MDedge Cardiology

What’s the opposite of an antibiotic?

Everyone knows that LOTME loves a good dichotomy: yin/yang, good/evil, heads/tails, particle/wave, peanut butter/jelly. They’re all great. We’re also big fans of microbiomes, particularly the gut microbiome. But what if we could combine the two? A healthy and nutritious story about the gut microbiome, with a dash of added dichotomy for flavor. Is such a thing even possible? Let’s find out.

Nastya Dulhiier/Unsplash

First, we need an antibiotic, a drug designed to fight bacterial infections. If you’ve got strep throat, otitis media, or bubonic plague, there’s a good chance you will receive an antibiotic. That antibiotic will kill the bad bacteria that are making you sick, but it will also kill a lot of the good bacteria that inhabit your gut microbiome, which results in side effects like bloating and diarrhea.

It comes down to diversity, explained Elisa Marroquin, PhD, of Texas Christian University (Go Horned Frogs!): “In a human community, we need people that have different professions because we don’t all know how to do every single job. And so the same happens with bacteria. We need lots of different gut bacteria that know how to do different things.”

She and her colleagues reviewed 29 studies published over the last 7 years and found a way to preserve the diversity of a human gut microbiome that’s dealing with an antibiotic. Their solution? Prescribe a probiotic.

The way to fight the effects of stopping a bacterial infection is to provide food for what are, basically, other bacterial infections. Antibiotic/probiotic is a prescription for dichotomy, and it means we managed to combine gut microbiomes with a dichotomy. And you didn’t think we could do it.
 

The earphone of hearing aids

It’s estimated that up to 75% of people who need hearing aids don’t wear them. Why? Well, there’s the social stigma about not wanting to appear too old, and then there’s the cost factor.

Antoni Shkraba/Pexels

Is there a cheaper, less stigmatizing option to amplify hearing? The answer, according to otolaryngologist Yen-fu Cheng, MD, of Taipei Veterans General Hospital and associates, is wireless earphones. AirPods, if you want to be brand specific.

Airpods can be on the more expensive side – running about $129 for AirPods 2 and $249 for AirPods Pro – but when compared with premium hearing aids ($10,000), or even basic aids (about $1,500), the Apple products come off inexpensive after all.

The team tested the premium and basic hearing aids against the AirPods 2 and the AirPod Pro using Apple’s Live Listen feature, which helps amplify sound through the company’s wireless earphones and iPhones and was initially designed to assist people with normal hearing in situations such as birdwatching.

The AirPods Pro worked just as well as the basic hearing aid but not quite as well as the premium hearing aid in a quiet setting, while the AirPods 2 performed the worst. When tested in a noisy setting, the AirPods Pro was pretty comparable to the premium hearing aid, as long as the noise came from a lateral direction. Neither of the AirPod models did as well as the hearing aids with head-on noises.

Wireless earbuds may not be the perfect solution from a clinical standpoint, but they’re a good start for people who don’t have access to hearing aids, Dr. Cheng noted.

So who says headphones damage your hearing? They might actually help.
 

Now I lay me down to sleep, I pray the computer my soul to keep

Radiation is the boring hazard of space travel. No one dies in a space horror movie because they’ve been slowly exposed to too much cosmic radiation. It’s always “thrown out the airlock” this and “eaten by a xenomorph” that.

Michael Chiara/Unsplash

Radiation, however, is not something that can be ignored, but it turns out that a potential solution is another science fiction staple: artificial hibernation. Generally in sci-fi, hibernation is a plot convenience to get people from point A to point B in a ship that doesn’t break the laws of physics. Here on Earth, though, it is well known that animals naturally entering a state of torpor during hibernation gain significant resistance to radiation.

The problem, of course, is that humans don’t hibernate, and no matter how hard people who work 100-hour weeks for Elon Musk try, sleeping for months on end is simply something we can’t do. However, a new study shows that it’s possible to induce this torpor state in animals that don’t naturally hibernate. By injecting rats with adenosine 5’-monophosphate monohydrate and keeping them in a room held at 16° C, an international team of scientists successfully induced a synthetic torpor state.

That’s not all they did: The scientists also exposed the hibernating rats to a large dose of radiation approximating that found in deep space. Which isn’t something we’d like to explain to our significant other when we got home from work. “So how was your day?” “Oh, I irradiated a bunch of sleeping rats. … Don’t worry they’re fine!” Which they were. Thanks to the hypoxic and hypothermic state, the tissue was spared damage from the high-energy ion radiation.

Obviously, there’s a big difference between a rat and a human and a lot of work to be done, but the study does show that artificial hibernation is possible. Perhaps one day we’ll be able to fall asleep and wake up light-years away under an alien sky, and we won’t be horrifically mutated or riddled with cancer. If, however, you find yourself in hibernation on your way to Jupiter (or Saturn) to investigate a mysterious black monolith, we suggest sleeping with one eye open and gripping your pillow tight.

What’s the opposite of an antibiotic?

Everyone knows that LOTME loves a good dichotomy: yin/yang, good/evil, heads/tails, particle/wave, peanut butter/jelly. They’re all great. We’re also big fans of microbiomes, particularly the gut microbiome. But what if we could combine the two? A healthy and nutritious story about the gut microbiome, with a dash of added dichotomy for flavor. Is such a thing even possible? Let’s find out.

Nastya Dulhiier/Unsplash

First, we need an antibiotic, a drug designed to fight bacterial infections. If you’ve got strep throat, otitis media, or bubonic plague, there’s a good chance you will receive an antibiotic. That antibiotic will kill the bad bacteria that are making you sick, but it will also kill a lot of the good bacteria that inhabit your gut microbiome, which results in side effects like bloating and diarrhea.

It comes down to diversity, explained Elisa Marroquin, PhD, of Texas Christian University (Go Horned Frogs!): “In a human community, we need people that have different professions because we don’t all know how to do every single job. And so the same happens with bacteria. We need lots of different gut bacteria that know how to do different things.”

She and her colleagues reviewed 29 studies published over the last 7 years and found a way to preserve the diversity of a human gut microbiome that’s dealing with an antibiotic. Their solution? Prescribe a probiotic.

The way to fight the effects of stopping a bacterial infection is to provide food for what are, basically, other bacterial infections. Antibiotic/probiotic is a prescription for dichotomy, and it means we managed to combine gut microbiomes with a dichotomy. And you didn’t think we could do it.
 

The earphone of hearing aids

It’s estimated that up to 75% of people who need hearing aids don’t wear them. Why? Well, there’s the social stigma about not wanting to appear too old, and then there’s the cost factor.

Antoni Shkraba/Pexels

Is there a cheaper, less stigmatizing option to amplify hearing? The answer, according to otolaryngologist Yen-fu Cheng, MD, of Taipei Veterans General Hospital and associates, is wireless earphones. AirPods, if you want to be brand specific.

Airpods can be on the more expensive side – running about $129 for AirPods 2 and $249 for AirPods Pro – but when compared with premium hearing aids ($10,000), or even basic aids (about $1,500), the Apple products come off inexpensive after all.

The team tested the premium and basic hearing aids against the AirPods 2 and the AirPod Pro using Apple’s Live Listen feature, which helps amplify sound through the company’s wireless earphones and iPhones and was initially designed to assist people with normal hearing in situations such as birdwatching.

The AirPods Pro worked just as well as the basic hearing aid but not quite as well as the premium hearing aid in a quiet setting, while the AirPods 2 performed the worst. When tested in a noisy setting, the AirPods Pro was pretty comparable to the premium hearing aid, as long as the noise came from a lateral direction. Neither of the AirPod models did as well as the hearing aids with head-on noises.

Wireless earbuds may not be the perfect solution from a clinical standpoint, but they’re a good start for people who don’t have access to hearing aids, Dr. Cheng noted.

So who says headphones damage your hearing? They might actually help.
 

Now I lay me down to sleep, I pray the computer my soul to keep

Radiation is the boring hazard of space travel. No one dies in a space horror movie because they’ve been slowly exposed to too much cosmic radiation. It’s always “thrown out the airlock” this and “eaten by a xenomorph” that.

Michael Chiara/Unsplash

Radiation, however, is not something that can be ignored, but it turns out that a potential solution is another science fiction staple: artificial hibernation. Generally in sci-fi, hibernation is a plot convenience to get people from point A to point B in a ship that doesn’t break the laws of physics. Here on Earth, though, it is well known that animals naturally entering a state of torpor during hibernation gain significant resistance to radiation.

