated (OR, 1.78; P < .001), compared with those who had received the vaccine (OR, 1.07; P = .80).

However, there was no significant interaction between vaccination and diabetes diagnosis (P = .08). “For this reason, we believe our data are suggestive of a protective effect in the population who received vaccination prior to infection, but [this is] not definitive,” Dr. Kwan said.

There were no apparent interactions by age, sex, or pre-existing cardiovascular risk factors, including hypertension or hyperlipidemia. Age, sex, and timing of index infection regarding the Omicron variant were not associated with an increased risk of a new cardiometabolic diagnosis before or after COVID-19 infection in any of the models.

Dr. Kwan said in an interview: “We have continued to be surprised by the evolving understanding of the SARS-CoV-2 virus and the effects on human health. In the beginning of the pandemic it was framed as a purely respiratory virus, which we now know to be a severely limited description of all of its potential effects on the human body. We believe that our research and others raise a concern for increased cardiometabolic risk after COVID infection.”

He added that, “while knowledge is incomplete on this topic, we believe that clinical providers may wish to have a higher degree of suspicion for both diabetes and risk of future cardiac events in patients after COVID infection, and that continued efforts to prevent COVID infection may be beneficial to patient health until we develop better understanding of the potential long-term effects of COVID.”

This study was funded by the Erika J. Glazer Family Foundation, the Doris Duke Charitable Foundation, and grants from the National Institutes of Health. Dr. Kwan reported receiving grants from the Doris Duke Charitable Foundation during the conduct of the study.

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

About two-thirds of people with type 1 diabetes in the United States have overweight or obesity, nearly the same proportion as Americans without diabetes, new nationwide survey data suggest.

What’s more, among people with overweight or obesity, those with type 1 diabetes are less likely to receive lifestyle recommendations from health care professionals than those with type 2 diabetes, and are less likely to actually engage in lifestyle weight management activities than others with overweight or obesity, with or without type 2 diabetes.

“Among U.S. adults with type 1 diabetes, the burden of overweight and obesity is substantial and remains poorly managed,” write Michael Fang, PhD, of the Johns Hopkins Bloomberg School of Public Health, Baltimore, and colleagues.

Their data, from the National Health Interview Survey (NHIS), were published online in Annals of Internal Medicine.

The need for insulin complicates weight management in people with type 1 diabetes because changes in diet and physical activity typically require adjustments to insulin timing and dosage to prevent hypoglycemia. There is little evidence to guide this for weight management, Dr. Fang and colleagues explain.

Consequently, “the lack of evidence for safe, effective methods of diet- and exercise-based weight control in people with type 1 diabetes may be keeping doctors from recommending such methods,” Dr. Fang said in a statement.

“Large clinical trials have been done in type 2 diabetes patients to establish guidelines for diet- and exercise-based weight management, and we now need something similar for type 1 diabetes patients.”  

Asked to comment, M. Sue Kirkman, MD, told this news organization: “The days when we could teach simple concepts about diabetes type like ‘those with type 1 are lean and those with type 2 are overweight’ are long gone. … Of concern, fewer adults with type 1 diabetes and overweight/obesity report that they are engaging in physical activity or caloric restriction than those without diabetes or those with type 2 diabetes.”

There are several likely reasons for the low rates of obesity/overweight lifestyle modification advice and implementation for those with type 1 diabetes, noted Dr. Kirkman, of the University of North Carolina at Chapel Hill, who coauthored joint American/European guidance on type 1 diabetes management.

“Medical visits are often primarily focused on glycemic management and complications screening, and we know that physicians in general are not very knowledgeable about how to counsel people – even those without diabetes – on weight loss. When you add in potential worries, real or not, about hypoglycemia, ketosis with carbohydrate restriction … it’s no wonder that this may not be addressed in busy visits.”

She also observed, “In years of going to diabetes meetings, I’ve noticed occasional sessions on managing ‘elite athletes’ with type 1 diabetes, but rarely are there sessions on how to counsel people about everyday healthy living.”
 

Many with type 1 diabetes have overweight/obesity

Dr. Fang and colleagues analyzed NHIS data for the years 2016, 2017, 2019, 2020, and 2021, when diabetes subtype data were available, for 128,571 adults. Diabetes type and height/weight data were self-reported. In the 2016, 2017, and 2020 surveys, participants were asked whether their physicians had recommended increasing physical activity and/or reducing calorie or fat consumption, and whether they were currently engaging in those activities.

The study population comprised 733 people with type 1 diabetes, 12,397 with type 2 diabetes, and 115,441 without diabetes. The proportions with overweight (body mass index, 25 to < 30 kg/m²) or obesity (≥ 30 kg/m²) were 62% among those with type 1 diabetes and 64% among those without diabetes, compared with 86% among those with type 2 diabetes.

Among those with overweight or obesity, the proportions who reported having received lifestyle recommendations were greatest among those with type 2 diabetes and least among those without diabetes, with the type 1 diabetes group in the middle.

After adjustment for age, sex, and race/ethnicity, the adjusted prevalence of receiving a provider recommendation to increase physical activity was 60% for those with type 2 diabetes, 54% for type 1 diabetes, and 44% for those without diabetes. Proportions for receiving recommendations for reducing fat/caloric intake were similar, at 60%, 51%, and 41%, respectively.

The proportions who reported actually engaging in lifestyle activities for weight management were lowest among those with type 1 diabetes, with 52% and 56% of them reporting having increased their physical activity and reducing fat/calories, respectively, compared with proportions ranging from 56% to 63% among the other two groups.

Regarding those findings, Dr. Kirkman commented, “In addition to the factors regarding physician interactions, people with type 1 diabetes may see this as a lower-priority health issue after years of being told that glucose control is the main priority.”

“I also wonder if the many, many tasks people with type 1 diabetes must do every day to manage their diabetes – along with other life issues all adults face – mean that there is just too much on the plate to add more lifestyle changes,” she added.

Asked about the potential for off-label use of glucagonlike peptide–1 agonists for weight management for people with type 1 diabetes, Dr. Kirkman said they could probably help some patients. However, she also pointed to two clinical trials in which liraglutide added to insulin therapy helped with glycemic control and weight reduction, but also increased the risk for hypoglycemia and diabetic ketoacidosis.

“It’s really important that researchers engage with adults with type 1 diabetes to better understand the unique priorities and barriers they face in addressing body weight,” Dr. Kirkman said.

Senior study author Elizabeth Selvin, PhD, professor of epidemiology at the Bloomberg School, said in the statement: “Our study busts the myth that people with type 1 diabetes are not being affected by the global obesity epidemic. … These findings should be a wake-up call that we need to be aggressive in addressing the obesity epidemic in persons with type 1 diabetes.”

The study was funded by the U.S. National Institutes of Health. Dr. Fang and Dr. Kirkman have reported no relevant financial relationships. Dr. Selvin has reported receiving royalty payments from Wolters Kluwer for chapters and laboratory monographs in UpToDate. She also reports receiving honoraria for editorial work on journals published by the American Diabetes Association and European Association for the Study of Diabetes.

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

About two-thirds of people with type 1 diabetes in the United States have overweight or obesity, nearly the same proportion as Americans without diabetes, new nationwide survey data suggest.

What’s more, among people with overweight or obesity, those with type 1 diabetes are less likely to receive lifestyle recommendations from health care professionals than those with type 2 diabetes, and are less likely to actually engage in lifestyle weight management activities than others with overweight or obesity, with or without type 2 diabetes.

“Among U.S. adults with type 1 diabetes, the burden of overweight and obesity is substantial and remains poorly managed,” write Michael Fang, PhD, of the Johns Hopkins Bloomberg School of Public Health, Baltimore, and colleagues.

Their data, from the National Health Interview Survey (NHIS), were published online in Annals of Internal Medicine.

The need for insulin complicates weight management in people with type 1 diabetes because changes in diet and physical activity typically require adjustments to insulin timing and dosage to prevent hypoglycemia. There is little evidence to guide this for weight management, Dr. Fang and colleagues explain.

Consequently, “the lack of evidence for safe, effective methods of diet- and exercise-based weight control in people with type 1 diabetes may be keeping doctors from recommending such methods,” Dr. Fang said in a statement.

“Large clinical trials have been done in type 2 diabetes patients to establish guidelines for diet- and exercise-based weight management, and we now need something similar for type 1 diabetes patients.”  

Asked to comment, M. Sue Kirkman, MD, told this news organization: “The days when we could teach simple concepts about diabetes type like ‘those with type 1 are lean and those with type 2 are overweight’ are long gone. … Of concern, fewer adults with type 1 diabetes and overweight/obesity report that they are engaging in physical activity or caloric restriction than those without diabetes or those with type 2 diabetes.”