The problem, of course, is that humans don’t hibernate, and no matter how hard people who work 100-hour weeks for Elon Musk try, sleeping for months on end is simply something we can’t do. However, a new study shows that it’s possible to induce this torpor state in animals that don’t naturally hibernate. By injecting rats with adenosine 5’-monophosphate monohydrate and keeping them in a room held at 16° C, an international team of scientists successfully induced a synthetic torpor state.

That’s not all they did: The scientists also exposed the hibernating rats to a large dose of radiation approximating that found in deep space. Which isn’t something we’d like to explain to our significant other when we got home from work. “So how was your day?” “Oh, I irradiated a bunch of sleeping rats. … Don’t worry they’re fine!” Which they were. Thanks to the hypoxic and hypothermic state, the tissue was spared damage from the high-energy ion radiation.

Obviously, there’s a big difference between a rat and a human and a lot of work to be done, but the study does show that artificial hibernation is possible. Perhaps one day we’ll be able to fall asleep and wake up light-years away under an alien sky, and we won’t be horrifically mutated or riddled with cancer. If, however, you find yourself in hibernation on your way to Jupiter (or Saturn) to investigate a mysterious black monolith, we suggest sleeping with one eye open and gripping your pillow tight.

What’s the opposite of an antibiotic?

Everyone knows that LOTME loves a good dichotomy: yin/yang, good/evil, heads/tails, particle/wave, peanut butter/jelly. They’re all great. We’re also big fans of microbiomes, particularly the gut microbiome. But what if we could combine the two? A healthy and nutritious story about the gut microbiome, with a dash of added dichotomy for flavor. Is such a thing even possible? Let’s find out.

Nastya Dulhiier/Unsplash

First, we need an antibiotic, a drug designed to fight bacterial infections. If you’ve got strep throat, otitis media, or bubonic plague, there’s a good chance you will receive an antibiotic. That antibiotic will kill the bad bacteria that are making you sick, but it will also kill a lot of the good bacteria that inhabit your gut microbiome, which results in side effects like bloating and diarrhea.

It comes down to diversity, explained Elisa Marroquin, PhD, of Texas Christian University (Go Horned Frogs!): “In a human community, we need people that have different professions because we don’t all know how to do every single job. And so the same happens with bacteria. We need lots of different gut bacteria that know how to do different things.”

She and her colleagues reviewed 29 studies published over the last 7 years and found a way to preserve the diversity of a human gut microbiome that’s dealing with an antibiotic. Their solution? Prescribe a probiotic.

The way to fight the effects of stopping a bacterial infection is to provide food for what are, basically, other bacterial infections. Antibiotic/probiotic is a prescription for dichotomy, and it means we managed to combine gut microbiomes with a dichotomy. And you didn’t think we could do it.
 

The earphone of hearing aids

It’s estimated that up to 75% of people who need hearing aids don’t wear them. Why? Well, there’s the social stigma about not wanting to appear too old, and then there’s the cost factor.

Antoni Shkraba/Pexels

Is there a cheaper, less stigmatizing option to amplify hearing? The answer, according to otolaryngologist Yen-fu Cheng, MD, of Taipei Veterans General Hospital and associates, is wireless earphones. AirPods, if you want to be brand specific.

Airpods can be on the more expensive side – running about $129 for AirPods 2 and $249 for AirPods Pro – but when compared with premium hearing aids ($10,000), or even basic aids (about $1,500), the Apple products come off inexpensive after all.

The team tested the premium and basic hearing aids against the AirPods 2 and the AirPod Pro using Apple’s Live Listen feature, which helps amplify sound through the company’s wireless earphones and iPhones and was initially designed to assist people with normal hearing in situations such as birdwatching.

The AirPods Pro worked just as well as the basic hearing aid but not quite as well as the premium hearing aid in a quiet setting, while the AirPods 2 performed the worst. When tested in a noisy setting, the AirPods Pro was pretty comparable to the premium hearing aid, as long as the noise came from a lateral direction. Neither of the AirPod models did as well as the hearing aids with head-on noises.

Wireless earbuds may not be the perfect solution from a clinical standpoint, but they’re a good start for people who don’t have access to hearing aids, Dr. Cheng noted.

So who says headphones damage your hearing? They might actually help.
 

Now I lay me down to sleep, I pray the computer my soul to keep

Radiation is the boring hazard of space travel. No one dies in a space horror movie because they’ve been slowly exposed to too much cosmic radiation. It’s always “thrown out the airlock” this and “eaten by a xenomorph” that.

Michael Chiara/Unsplash

Radiation, however, is not something that can be ignored, but it turns out that a potential solution is another science fiction staple: artificial hibernation. Generally in sci-fi, hibernation is a plot convenience to get people from point A to point B in a ship that doesn’t break the laws of physics. Here on Earth, though, it is well known that animals naturally entering a state of torpor during hibernation gain significant resistance to radiation.

The problem, of course, is that humans don’t hibernate, and no matter how hard people who work 100-hour weeks for Elon Musk try, sleeping for months on end is simply something we can’t do. However, a new study shows that it’s possible to induce this torpor state in animals that don’t naturally hibernate. By injecting rats with adenosine 5’-monophosphate monohydrate and keeping them in a room held at 16° C, an international team of scientists successfully induced a synthetic torpor state.

That’s not all they did: The scientists also exposed the hibernating rats to a large dose of radiation approximating that found in deep space. Which isn’t something we’d like to explain to our significant other when we got home from work. “So how was your day?” “Oh, I irradiated a bunch of sleeping rats. … Don’t worry they’re fine!” Which they were. Thanks to the hypoxic and hypothermic state, the tissue was spared damage from the high-energy ion radiation.

Obviously, there’s a big difference between a rat and a human and a lot of work to be done, but the study does show that artificial hibernation is possible. Perhaps one day we’ll be able to fall asleep and wake up light-years away under an alien sky, and we won’t be horrifically mutated or riddled with cancer. If, however, you find yourself in hibernation on your way to Jupiter (or Saturn) to investigate a mysterious black monolith, we suggest sleeping with one eye open and gripping your pillow tight.

Roughly 7% of all adult Americans may currently have had long COVID, with symptoms that have lasted 3 months or longer, according to the latest U.S. government survey done in October. More than a quarter say their condition is severe enough to significantly limit their day-to-day activities – yet the problem is only barely starting to get the attention of employers, the health care system, and policymakers.

With no cure or treatment in sight, long COVID is already burdening not only the health care system, but also the economy – and that burden is set to grow. Many experts worry about the possible long-term ripple effects, from increased spending on medical care costs to lost wages due to not being able to work, as well as the policy implications that come with addressing these issues.

“At this point, anyone who’s looking at this seriously would say this is a huge deal,” says senior Brookings Institution fellow Katie Bach, the author of a study that analyzed long COVID’s impact on the labor market.

“We need a real concerted focus on treating these people, which means both research and the clinical side, and figuring out how to build a labor market that is more inclusive of people with disabilities,” she said.

It’s not only that many people are affected. It’s that they are often affected for months and possibly even years.

The U.S. government figures suggest more than 18 million people could have symptoms of long COVID right now. The latest Household Pulse Survey by the Census Bureau and the National Center for Health Statistics takes data from 41,415 people.

A preprint of a study by researchers from City University of New York, posted on medRxiv in September and based on a similar population survey done between June 30 and July 2, drew comparable results. The study has not been peer reviewed.

More than 7% of all those who answered said they had long COVID at the time of the survey, which the researchers said corresponded to approximately 18.5 million U.S. adults. The same study found that a quarter of those, or an estimated 4.7 million adults, said their daily activities were impacted “a lot.”

This can translate into pain not only for the patients, but for governments and employers, too.

In high-income countries around the world, government surveys and other studies are shedding light on the extent to which post-COVID-19 symptoms – commonly known as long COVID – are affecting populations. While results vary, they generally fall within similar ranges.

The World Health Organization estimates that between 10% and 20% of those with COVID-19 go on to have an array of medium- to long-term post-COVID-19 symptoms that range from mild to debilitating. The U.S. Government Accountability Office puts that estimate at 10% to 30%; one of the latest studies published at the end of October in The Journal of the American Medical Association found that 15% of U.S. adults who had tested positive for COVID-19 reported current long COVID symptoms. Elsewhere, a study from the Netherlands published in The Lancet in August found that one in eight COVID-19 cases, or 12.7%, were likely to become long COVID.