There are several likely reasons for the low rates of obesity/overweight lifestyle modification advice and implementation for those with type 1 diabetes, noted Dr. Kirkman, of the University of North Carolina at Chapel Hill, who coauthored joint American/European guidance on type 1 diabetes management.

“Medical visits are often primarily focused on glycemic management and complications screening, and we know that physicians in general are not very knowledgeable about how to counsel people – even those without diabetes – on weight loss. When you add in potential worries, real or not, about hypoglycemia, ketosis with carbohydrate restriction … it’s no wonder that this may not be addressed in busy visits.”

She also observed, “In years of going to diabetes meetings, I’ve noticed occasional sessions on managing ‘elite athletes’ with type 1 diabetes, but rarely are there sessions on how to counsel people about everyday healthy living.”
 

Many with type 1 diabetes have overweight/obesity

Dr. Fang and colleagues analyzed NHIS data for the years 2016, 2017, 2019, 2020, and 2021, when diabetes subtype data were available, for 128,571 adults. Diabetes type and height/weight data were self-reported. In the 2016, 2017, and 2020 surveys, participants were asked whether their physicians had recommended increasing physical activity and/or reducing calorie or fat consumption, and whether they were currently engaging in those activities.

The study population comprised 733 people with type 1 diabetes, 12,397 with type 2 diabetes, and 115,441 without diabetes. The proportions with overweight (body mass index, 25 to < 30 kg/m²) or obesity (≥ 30 kg/m²) were 62% among those with type 1 diabetes and 64% among those without diabetes, compared with 86% among those with type 2 diabetes.

Among those with overweight or obesity, the proportions who reported having received lifestyle recommendations were greatest among those with type 2 diabetes and least among those without diabetes, with the type 1 diabetes group in the middle.

After adjustment for age, sex, and race/ethnicity, the adjusted prevalence of receiving a provider recommendation to increase physical activity was 60% for those with type 2 diabetes, 54% for type 1 diabetes, and 44% for those without diabetes. Proportions for receiving recommendations for reducing fat/caloric intake were similar, at 60%, 51%, and 41%, respectively.

The proportions who reported actually engaging in lifestyle activities for weight management were lowest among those with type 1 diabetes, with 52% and 56% of them reporting having increased their physical activity and reducing fat/calories, respectively, compared with proportions ranging from 56% to 63% among the other two groups.

Regarding those findings, Dr. Kirkman commented, “In addition to the factors regarding physician interactions, people with type 1 diabetes may see this as a lower-priority health issue after years of being told that glucose control is the main priority.”

“I also wonder if the many, many tasks people with type 1 diabetes must do every day to manage their diabetes – along with other life issues all adults face – mean that there is just too much on the plate to add more lifestyle changes,” she added.

Asked about the potential for off-label use of glucagonlike peptide–1 agonists for weight management for people with type 1 diabetes, Dr. Kirkman said they could probably help some patients. However, she also pointed to two clinical trials in which liraglutide added to insulin therapy helped with glycemic control and weight reduction, but also increased the risk for hypoglycemia and diabetic ketoacidosis.

“It’s really important that researchers engage with adults with type 1 diabetes to better understand the unique priorities and barriers they face in addressing body weight,” Dr. Kirkman said.

Senior study author Elizabeth Selvin, PhD, professor of epidemiology at the Bloomberg School, said in the statement: “Our study busts the myth that people with type 1 diabetes are not being affected by the global obesity epidemic. … These findings should be a wake-up call that we need to be aggressive in addressing the obesity epidemic in persons with type 1 diabetes.”

The study was funded by the U.S. National Institutes of Health. Dr. Fang and Dr. Kirkman have reported no relevant financial relationships. Dr. Selvin has reported receiving royalty payments from Wolters Kluwer for chapters and laboratory monographs in UpToDate. She also reports receiving honoraria for editorial work on journals published by the American Diabetes Association and European Association for the Study of Diabetes.

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

About two-thirds of people with type 1 diabetes in the United States have overweight or obesity, nearly the same proportion as Americans without diabetes, new nationwide survey data suggest.

What’s more, among people with overweight or obesity, those with type 1 diabetes are less likely to receive lifestyle recommendations from health care professionals than those with type 2 diabetes, and are less likely to actually engage in lifestyle weight management activities than others with overweight or obesity, with or without type 2 diabetes.

“Among U.S. adults with type 1 diabetes, the burden of overweight and obesity is substantial and remains poorly managed,” write Michael Fang, PhD, of the Johns Hopkins Bloomberg School of Public Health, Baltimore, and colleagues.

Their data, from the National Health Interview Survey (NHIS), were published online in Annals of Internal Medicine.

The need for insulin complicates weight management in people with type 1 diabetes because changes in diet and physical activity typically require adjustments to insulin timing and dosage to prevent hypoglycemia. There is little evidence to guide this for weight management, Dr. Fang and colleagues explain.

Consequently, “the lack of evidence for safe, effective methods of diet- and exercise-based weight control in people with type 1 diabetes may be keeping doctors from recommending such methods,” Dr. Fang said in a statement.

“Large clinical trials have been done in type 2 diabetes patients to establish guidelines for diet- and exercise-based weight management, and we now need something similar for type 1 diabetes patients.”  

Asked to comment, M. Sue Kirkman, MD, told this news organization: “The days when we could teach simple concepts about diabetes type like ‘those with type 1 are lean and those with type 2 are overweight’ are long gone. … Of concern, fewer adults with type 1 diabetes and overweight/obesity report that they are engaging in physical activity or caloric restriction than those without diabetes or those with type 2 diabetes.”

There are several likely reasons for the low rates of obesity/overweight lifestyle modification advice and implementation for those with type 1 diabetes, noted Dr. Kirkman, of the University of North Carolina at Chapel Hill, who coauthored joint American/European guidance on type 1 diabetes management.

“Medical visits are often primarily focused on glycemic management and complications screening, and we know that physicians in general are not very knowledgeable about how to counsel people – even those without diabetes – on weight loss. When you add in potential worries, real or not, about hypoglycemia, ketosis with carbohydrate restriction … it’s no wonder that this may not be addressed in busy visits.”

She also observed, “In years of going to diabetes meetings, I’ve noticed occasional sessions on managing ‘elite athletes’ with type 1 diabetes, but rarely are there sessions on how to counsel people about everyday healthy living.”
 

Many with type 1 diabetes have overweight/obesity

Dr. Fang and colleagues analyzed NHIS data for the years 2016, 2017, 2019, 2020, and 2021, when diabetes subtype data were available, for 128,571 adults. Diabetes type and height/weight data were self-reported. In the 2016, 2017, and 2020 surveys, participants were asked whether their physicians had recommended increasing physical activity and/or reducing calorie or fat consumption, and whether they were currently engaging in those activities.

The study population comprised 733 people with type 1 diabetes, 12,397 with type 2 diabetes, and 115,441 without diabetes. The proportions with overweight (body mass index, 25 to < 30 kg/m²) or obesity (≥ 30 kg/m²) were 62% among those with type 1 diabetes and 64% among those without diabetes, compared with 86% among those with type 2 diabetes.

Among those with overweight or obesity, the proportions who reported having received lifestyle recommendations were greatest among those with type 2 diabetes and least among those without diabetes, with the type 1 diabetes group in the middle.

After adjustment for age, sex, and race/ethnicity, the adjusted prevalence of receiving a provider recommendation to increase physical activity was 60% for those with type 2 diabetes, 54% for type 1 diabetes, and 44% for those without diabetes. Proportions for receiving recommendations for reducing fat/caloric intake were similar, at 60%, 51%, and 41%, respectively.

The proportions who reported actually engaging in lifestyle activities for weight management were lowest among those with type 1 diabetes, with 52% and 56% of them reporting having increased their physical activity and reducing fat/calories, respectively, compared with proportions ranging from 56% to 63% among the other two groups.

Regarding those findings, Dr. Kirkman commented, “In addition to the factors regarding physician interactions, people with type 1 diabetes may see this as a lower-priority health issue after years of being told that glucose control is the main priority.”

“I also wonder if the many, many tasks people with type 1 diabetes must do every day to manage their diabetes – along with other life issues all adults face – mean that there is just too much on the plate to add more lifestyle changes,” she added.

Asked about the potential for off-label use of glucagonlike peptide–1 agonists for weight management for people with type 1 diabetes, Dr. Kirkman said they could probably help some patients. However, she also pointed to two clinical trials in which liraglutide added to insulin therapy helped with glycemic control and weight reduction, but also increased the risk for hypoglycemia and diabetic ketoacidosis.