“It’s very clear that the condition is devastating people’s lives and livelihoods,” WHO Director-General Tedros Adhanom Ghebreyesus wrote in an article for The Guardian newspaper in October.

“The world has already lost a significant number of the workforce to illness, death, fatigue, unplanned retirement due to an increase in long-term disability, which not only impacts the health system, but is a hit to the overarching economy … the impact of long COVID for all countries is very serious and needs immediate and sustained action equivalent to its scale.”
 

Global snapshot: Lasting symptoms, impact on activities

Patients describe a spectrum of persistent issues, with extreme fatigue, brain fog or cognitive problems, and shortness of breath among the most common complaints. Many also have manageable symptoms that worsen significantly after even mild physical or mental exertion.

Women appear almost twice as likely as men to get long COVID. Many patients have other medical conditions and disabilities that make them more vulnerable to the condition. Those who face greater obstacles accessing health care due to discrimination or socioeconomic inequity are at higher risk as well. 

While many are older, a large number are also in their prime working age. The Census Bureau data show that people ages 40-49 are more likely than any other group to get long COVID, which has broader implications for labor markets and the global economy. Already, experts have estimated that long COVID is likely to cost the U.S. trillions of dollars and affect multiple industries.

“Whether they’re in the financial world, the medical system, lawyers, they’re telling me they’re sitting at the computer screen and they’re unable to process the data,” said Zachary Schwartz, MD, medical director for Vancouver General Hospital’s Post-COVID-19 Recovery Clinic.

“That is what’s most distressing for people, in that they’re not working, they’re not making money, and they don’t know when, or if, they’re going to get better.”

Nearly a third of respondents in the Census Bureau’s Household Pulse Survey who said they have had COVID-19 reported symptoms that lasted 3 months or longer. People between the ages of 30 and 59 were the most affected, with about 32% reporting symptoms. Across the entire adult U.S. population, the survey found that 1 in 7 adults have had long COVID at some point during the pandemic, with about 1 in 18 saying it limited their activity to some degree, and 1 in 50 saying they have faced “a lot” of limits on their activities. Any way these numbers are dissected, long COVID has impacted a large swath of the population.

Yet research into the causes and possible treatments of long COVID is just getting underway.

“The amount of energy and time devoted to it is way, way less than it should, given how many people are likely affected,” said David Cutler, PhD, professor of economics at Harvard University, Cambridge, Mass., who has written about the economic cost of long COVID. “We’re way, way underdoing it here. And I think that’s really a terrible thing.”

Population surveys and studies from around the world show that long COVID lives up to its name, with people reporting serious symptoms for months on end.

In October, Statistics Canada and the Public Health Agency of Canada published early results from a questionnaire done between spring and summer 2022 that found just under 15% of adults who had a confirmed or suspected case of COVID-19 went on to have new or continuing symptoms 3 or more months later. Nearly half, or 47.3%, dealt with symptoms that lasted a year or more. More than one in five said their symptoms “often or always” limited their day-to-day activities, which included routine tasks such as preparing meals, doing errands and chores, and basic functions such as personal care and moving around in their homes.

Nearly three-quarters of workers or students said they missed an average of 20 days of work or school. 

“We haven’t yet been able to determine exactly when symptoms resolve,” said Rainu Kaushal, MD, the senior associate dean for clinical research at Weill Cornell Medicine in New York. She is co-leading a national study on long COVID in adults and children, funded by the National Institutes of Health RECOVER Initiative.

“But there does seem to be, for many of the milder symptoms, resolution at about 4-6 weeks. There seems to be a second point of resolution around 6 months for certain symptoms, and then some symptoms do seem to be permanent, and those tend to be patients who have underlying conditions,” she said.
 

Reducing the risk

Given all the data so far, experts recommend urgent policy changes to help people with long COVID.

“The population needs to be prepared, that understanding long COVID is going to be a very long and difficult process,” said Alexander Charney, MD, PhD, associate professor and the lead principal investigator of the RECOVER adult cohort at Icahn School of Medicine at Mount Sinai in New York. He said the government can do a great deal to help, including setting up a network of connected clinics treating long COVID, standardizing best practices, and sharing information.

“That would go a long way towards making sure that every person feels like they’re not too far away from a clinic where they can get treated for this particular condition,” he said.

But the only known way to prevent long COVID is to prevent COVID-19 infections in the first place, experts say. That means equitable access to tests, therapeutics, and vaccines.

“I will say that avoiding COVID remains the best treatment in the arsenal right now,” said Dr. Kaushal. This means masking, avoiding crowded places with poor ventilation and high exposure risk, and being up to date on vaccinations, she said.

A number of papers – including a large U.K. study published in May 2022, another one from July, and the JAMA study from October – all suggest that vaccinations can help reduce the risk of long COVID.

“I am absolutely of the belief that vaccination has reduced the incidence and overall amount of long COVID … [and is] still by far the best thing the public can do,” said Dr. Schwartz.

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

Roughly 7% of all adult Americans may currently have had long COVID, with symptoms that have lasted 3 months or longer, according to the latest U.S. government survey done in October. More than a quarter say their condition is severe enough to significantly limit their day-to-day activities – yet the problem is only barely starting to get the attention of employers, the health care system, and policymakers.

With no cure or treatment in sight, long COVID is already burdening not only the health care system, but also the economy – and that burden is set to grow. Many experts worry about the possible long-term ripple effects, from increased spending on medical care costs to lost wages due to not being able to work, as well as the policy implications that come with addressing these issues.

“At this point, anyone who’s looking at this seriously would say this is a huge deal,” says senior Brookings Institution fellow Katie Bach, the author of a study that analyzed long COVID’s impact on the labor market.

“We need a real concerted focus on treating these people, which means both research and the clinical side, and figuring out how to build a labor market that is more inclusive of people with disabilities,” she said.

It’s not only that many people are affected. It’s that they are often affected for months and possibly even years.

The U.S. government figures suggest more than 18 million people could have symptoms of long COVID right now. The latest Household Pulse Survey by the Census Bureau and the National Center for Health Statistics takes data from 41,415 people.

A preprint of a study by researchers from City University of New York, posted on medRxiv in September and based on a similar population survey done between June 30 and July 2, drew comparable results. The study has not been peer reviewed.

More than 7% of all those who answered said they had long COVID at the time of the survey, which the researchers said corresponded to approximately 18.5 million U.S. adults. The same study found that a quarter of those, or an estimated 4.7 million adults, said their daily activities were impacted “a lot.”

This can translate into pain not only for the patients, but for governments and employers, too.

In high-income countries around the world, government surveys and other studies are shedding light on the extent to which post-COVID-19 symptoms – commonly known as long COVID – are affecting populations. While results vary, they generally fall within similar ranges.

The World Health Organization estimates that between 10% and 20% of those with COVID-19 go on to have an array of medium- to long-term post-COVID-19 symptoms that range from mild to debilitating. The U.S. Government Accountability Office puts that estimate at 10% to 30%; one of the latest studies published at the end of October in The Journal of the American Medical Association found that 15% of U.S. adults who had tested positive for COVID-19 reported current long COVID symptoms. Elsewhere, a study from the Netherlands published in The Lancet in August found that one in eight COVID-19 cases, or 12.7%, were likely to become long COVID.

“It’s very clear that the condition is devastating people’s lives and livelihoods,” WHO Director-General Tedros Adhanom Ghebreyesus wrote in an article for The Guardian newspaper in October.

“The world has already lost a significant number of the workforce to illness, death, fatigue, unplanned retirement due to an increase in long-term disability, which not only impacts the health system, but is a hit to the overarching economy … the impact of long COVID for all countries is very serious and needs immediate and sustained action equivalent to its scale.”
 

Global snapshot: Lasting symptoms, impact on activities

Patients describe a spectrum of persistent issues, with extreme fatigue, brain fog or cognitive problems, and shortness of breath among the most common complaints. Many also have manageable symptoms that worsen significantly after even mild physical or mental exertion.

Women appear almost twice as likely as men to get long COVID. Many patients have other medical conditions and disabilities that make them more vulnerable to the condition. Those who face greater obstacles accessing health care due to discrimination or socioeconomic inequity are at higher risk as well. 

While many are older, a large number are also in their prime working age. The Census Bureau data show that people ages 40-49 are more likely than any other group to get long COVID, which has broader implications for labor markets and the global economy. Already, experts have estimated that long COVID is likely to cost the U.S. trillions of dollars and affect multiple industries.

“Whether they’re in the financial world, the medical system, lawyers, they’re telling me they’re sitting at the computer screen and they’re unable to process the data,” said Zachary Schwartz, MD, medical director for Vancouver General Hospital’s Post-COVID-19 Recovery Clinic.

“That is what’s most distressing for people, in that they’re not working, they’re not making money, and they don’t know when, or if, they’re going to get better.”

Nearly a third of respondents in the Census Bureau’s Household Pulse Survey who said they have had COVID-19 reported symptoms that lasted 3 months or longer. People between the ages of 30 and 59 were the most affected, with about 32% reporting symptoms. Across the entire adult U.S. population, the survey found that 1 in 7 adults have had long COVID at some point during the pandemic, with about 1 in 18 saying it limited their activity to some degree, and 1 in 50 saying they have faced “a lot” of limits on their activities. Any way these numbers are dissected, long COVID has impacted a large swath of the population.

Yet research into the causes and possible treatments of long COVID is just getting underway.

“The amount of energy and time devoted to it is way, way less than it should, given how many people are likely affected,” said David Cutler, PhD, professor of economics at Harvard University, Cambridge, Mass., who has written about the economic cost of long COVID. “We’re way, way underdoing it here. And I think that’s really a terrible thing.”

Population surveys and studies from around the world show that long COVID lives up to its name, with people reporting serious symptoms for months on end.

In October, Statistics Canada and the Public Health Agency of Canada published early results from a questionnaire done between spring and summer 2022 that found just under 15% of adults who had a confirmed or suspected case of COVID-19 went on to have new or continuing symptoms 3 or more months later. Nearly half, or 47.3%, dealt with symptoms that lasted a year or more. More than one in five said their symptoms “often or always” limited their day-to-day activities, which included routine tasks such as preparing meals, doing errands and chores, and basic functions such as personal care and moving around in their homes.

Nearly three-quarters of workers or students said they missed an average of 20 days of work or school. 

“We haven’t yet been able to determine exactly when symptoms resolve,” said Rainu Kaushal, MD, the senior associate dean for clinical research at Weill Cornell Medicine in New York. She is co-leading a national study on long COVID in adults and children, funded by the National Institutes of Health RECOVER Initiative.

“But there does seem to be, for many of the milder symptoms, resolution at about 4-6 weeks. There seems to be a second point of resolution around 6 months for certain symptoms, and then some symptoms do seem to be permanent, and those tend to be patients who have underlying conditions,” she said.
 

Reducing the risk

Given all the data so far, experts recommend urgent policy changes to help people with long COVID.

“The population needs to be prepared, that understanding long COVID is going to be a very long and difficult process,” said Alexander Charney, MD, PhD, associate professor and the lead principal investigator of the RECOVER adult cohort at Icahn School of Medicine at Mount Sinai in New York. He said the government can do a great deal to help, including setting up a network of connected clinics treating long COVID, standardizing best practices, and sharing information.

“That would go a long way towards making sure that every person feels like they’re not too far away from a clinic where they can get treated for this particular condition,” he said.

But the only known way to prevent long COVID is to prevent COVID-19 infections in the first place, experts say. That means equitable access to tests, therapeutics, and vaccines.

“I will say that avoiding COVID remains the best treatment in the arsenal right now,” said Dr. Kaushal. This means masking, avoiding crowded places with poor ventilation and high exposure risk, and being up to date on vaccinations, she said.

A number of papers – including a large U.K. study published in May 2022, another one from July, and the JAMA study from October – all suggest that vaccinations can help reduce the risk of long COVID.

“I am absolutely of the belief that vaccination has reduced the incidence and overall amount of long COVID … [and is] still by far the best thing the public can do,” said Dr. Schwartz.

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

Roughly 7% of all adult Americans may currently have had long COVID, with symptoms that have lasted 3 months or longer, according to the latest U.S. government survey done in October. More than a quarter say their condition is severe enough to significantly limit their day-to-day activities – yet the problem is only barely starting to get the attention of employers, the health care system, and policymakers.

With no cure or treatment in sight, long COVID is already burdening not only the health care system, but also the economy – and that burden is set to grow. Many experts worry about the possible long-term ripple effects, from increased spending on medical care costs to lost wages due to not being able to work, as well as the policy implications that come with addressing these issues.

“At this point, anyone who’s looking at this seriously would say this is a huge deal,” says senior Brookings Institution fellow Katie Bach, the author of a study that analyzed long COVID’s impact on the labor market.

“We need a real concerted focus on treating these people, which means both research and the clinical side, and figuring out how to build a labor market that is more inclusive of people with disabilities,” she said.

It’s not only that many people are affected. It’s that they are often affected for months and possibly even years.

The U.S. government figures suggest more than 18 million people could have symptoms of long COVID right now. The latest Household Pulse Survey by the Census Bureau and the National Center for Health Statistics takes data from 41,415 people.

A preprint of a study by researchers from City University of New York, posted on medRxiv in September and based on a similar population survey done between June 30 and July 2, drew comparable results. The study has not been peer reviewed.

More than 7% of all those who answered said they had long COVID at the time of the survey, which the researchers said corresponded to approximately 18.5 million U.S. adults. The same study found that a quarter of those, or an estimated 4.7 million adults, said their daily activities were impacted “a lot.”

This can translate into pain not only for the patients, but for governments and employers, too.

In high-income countries around the world, government surveys and other studies are shedding light on the extent to which post-COVID-19 symptoms – commonly known as long COVID – are affecting populations. While results vary, they generally fall within similar ranges.

The World Health Organization estimates that between 10% and 20% of those with COVID-19 go on to have an array of medium- to long-term post-COVID-19 symptoms that range from mild to debilitating. The U.S. Government Accountability Office puts that estimate at 10% to 30%; one of the latest studies published at the end of October in The Journal of the American Medical Association found that 15% of U.S. adults who had tested positive for COVID-19 reported current long COVID symptoms. Elsewhere, a study from the Netherlands published in The Lancet in August found that one in eight COVID-19 cases, or 12.7%, were likely to become long COVID.

“It’s very clear that the condition is devastating people’s lives and livelihoods,” WHO Director-General Tedros Adhanom Ghebreyesus wrote in an article for The Guardian newspaper in October.

“The world has already lost a significant number of the workforce to illness, death, fatigue, unplanned retirement due to an increase in long-term disability, which not only impacts the health system, but is a hit to the overarching economy … the impact of long COVID for all countries is very serious and needs immediate and sustained action equivalent to its scale.”
 

Global snapshot: Lasting symptoms, impact on activities

Patients describe a spectrum of persistent issues, with extreme fatigue, brain fog or cognitive problems, and shortness of breath among the most common complaints. Many also have manageable symptoms that worsen significantly after even mild physical or mental exertion.

Women appear almost twice as likely as men to get long COVID. Many patients have other medical conditions and disabilities that make them more vulnerable to the condition. Those who face greater obstacles accessing health care due to discrimination or socioeconomic inequity are at higher risk as well. 

While many are older, a large number are also in their prime working age. The Census Bureau data show that people ages 40-49 are more likely than any other group to get long COVID, which has broader implications for labor markets and the global economy. Already, experts have estimated that long COVID is likely to cost the U.S. trillions of dollars and affect multiple industries.

“Whether they’re in the financial world, the medical system, lawyers, they’re telling me they’re sitting at the computer screen and they’re unable to process the data,” said Zachary Schwartz, MD, medical director for Vancouver General Hospital’s Post-COVID-19 Recovery Clinic.

“That is what’s most distressing for people, in that they’re not working, they’re not making money, and they don’t know when, or if, they’re going to get better.”

Nearly a third of respondents in the Census Bureau’s Household Pulse Survey who said they have had COVID-19 reported symptoms that lasted 3 months or longer. People between the ages of 30 and 59 were the most affected, with about 32% reporting symptoms. Across the entire adult U.S. population, the survey found that 1 in 7 adults have had long COVID at some point during the pandemic, with about 1 in 18 saying it limited their activity to some degree, and 1 in 50 saying they have faced “a lot” of limits on their activities. Any way these numbers are dissected, long COVID has impacted a large swath of the population.

Yet research into the causes and possible treatments of long COVID is just getting underway.

“The amount of energy and time devoted to it is way, way less than it should, given how many people are likely affected,” said David Cutler, PhD, professor of economics at Harvard University, Cambridge, Mass., who has written about the economic cost of long COVID. “We’re way, way underdoing it here. And I think that’s really a terrible thing.”