“It’s really important that researchers engage with adults with type 1 diabetes to better understand the unique priorities and barriers they face in addressing body weight,” Dr. Kirkman said.

Senior study author Elizabeth Selvin, PhD, professor of epidemiology at the Bloomberg School, said in the statement: “Our study busts the myth that people with type 1 diabetes are not being affected by the global obesity epidemic. … These findings should be a wake-up call that we need to be aggressive in addressing the obesity epidemic in persons with type 1 diabetes.”

The study was funded by the U.S. National Institutes of Health. Dr. Fang and Dr. Kirkman have reported no relevant financial relationships. Dr. Selvin has reported receiving royalty payments from Wolters Kluwer for chapters and laboratory monographs in UpToDate. She also reports receiving honoraria for editorial work on journals published by the American Diabetes Association and European Association for the Study of Diabetes.

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

A small potential increased risk of retinopathy worsening at 1 year with injected semaglutide (Ozempic, Novo Nordisk), a glucagon-like peptide 1 (GLP-1) agonist approved for type 2 diabetes, doesn’t outweigh the drug’s cardiovascular benefits but does highlight the need for baseline ophthalmologic evaluation before initiating treatment and ongoing retinal monitoring, researchers say.

That conclusion was based on data from a meta-analysis of the seven major cardiovascular outcomes trials of GLP-1 agonists currently on the market.

memorisz/iStock/Getty Images

The findings were recently published in Diabetes & Metabolic Syndrome: Clinical Research & Reviews, by Stewart G. Albert, MD, and colleagues.

Concerns about retinopathy worsening with the GLP-1 agonist drug class first arose from the SUSTAIN-6 cardiovascular outcomes trial for injectable semaglutide, although a subsequent analysis of data from that trial appeared to suggest the problem is likely due to rapid glucose-lowering in already vulnerable patients rather than a drug-specific effect. This effect had been previously reported, most notably in the landmark Diabetes Control and Complications Trial.

In this new meta-analysis, “we showed that with improvements in A1c there were correlations with decreases in the rate of cardiovascular events but increases in the rate of retinopathy,” Dr. Albert, of St. Louis University, told this news organization.

“As a class of drugs, we did not find an increased rate of retinopathy. The effect of GLP-1 agonists on retinopathy did not appear to be due to an immediate direct toxic effect of the drug. The worsening of the rate of retinopathy was seen with semaglutide after 1 year of therapy and when there was a decrease in A1c of 1%,” he explained.

He noted that because the increased risk was seen primarily among those who already had retinopathy at baseline, “it would seem prudent to know the level of retinopathy either before or plan for close ophthalmologic monitoring around the time of drug initiation ... We routinely evaluate patients with known type 2 diabetes mellitus at yearly intervals for retinopathy. From our data, we saw worsening at 1 year of drug exposure, but we do not know the exact time when the changes occurred during that year.”

The Ozempic label advises that “patients with a history of diabetic retinopathy should be monitored for progression of diabetic retinopathy” but doesn’t specifically mention baseline assessment at the time of drug initiation.
 

No increase in retinopathy risk for GLP-1 agonist class overall

The seven trials in the meta-analysis comprised 56,004 participants, with baseline retinopathy prevalence ranging from 9% to 31%.

For the GLP-1 agonist class overall, there was no significant increase in the relative rate (RR) of retinopathy (RR, 1.09; P = .36), while there were significant reductions in relative rates of major adverse cardiac events, overall deaths, and cardiovascular deaths (all P < .001 or P = .001).

The increased retinopathy risk was seen only in the subcutaneous semaglutide group (RR, 1.73; P = .02).

The overall number needed to harm was 1,000 and the number to treat was 77. For semaglutide, those values were 77 and 43, respectively.

There was a significant correlation between a decrease in major adverse cardiac events and a decrease in A1c (P = .014), while for retinopathy, the risk increased with improved A1c (P = .076).
 

Semaglutide subanalysis finds increased retinopathy worsening

Dr. Albert and colleagues conducted a separate subanalysis of 11 studies of semaglutide that enrolled 11,894 patients, of which 6 studies (n = 5,610) were of oral semaglutide (Rybelsus) and 5 studies were of subcutaneous semaglutide (Ozempic; n = 6,284).

In the subanalysis, there was an overall increase in relative rates of new or worsening retinopathy (RR, 1.218; P = .049).