Population surveys and studies from around the world show that long COVID lives up to its name, with people reporting serious symptoms for months on end.

In October, Statistics Canada and the Public Health Agency of Canada published early results from a questionnaire done between spring and summer 2022 that found just under 15% of adults who had a confirmed or suspected case of COVID-19 went on to have new or continuing symptoms 3 or more months later. Nearly half, or 47.3%, dealt with symptoms that lasted a year or more. More than one in five said their symptoms “often or always” limited their day-to-day activities, which included routine tasks such as preparing meals, doing errands and chores, and basic functions such as personal care and moving around in their homes.

Nearly three-quarters of workers or students said they missed an average of 20 days of work or school. 

“We haven’t yet been able to determine exactly when symptoms resolve,” said Rainu Kaushal, MD, the senior associate dean for clinical research at Weill Cornell Medicine in New York. She is co-leading a national study on long COVID in adults and children, funded by the National Institutes of Health RECOVER Initiative.

“But there does seem to be, for many of the milder symptoms, resolution at about 4-6 weeks. There seems to be a second point of resolution around 6 months for certain symptoms, and then some symptoms do seem to be permanent, and those tend to be patients who have underlying conditions,” she said.
 

Reducing the risk

Given all the data so far, experts recommend urgent policy changes to help people with long COVID.

“The population needs to be prepared, that understanding long COVID is going to be a very long and difficult process,” said Alexander Charney, MD, PhD, associate professor and the lead principal investigator of the RECOVER adult cohort at Icahn School of Medicine at Mount Sinai in New York. He said the government can do a great deal to help, including setting up a network of connected clinics treating long COVID, standardizing best practices, and sharing information.

“That would go a long way towards making sure that every person feels like they’re not too far away from a clinic where they can get treated for this particular condition,” he said.

But the only known way to prevent long COVID is to prevent COVID-19 infections in the first place, experts say. That means equitable access to tests, therapeutics, and vaccines.

“I will say that avoiding COVID remains the best treatment in the arsenal right now,” said Dr. Kaushal. This means masking, avoiding crowded places with poor ventilation and high exposure risk, and being up to date on vaccinations, she said.

A number of papers – including a large U.K. study published in May 2022, another one from July, and the JAMA study from October – all suggest that vaccinations can help reduce the risk of long COVID.

“I am absolutely of the belief that vaccination has reduced the incidence and overall amount of long COVID … [and is] still by far the best thing the public can do,” said Dr. Schwartz.

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

In most cases, passengers on an airline flight are representative of the general population, which means that anyone could have an emergency at any time.

A study published in the New England Journal of Medicine in 2013 showed that a medical emergency occurred in 1 per 604 flights, as determined on the basis of in-flight medical emergencies that resulted in calls to a physician-directed medical communications center, said Amy Faith Ho, MD, MPH of Integrative Emergency Services, Dallas–Fort Worth, in a presentation at the annual meeting of the American College of Emergency Physicians.

The study authors reviewed records of 11,920 in-flight medical emergencies between Jan. 1, 2008, and Oct. 31, 2010. The data showed that physician passengers provided medical assistance in nearly half of in-flight emergencies (48.1%) and that flights were diverted because of the emergency in 7.3% of cases.

The majority of the in-flight emergencies involved syncope or presyncope (37.4% of cases), followed by respiratory symptoms (12.1%) and nausea or vomiting (9.5%), according to the study.

The in-flight medical bag

Tools in a physician’s in-flight toolbox start with the first-aid kit. Airplanes also have an emergency medical kit (EMK), an oxygen tank, and an AED.

The minimum EMK contents are mandated by the Federal Aviation Administration, said Dr. Ho. The standard equipment includes a stethoscope, a sphygmomanometer, and three sizes of oropharyngeal airways. Other items include self-inflating manual resuscitation devices and CPR masks in thee sizes, alcohol sponges, gloves, adhesive tape, scissors, a tourniquet, as well as saline solution, needles, syringes, and an intravenous administration set consisting of tubing and two Y connectors.

An EMK also should contain the following medications: nonnarcotic analgesic tablets, antihistamine tablets, an injectable antihistamine, atropine, aspirin tablets, a bronchodilator, and epinephrine (both 1:1000; 1 injectable cc and 1:10,000; two injectable cc). Nitroglycerin tablets and 5 cc of 20 mg/mL injectable cardiac lidocaine are part of the mandated kit as well, according to Dr. Ho.

Some airlines carry additional supplies on all their flights, said Dr. Ho. Notably, American Airlines and British Airways carry EpiPens for adults and children, as well as opioid reversal medication (naloxone) and glucose for managing low blood sugar. American Airlines and Delta stock antiemetics, and Delta also carries naloxone. British Airways is unique in stocking additional cardiac medications, both oral and injectable.
 

How to handle an in-flight emergency

Physicians should always carry a copy of their medical license when traveling for documentation by the airline if they assist in a medical emergency during a flight, Dr. Ho emphasized. “Staff” personnel should be used. These include the flight attendants, medical ground control, and other passengers who might have useful skills, such as nursing, the ability to perform CPR, or therapy/counseling to calm a frightened patient. If needed, “crowdsource additional supplies from passengers,” such as a glucometer or pulse oximeter.

Legal lessons

Physicians are not obligated to assist during an in-flight medical emergency, said Dr. Ho. Legal jurisdiction can vary. In the United States, a bystander who assists in an emergency is generally protected by Good Samaritan laws; for international airlines, the laws may vary; those where the airline is based usually apply.

The Aviation Medical Assistance Act, passed in 1998, protects individuals from being sued for negligence while providing medical assistance, “unless the individual, while rendering such assistance, is guilty of gross negligence of willful misconduct,” Dr. Ho noted. The Aviation Medical Assistance Act also protects the airline itself “if the carrier in good faith believes that the passenger is a medically qualified individual.”

Dr. Ho disclosed no relevant financial relationships.

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

In most cases, passengers on an airline flight are representative of the general population, which means that anyone could have an emergency at any time.

A study published in the New England Journal of Medicine in 2013 showed that a medical emergency occurred in 1 per 604 flights, as determined on the basis of in-flight medical emergencies that resulted in calls to a physician-directed medical communications center, said Amy Faith Ho, MD, MPH of Integrative Emergency Services, Dallas–Fort Worth, in a presentation at the annual meeting of the American College of Emergency Physicians.

The study authors reviewed records of 11,920 in-flight medical emergencies between Jan. 1, 2008, and Oct. 31, 2010. The data showed that physician passengers provided medical assistance in nearly half of in-flight emergencies (48.1%) and that flights were diverted because of the emergency in 7.3% of cases.

The majority of the in-flight emergencies involved syncope or presyncope (37.4% of cases), followed by respiratory symptoms (12.1%) and nausea or vomiting (9.5%), according to the study.

The in-flight medical bag

Tools in a physician’s in-flight toolbox start with the first-aid kit. Airplanes also have an emergency medical kit (EMK), an oxygen tank, and an AED.

The minimum EMK contents are mandated by the Federal Aviation Administration, said Dr. Ho. The standard equipment includes a stethoscope, a sphygmomanometer, and three sizes of oropharyngeal airways. Other items include self-inflating manual resuscitation devices and CPR masks in thee sizes, alcohol sponges, gloves, adhesive tape, scissors, a tourniquet, as well as saline solution, needles, syringes, and an intravenous administration set consisting of tubing and two Y connectors.

An EMK also should contain the following medications: nonnarcotic analgesic tablets, antihistamine tablets, an injectable antihistamine, atropine, aspirin tablets, a bronchodilator, and epinephrine (both 1:1000; 1 injectable cc and 1:10,000; two injectable cc). Nitroglycerin tablets and 5 cc of 20 mg/mL injectable cardiac lidocaine are part of the mandated kit as well, according to Dr. Ho.

Some airlines carry additional supplies on all their flights, said Dr. Ho. Notably, American Airlines and British Airways carry EpiPens for adults and children, as well as opioid reversal medication (naloxone) and glucose for managing low blood sugar. American Airlines and Delta stock antiemetics, and Delta also carries naloxone. British Airways is unique in stocking additional cardiac medications, both oral and injectable.
 

How to handle an in-flight emergency

Physicians should always carry a copy of their medical license when traveling for documentation by the airline if they assist in a medical emergency during a flight, Dr. Ho emphasized. “Staff” personnel should be used. These include the flight attendants, medical ground control, and other passengers who might have useful skills, such as nursing, the ability to perform CPR, or therapy/counseling to calm a frightened patient. If needed, “crowdsource additional supplies from passengers,” such as a glucometer or pulse oximeter.

Legal lessons

Physicians are not obligated to assist during an in-flight medical emergency, said Dr. Ho. Legal jurisdiction can vary. In the United States, a bystander who assists in an emergency is generally protected by Good Samaritan laws; for international airlines, the laws may vary; those where the airline is based usually apply.

The Aviation Medical Assistance Act, passed in 1998, protects individuals from being sued for negligence while providing medical assistance, “unless the individual, while rendering such assistance, is guilty of gross negligence of willful misconduct,” Dr. Ho noted. The Aviation Medical Assistance Act also protects the airline itself “if the carrier in good faith believes that the passenger is a medically qualified individual.”

Dr. Ho disclosed no relevant financial relationships.

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

In most cases, passengers on an airline flight are representative of the general population, which means that anyone could have an emergency at any time.

A study published in the New England Journal of Medicine in 2013 showed that a medical emergency occurred in 1 per 604 flights, as determined on the basis of in-flight medical emergencies that resulted in calls to a physician-directed medical communications center, said Amy Faith Ho, MD, MPH of Integrative Emergency Services, Dallas–Fort Worth, in a presentation at the annual meeting of the American College of Emergency Physicians.

The study authors reviewed records of 11,920 in-flight medical emergencies between Jan. 1, 2008, and Oct. 31, 2010. The data showed that physician passengers provided medical assistance in nearly half of in-flight emergencies (48.1%) and that flights were diverted because of the emergency in 7.3% of cases.

The majority of the in-flight emergencies involved syncope or presyncope (37.4% of cases), followed by respiratory symptoms (12.1%) and nausea or vomiting (9.5%), according to the study.

The in-flight medical bag

Tools in a physician’s in-flight toolbox start with the first-aid kit. Airplanes also have an emergency medical kit (EMK), an oxygen tank, and an AED.

The minimum EMK contents are mandated by the Federal Aviation Administration, said Dr. Ho. The standard equipment includes a stethoscope, a sphygmomanometer, and three sizes of oropharyngeal airways. Other items include self-inflating manual resuscitation devices and CPR masks in thee sizes, alcohol sponges, gloves, adhesive tape, scissors, a tourniquet, as well as saline solution, needles, syringes, and an intravenous administration set consisting of tubing and two Y connectors.

An EMK also should contain the following medications: nonnarcotic analgesic tablets, antihistamine tablets, an injectable antihistamine, atropine, aspirin tablets, a bronchodilator, and epinephrine (both 1:1000; 1 injectable cc and 1:10,000; two injectable cc). Nitroglycerin tablets and 5 cc of 20 mg/mL injectable cardiac lidocaine are part of the mandated kit as well, according to Dr. Ho.

Some airlines carry additional supplies on all their flights, said Dr. Ho. Notably, American Airlines and British Airways carry EpiPens for adults and children, as well as opioid reversal medication (naloxone) and glucose for managing low blood sugar. American Airlines and Delta stock antiemetics, and Delta also carries naloxone. British Airways is unique in stocking additional cardiac medications, both oral and injectable.
 

How to handle an in-flight emergency

Physicians should always carry a copy of their medical license when traveling for documentation by the airline if they assist in a medical emergency during a flight, Dr. Ho emphasized. “Staff” personnel should be used. These include the flight attendants, medical ground control, and other passengers who might have useful skills, such as nursing, the ability to perform CPR, or therapy/counseling to calm a frightened patient. If needed, “crowdsource additional supplies from passengers,” such as a glucometer or pulse oximeter.

Legal lessons

Physicians are not obligated to assist during an in-flight medical emergency, said Dr. Ho. Legal jurisdiction can vary. In the United States, a bystander who assists in an emergency is generally protected by Good Samaritan laws; for international airlines, the laws may vary; those where the airline is based usually apply.

The Aviation Medical Assistance Act, passed in 1998, protects individuals from being sued for negligence while providing medical assistance, “unless the individual, while rendering such assistance, is guilty of gross negligence of willful misconduct,” Dr. Ho noted. The Aviation Medical Assistance Act also protects the airline itself “if the carrier in good faith believes that the passenger is a medically qualified individual.”

Dr. Ho disclosed no relevant financial relationships.

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

Undiagnosed atrial fibrillation (AFib) was significantly more common among adults with obstructive sleep apnea (OSA), compared with controls, based on data from 303 individuals.

OSA has become a common chronic disease, and cardiovascular diseases including AFib also are known independent risk factors associated with OSA, Anna Hojager, MD, of Zealand University Hospital, Roskilde, Denmark, and colleagues wrote. Previous studies have shown a significant increase in AFib risk in OSA patients with severe disease, but the prevalence of undiagnosed AFib in OSA patients has not been explored.

In a study published in Sleep Medicine, the researchers enrolled 238 adults with severe OSA (based on apnea-hypopnea index of 15 or higher) and 65 with mild or no OSA (based on an AHI of less than 15). The mean AHI across all participants was 34.2, and ranged from 0.2 to 115.8.

Participants underwent heart rhythm monitoring using a home system or standard ECG for 7 days; they were instructed to carry the device at all times except when showering or sweating heavily. The primary outcome was the detection of AFib, defined as at least one period of 30 seconds or longer with an irregular heart rhythm but without detectable evidence of another diagnosis. Sleep was assessed for one night using a portable sleep monitoring device. All participants were examined at baseline and measured for blood pressure, body mass index, waist-to-hip ratio, and ECG.

Overall, AFib occurred in 21 patients with moderate to severe OSA and 1 patient with mild/no OSA (8.8% vs. 1.5%, P = .045). The majority of patients across both groups had hypertension (66%) and dyslipidemia (77.6%), but the severe OSA group was more likely to be dysregulated and to have unknown prediabetes. Participants who were deemed candidates for anticoagulation therapy were referred for additional treatment. None of the 22 total patients with AFib had heart failure with reduced ejection fraction, and 68.2% had normal ejection fraction and ventricle function.

The researchers noted that no guidelines currently exist for systematic opportunistic screening for comorbidities in OSA patients, although the American Academy of Sleep Medicine recommends patient education as part of a multidisciplinary chronic disease management strategy. The high prevalence of AFib in OSA patients, as seen in the current study, “might warrant a recommendation of screening for paroxysmal [AFib] and could be valuable in the management of modifiable cardiovascular risk factors in patients with OSA,” they wrote.

The study findings were limited by several factors including the observational design and absence of polysomnography to assess OSA, the researchers noted. However, the study has the highest known prevalence of silent AFib in patients with moderate to severe OSA, and supports the value of screening and management for known comorbidities of OSA.

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

Undiagnosed atrial fibrillation (AFib) was significantly more common among adults with obstructive sleep apnea (OSA), compared with controls, based on data from 303 individuals.

OSA has become a common chronic disease, and cardiovascular diseases including AFib also are known independent risk factors associated with OSA, Anna Hojager, MD, of Zealand University Hospital, Roskilde, Denmark, and colleagues wrote. Previous studies have shown a significant increase in AFib risk in OSA patients with severe disease, but the prevalence of undiagnosed AFib in OSA patients has not been explored.

In a study published in Sleep Medicine, the researchers enrolled 238 adults with severe OSA (based on apnea-hypopnea index of 15 or higher) and 65 with mild or no OSA (based on an AHI of less than 15). The mean AHI across all participants was 34.2, and ranged from 0.2 to 115.8.

Participants underwent heart rhythm monitoring using a home system or standard ECG for 7 days; they were instructed to carry the device at all times except when showering or sweating heavily. The primary outcome was the detection of AFib, defined as at least one period of 30 seconds or longer with an irregular heart rhythm but without detectable evidence of another diagnosis. Sleep was assessed for one night using a portable sleep monitoring device. All participants were examined at baseline and measured for blood pressure, body mass index, waist-to-hip ratio, and ECG.

Overall, AFib occurred in 21 patients with moderate to severe OSA and 1 patient with mild/no OSA (8.8% vs. 1.5%, P = .045). The majority of patients across both groups had hypertension (66%) and dyslipidemia (77.6%), but the severe OSA group was more likely to be dysregulated and to have unknown prediabetes. Participants who were deemed candidates for anticoagulation therapy were referred for additional treatment. None of the 22 total patients with AFib had heart failure with reduced ejection fraction, and 68.2% had normal ejection fraction and ventricle function.