The change in relative rate of retinopathy was predominantly found for subcutaneous semaglutide given for longer than 1 year (RR, 1.559; P = .022) and decreases in A1c of more than 1.0% (RR, 1.590; P = .016). No such differences were seen with oral semaglutide.

A further evaluation of the data without the SUSTAIN 6 trial showed no effect on retinopathy but the analysis lacked power.

Dr. Albert told this news organization: “We did not find an immediate toxic effect of any drug. However, we cannot rule out that there was a cumulative effect of the dose over longer times.”

No disclosures were given.

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

A small potential increased risk of retinopathy worsening at 1 year with injected semaglutide (Ozempic, Novo Nordisk), a glucagon-like peptide 1 (GLP-1) agonist approved for type 2 diabetes, doesn’t outweigh the drug’s cardiovascular benefits but does highlight the need for baseline ophthalmologic evaluation before initiating treatment and ongoing retinal monitoring, researchers say.

That conclusion was based on data from a meta-analysis of the seven major cardiovascular outcomes trials of GLP-1 agonists currently on the market.

memorisz/iStock/Getty Images

The findings were recently published in Diabetes & Metabolic Syndrome: Clinical Research & Reviews, by Stewart G. Albert, MD, and colleagues.

Concerns about retinopathy worsening with the GLP-1 agonist drug class first arose from the SUSTAIN-6 cardiovascular outcomes trial for injectable semaglutide, although a subsequent analysis of data from that trial appeared to suggest the problem is likely due to rapid glucose-lowering in already vulnerable patients rather than a drug-specific effect. This effect had been previously reported, most notably in the landmark Diabetes Control and Complications Trial.

In this new meta-analysis, “we showed that with improvements in A1c there were correlations with decreases in the rate of cardiovascular events but increases in the rate of retinopathy,” Dr. Albert, of St. Louis University, told this news organization.

“As a class of drugs, we did not find an increased rate of retinopathy. The effect of GLP-1 agonists on retinopathy did not appear to be due to an immediate direct toxic effect of the drug. The worsening of the rate of retinopathy was seen with semaglutide after 1 year of therapy and when there was a decrease in A1c of 1%,” he explained.

He noted that because the increased risk was seen primarily among those who already had retinopathy at baseline, “it would seem prudent to know the level of retinopathy either before or plan for close ophthalmologic monitoring around the time of drug initiation ... We routinely evaluate patients with known type 2 diabetes mellitus at yearly intervals for retinopathy. From our data, we saw worsening at 1 year of drug exposure, but we do not know the exact time when the changes occurred during that year.”

The Ozempic label advises that “patients with a history of diabetic retinopathy should be monitored for progression of diabetic retinopathy” but doesn’t specifically mention baseline assessment at the time of drug initiation.
 

No increase in retinopathy risk for GLP-1 agonist class overall

The seven trials in the meta-analysis comprised 56,004 participants, with baseline retinopathy prevalence ranging from 9% to 31%.

For the GLP-1 agonist class overall, there was no significant increase in the relative rate (RR) of retinopathy (RR, 1.09; P = .36), while there were significant reductions in relative rates of major adverse cardiac events, overall deaths, and cardiovascular deaths (all P < .001 or P = .001).

The increased retinopathy risk was seen only in the subcutaneous semaglutide group (RR, 1.73; P = .02).

The overall number needed to harm was 1,000 and the number to treat was 77. For semaglutide, those values were 77 and 43, respectively.

There was a significant correlation between a decrease in major adverse cardiac events and a decrease in A1c (P = .014), while for retinopathy, the risk increased with improved A1c (P = .076).
 

Semaglutide subanalysis finds increased retinopathy worsening

Dr. Albert and colleagues conducted a separate subanalysis of 11 studies of semaglutide that enrolled 11,894 patients, of which 6 studies (n = 5,610) were of oral semaglutide (Rybelsus) and 5 studies were of subcutaneous semaglutide (Ozempic; n = 6,284).

In the subanalysis, there was an overall increase in relative rates of new or worsening retinopathy (RR, 1.218; P = .049).

The change in relative rate of retinopathy was predominantly found for subcutaneous semaglutide given for longer than 1 year (RR, 1.559; P = .022) and decreases in A1c of more than 1.0% (RR, 1.590; P = .016). No such differences were seen with oral semaglutide.