The researchers noted that no guidelines currently exist for systematic opportunistic screening for comorbidities in OSA patients, although the American Academy of Sleep Medicine recommends patient education as part of a multidisciplinary chronic disease management strategy. The high prevalence of AFib in OSA patients, as seen in the current study, “might warrant a recommendation of screening for paroxysmal [AFib] and could be valuable in the management of modifiable cardiovascular risk factors in patients with OSA,” they wrote.

The study findings were limited by several factors including the observational design and absence of polysomnography to assess OSA, the researchers noted. However, the study has the highest known prevalence of silent AFib in patients with moderate to severe OSA, and supports the value of screening and management for known comorbidities of OSA.

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

Undiagnosed atrial fibrillation (AFib) was significantly more common among adults with obstructive sleep apnea (OSA), compared with controls, based on data from 303 individuals.

OSA has become a common chronic disease, and cardiovascular diseases including AFib also are known independent risk factors associated with OSA, Anna Hojager, MD, of Zealand University Hospital, Roskilde, Denmark, and colleagues wrote. Previous studies have shown a significant increase in AFib risk in OSA patients with severe disease, but the prevalence of undiagnosed AFib in OSA patients has not been explored.

In a study published in Sleep Medicine, the researchers enrolled 238 adults with severe OSA (based on apnea-hypopnea index of 15 or higher) and 65 with mild or no OSA (based on an AHI of less than 15). The mean AHI across all participants was 34.2, and ranged from 0.2 to 115.8.

Participants underwent heart rhythm monitoring using a home system or standard ECG for 7 days; they were instructed to carry the device at all times except when showering or sweating heavily. The primary outcome was the detection of AFib, defined as at least one period of 30 seconds or longer with an irregular heart rhythm but without detectable evidence of another diagnosis. Sleep was assessed for one night using a portable sleep monitoring device. All participants were examined at baseline and measured for blood pressure, body mass index, waist-to-hip ratio, and ECG.

Overall, AFib occurred in 21 patients with moderate to severe OSA and 1 patient with mild/no OSA (8.8% vs. 1.5%, P = .045). The majority of patients across both groups had hypertension (66%) and dyslipidemia (77.6%), but the severe OSA group was more likely to be dysregulated and to have unknown prediabetes. Participants who were deemed candidates for anticoagulation therapy were referred for additional treatment. None of the 22 total patients with AFib had heart failure with reduced ejection fraction, and 68.2% had normal ejection fraction and ventricle function.

The researchers noted that no guidelines currently exist for systematic opportunistic screening for comorbidities in OSA patients, although the American Academy of Sleep Medicine recommends patient education as part of a multidisciplinary chronic disease management strategy. The high prevalence of AFib in OSA patients, as seen in the current study, “might warrant a recommendation of screening for paroxysmal [AFib] and could be valuable in the management of modifiable cardiovascular risk factors in patients with OSA,” they wrote.

The study findings were limited by several factors including the observational design and absence of polysomnography to assess OSA, the researchers noted. However, the study has the highest known prevalence of silent AFib in patients with moderate to severe OSA, and supports the value of screening and management for known comorbidities of OSA.

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

This transcript has been edited for clarity.

I’m Dr. Neil Skolnik. Today we’re going to talk about the consensus report by the American Diabetes Association and the European Association for the Study of Diabetes on the management of hyperglycemia.

A lot has changed in this consensus statement. It covers a lot of ground. We’re going to focus today on pharmacologic management.

After lifestyle modifications, metformin is no longer the go-to drug for every patient in the management of hyperglycemia. It is recommended that we assess each patient’s personal characteristics in deciding what medication to prescribe. For patients at high cardiorenal risk, refer to the left side of the algorithm and to the right side for all other patients.

American Diabetes Association

• Very high efficacy for glucose lowering: dulaglutide at a high dose, semaglutide, tirzepatide, insulin, or combination injectable agents (GLP-1 receptor agonist/insulin combinations).
• High glucose-lowering efficacy: a GLP-1 receptor agonist not already mentioned, metformin, SGLT-2 inhibitors, sulfonylureas, thiazolidinediones.
• Intermediate glucose lowering efficacy: dipeptidyl peptidase 4 (DPP-4) inhibitors.

Weight management. For weight management, lifestyle modification (diet and exercise) is important. If lifestyle modification alone is insufficient, consider either a medication that specifically helps with weight management or metabolic surgery.

We particularly want to focus on weight management in patients who have complications from obesity. What would those complications be? Sleep apnea, hip or knee pain from arthritis, back pain – that is, biomechanical complications of obesity or nonalcoholic fatty liver disease. Medications for weight loss are listed by degree of efficacy:

• Very high efficacy for weight loss: semaglutide, tirzepatide.
• High efficacy for weight loss: dulaglutide and liraglutide.
• Intermediate for weight loss: GLP-1 receptor agonist (not listed above), SGLT-2 inhibitor.
• Neutral for weight loss: DPP-4 inhibitors and metformin.

Where does insulin fit in? If patients present with a very high A1c, if they are on other medications and their A1c is still not to goal, or if they are catabolic and losing weight because of their diabetes, then insulin has an important place in management.

These are incredibly important guidelines that provide a clear algorithm for a personalized approach to diabetes management.
 

Dr. Skolnik is professor, department of family medicine, Sidney Kimmel Medical College, Philadelphia, and associate director, department of family medicine, Abington (Pa.) Jefferson Health. He reported conflicts of interest with AstraZeneca, Teva, Eli Lilly, Boehringer Ingelheim, Sanofi, Sanofi Pasteur, GlaxoSmithKline, Merck, and Bayer. A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

I’m Dr. Neil Skolnik. Today we’re going to talk about the consensus report by the American Diabetes Association and the European Association for the Study of Diabetes on the management of hyperglycemia.

A lot has changed in this consensus statement. It covers a lot of ground. We’re going to focus today on pharmacologic management.

After lifestyle modifications, metformin is no longer the go-to drug for every patient in the management of hyperglycemia. It is recommended that we assess each patient’s personal characteristics in deciding what medication to prescribe. For patients at high cardiorenal risk, refer to the left side of the algorithm and to the right side for all other patients.

American Diabetes Association

• Very high efficacy for glucose lowering: dulaglutide at a high dose, semaglutide, tirzepatide, insulin, or combination injectable agents (GLP-1 receptor agonist/insulin combinations).
• High glucose-lowering efficacy: a GLP-1 receptor agonist not already mentioned, metformin, SGLT-2 inhibitors, sulfonylureas, thiazolidinediones.
• Intermediate glucose lowering efficacy: dipeptidyl peptidase 4 (DPP-4) inhibitors.

Weight management. For weight management, lifestyle modification (diet and exercise) is important. If lifestyle modification alone is insufficient, consider either a medication that specifically helps with weight management or metabolic surgery.

We particularly want to focus on weight management in patients who have complications from obesity. What would those complications be? Sleep apnea, hip or knee pain from arthritis, back pain – that is, biomechanical complications of obesity or nonalcoholic fatty liver disease. Medications for weight loss are listed by degree of efficacy:

• Very high efficacy for weight loss: semaglutide, tirzepatide.
• High efficacy for weight loss: dulaglutide and liraglutide.
• Intermediate for weight loss: GLP-1 receptor agonist (not listed above), SGLT-2 inhibitor.
• Neutral for weight loss: DPP-4 inhibitors and metformin.

Where does insulin fit in? If patients present with a very high A1c, if they are on other medications and their A1c is still not to goal, or if they are catabolic and losing weight because of their diabetes, then insulin has an important place in management.

These are incredibly important guidelines that provide a clear algorithm for a personalized approach to diabetes management.
 

Dr. Skolnik is professor, department of family medicine, Sidney Kimmel Medical College, Philadelphia, and associate director, department of family medicine, Abington (Pa.) Jefferson Health. He reported conflicts of interest with AstraZeneca, Teva, Eli Lilly, Boehringer Ingelheim, Sanofi, Sanofi Pasteur, GlaxoSmithKline, Merck, and Bayer. A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

I’m Dr. Neil Skolnik. Today we’re going to talk about the consensus report by the American Diabetes Association and the European Association for the Study of Diabetes on the management of hyperglycemia.

A lot has changed in this consensus statement. It covers a lot of ground. We’re going to focus today on pharmacologic management.