A further evaluation of the data without the SUSTAIN 6 trial showed no effect on retinopathy but the analysis lacked power.

Dr. Albert told this news organization: “We did not find an immediate toxic effect of any drug. However, we cannot rule out that there was a cumulative effect of the dose over longer times.”

No disclosures were given.

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

A small potential increased risk of retinopathy worsening at 1 year with injected semaglutide (Ozempic, Novo Nordisk), a glucagon-like peptide 1 (GLP-1) agonist approved for type 2 diabetes, doesn’t outweigh the drug’s cardiovascular benefits but does highlight the need for baseline ophthalmologic evaluation before initiating treatment and ongoing retinal monitoring, researchers say.

That conclusion was based on data from a meta-analysis of the seven major cardiovascular outcomes trials of GLP-1 agonists currently on the market.

memorisz/iStock/Getty Images

The findings were recently published in Diabetes & Metabolic Syndrome: Clinical Research & Reviews, by Stewart G. Albert, MD, and colleagues.

Concerns about retinopathy worsening with the GLP-1 agonist drug class first arose from the SUSTAIN-6 cardiovascular outcomes trial for injectable semaglutide, although a subsequent analysis of data from that trial appeared to suggest the problem is likely due to rapid glucose-lowering in already vulnerable patients rather than a drug-specific effect. This effect had been previously reported, most notably in the landmark Diabetes Control and Complications Trial.

In this new meta-analysis, “we showed that with improvements in A1c there were correlations with decreases in the rate of cardiovascular events but increases in the rate of retinopathy,” Dr. Albert, of St. Louis University, told this news organization.

“As a class of drugs, we did not find an increased rate of retinopathy. The effect of GLP-1 agonists on retinopathy did not appear to be due to an immediate direct toxic effect of the drug. The worsening of the rate of retinopathy was seen with semaglutide after 1 year of therapy and when there was a decrease in A1c of 1%,” he explained.

He noted that because the increased risk was seen primarily among those who already had retinopathy at baseline, “it would seem prudent to know the level of retinopathy either before or plan for close ophthalmologic monitoring around the time of drug initiation ... We routinely evaluate patients with known type 2 diabetes mellitus at yearly intervals for retinopathy. From our data, we saw worsening at 1 year of drug exposure, but we do not know the exact time when the changes occurred during that year.”

The Ozempic label advises that “patients with a history of diabetic retinopathy should be monitored for progression of diabetic retinopathy” but doesn’t specifically mention baseline assessment at the time of drug initiation.
 

No increase in retinopathy risk for GLP-1 agonist class overall

The seven trials in the meta-analysis comprised 56,004 participants, with baseline retinopathy prevalence ranging from 9% to 31%.

For the GLP-1 agonist class overall, there was no significant increase in the relative rate (RR) of retinopathy (RR, 1.09; P = .36), while there were significant reductions in relative rates of major adverse cardiac events, overall deaths, and cardiovascular deaths (all P < .001 or P = .001).

The increased retinopathy risk was seen only in the subcutaneous semaglutide group (RR, 1.73; P = .02).

The overall number needed to harm was 1,000 and the number to treat was 77. For semaglutide, those values were 77 and 43, respectively.

There was a significant correlation between a decrease in major adverse cardiac events and a decrease in A1c (P = .014), while for retinopathy, the risk increased with improved A1c (P = .076).
 

Semaglutide subanalysis finds increased retinopathy worsening

Dr. Albert and colleagues conducted a separate subanalysis of 11 studies of semaglutide that enrolled 11,894 patients, of which 6 studies (n = 5,610) were of oral semaglutide (Rybelsus) and 5 studies were of subcutaneous semaglutide (Ozempic; n = 6,284).

In the subanalysis, there was an overall increase in relative rates of new or worsening retinopathy (RR, 1.218; P = .049).

The change in relative rate of retinopathy was predominantly found for subcutaneous semaglutide given for longer than 1 year (RR, 1.559; P = .022) and decreases in A1c of more than 1.0% (RR, 1.590; P = .016). No such differences were seen with oral semaglutide.

A further evaluation of the data without the SUSTAIN 6 trial showed no effect on retinopathy but the analysis lacked power.

Dr. Albert told this news organization: “We did not find an immediate toxic effect of any drug. However, we cannot rule out that there was a cumulative effect of the dose over longer times.”

No disclosures were given.

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