After lifestyle modifications, metformin is no longer the go-to drug for every patient in the management of hyperglycemia. It is recommended that we assess each patient’s personal characteristics in deciding what medication to prescribe. For patients at high cardiorenal risk, refer to the left side of the algorithm and to the right side for all other patients.

American Diabetes Association

• Very high efficacy for glucose lowering: dulaglutide at a high dose, semaglutide, tirzepatide, insulin, or combination injectable agents (GLP-1 receptor agonist/insulin combinations).
• High glucose-lowering efficacy: a GLP-1 receptor agonist not already mentioned, metformin, SGLT-2 inhibitors, sulfonylureas, thiazolidinediones.
• Intermediate glucose lowering efficacy: dipeptidyl peptidase 4 (DPP-4) inhibitors.

Weight management. For weight management, lifestyle modification (diet and exercise) is important. If lifestyle modification alone is insufficient, consider either a medication that specifically helps with weight management or metabolic surgery.

We particularly want to focus on weight management in patients who have complications from obesity. What would those complications be? Sleep apnea, hip or knee pain from arthritis, back pain – that is, biomechanical complications of obesity or nonalcoholic fatty liver disease. Medications for weight loss are listed by degree of efficacy:

• Very high efficacy for weight loss: semaglutide, tirzepatide.
• High efficacy for weight loss: dulaglutide and liraglutide.
• Intermediate for weight loss: GLP-1 receptor agonist (not listed above), SGLT-2 inhibitor.
• Neutral for weight loss: DPP-4 inhibitors and metformin.

Where does insulin fit in? If patients present with a very high A1c, if they are on other medications and their A1c is still not to goal, or if they are catabolic and losing weight because of their diabetes, then insulin has an important place in management.

These are incredibly important guidelines that provide a clear algorithm for a personalized approach to diabetes management.
 

Dr. Skolnik is professor, department of family medicine, Sidney Kimmel Medical College, Philadelphia, and associate director, department of family medicine, Abington (Pa.) Jefferson Health. He reported conflicts of interest with AstraZeneca, Teva, Eli Lilly, Boehringer Ingelheim, Sanofi, Sanofi Pasteur, GlaxoSmithKline, Merck, and Bayer. A version of this article first appeared on Medscape.com.

Many Americans turn to the latest big idea to lose weight – fad diets, fitness crazes, dodgy herbs and pills, bariatric surgery, just to name a few. They’re rarely the magic solution people dream of.

Now a wave of startups offer access to a new category of drugs coupled with intensive behavioral coaching online. But already concerns are emerging.

These startups, spurred by hundreds of millions of dollars in funding from blue-chip venture capital firms, have signed up well over 100,000 patients and could reach millions more. These patients pay hundreds, if not thousands, of dollars to access new drugs, called glucagonlike peptide–1 (GLP-1) agonists, along with online coaching to encourage healthy habits.

The startups initially positioned themselves in lofty terms. “This is the last weight-loss program you’ll try,” said a 2020 marketing analysis by startup Calibrate Health, in messaging designed to reach one of its target demographics, the “working mom.” (Company spokesperson Michelle Wellington said the document does not reflect Calibrate’s current marketing strategy.)

But while doctors and patients are intrigued by the new model, some customers complain online that reality is short of the buildup: They say they got canned advice and unresponsive clinicians – and some report they couldn’t get the newest drugs.

Calibrate Health, a New York City–based startup, reported earlier in 2022 it had served 20,000 people. Another startup, Found, headquartered in San Francisco, has served 135,000 patients since July 2020, CEO Sarah Jones Simmer said in an interview. Calibrate costs patients nearly $1,600 a year, not counting the price of drugs, which can hit nearly $1,500 monthly without insurance, according to drug price savings site GoodRx. (Insurers reimburse for GLP-1agonists in limited circumstances, patients said.) Found offers a 6-month plan for nearly $600, a company spokesperson said. (That price includes generic drugs, but not the newer GLP-1 agonists, like Wegovy.)

The two companies are beneficiaries of over $200 million in combined venture funding, according to tracking by Crunchbase, a repository of venture capital investments. The firms say they’re on the vanguard of weight care, both citing the influence of biology and other scientific factors as key ingredients to their approaches.

There’s potentially a big market for these startups. Just over 4 in 10 Americans are obese, according to the Centers for Disease Control and Prevention, driving up their risk for cardiovascular conditions and type 2 diabetes. Effective medical treatments are elusive and hard to access.

Centers that provide this specialty care “are overwhelmed,” said Fatima Stanford, MD, an obesity medicine specialist at Massachusetts General in Boston, a teaching hospital affiliated with Harvard. Her own clinic has a wait list of 3,000.

Dr. Stanford, who said she has advised several of these telemedicine startups, is bullish on their potential.

Scott Butsch, MD, director of obesity medicine at the Cleveland Clinic, said the startups can offer care with less judgment and stigma than in-person peers. They’re also more convenient.

Dr. Butsch, who learned about the model through consultancies, patients, and colleagues, wonders whether the startups are operating “to strategically find which patients respond to which drug.” He said they should coordinate well with behavioral specialists, as antidepressants or other medications may be driving weight gain. “Obesity is a complex disease and requires treatments that match its complexity. I think programs that do not have a multidisciplinary team are less comprehensive and, in the long term, less effective.”

The startups market a two-pronged product: first, the new class of GLP-1 agonists. While these medications are effective at provoking weight loss, Wegovy, one of two in this class specifically approved for this purpose, is in short supply because of manufacturing difficulties, according to its maker, Novo Nordisk. Others in the category can be prescribed off label. But doctors generally aren’t familiar with the medications, Stanford said. In theory, the startups can bridge some of those gaps: They offer more specialized, knowledgeable clinicians.

Then there’s the other prong: behavioral changes. The companies use televisits and online messaging with nutritionists or coaches to help patients incorporate new diet and exercise habits. The weight loss figures achieved by participants in clinical trials for the new drugs – up to 15% of body mass – were tied to such changes, according to Novo Nordisk.

Social media sites are bursting with these startups’ ads, everywhere from podcasts to Instagram. A search of Meta’s ad library finds 40,000 ads on Facebook and Instagram between the two firms.

The ads complement people’s own postings on social media: Numerous Facebook groups are devoted to the new type of drugs – some even focused on helping patients manage side effects, like changes in their bowel movements. The buzz is quantifiable: On TikTok, mentions of the new GLP-1 agonists tripled from last June to this June, according to an analysis by investment bankers at Morgan Stanley.

There’s now a feverish, expectant appetite for these medications among the startups’ clientele. Patients often complained that their friends had obtained a drug they weren’t offered, recalled Alexandra Coults, a former pharmacist consultant for Found. Ms. Coults said patients may have perceived some sort of bait-and-switch when in reality clinical reasons – like drug contraindications – guide prescribing decisions.

Patient expectations influence care, Ms. Coults said. Customers came in with ideas shaped by the culture of fad diets and New Year’s resolutions. “Quite a few people would sign up for 1 month and not continue.”

In interviews with KHN and in online complaints, patients also questioned the quality of care they received. Some said intake – which began by filling out a form and proceeded to an online visit with a doctor – was perfunctory. Once medication began, they said, requests for counseling about side effects were slow to be answered.

Jess Garrant, a Found patient, recalled that after she was prescribed zonisamide, a generic anticonvulsant that has shown some ability to help with weight loss, she felt “absolutely weird.”

“I was up all night and my thoughts were racing,” she wrote in a blog post. She developed sores in her mouth.

She sought advice and help from Found physicians, but their replies “weren’t quick.” Nonemergency communications are routed through the company’s portal.

It took a week to complete a switch of medications and have a new prescription arrive at her home, she said. Meanwhile, she said, she went to an urgent care clinic for the mouth sores.

Found frequently prescribes generic medications – often off label – rather than just the new GLP-1 agonists, company executives said in an interview. Found said older generics like zonisamide are more accessible than the GLP-1 agonists advertised on social media and their own website. Both Dr. Butsch and Dr. Stanford said they’ve prescribed zonisamide successfully. Dr. Butsch said ramping up dosage rapidly can increase the risk of side effects.

But Kim Boyd, MD, chief medical officer of competitor Calibrate, said the older drugs “just haven’t worked.”

Patients of both companies have critiqued online and in interviews the startups’ behavioral care – which experts across the board maintain is integral to successful weight loss treatment. But some patients felt they simply had canned advice.

Other patients said they had ups and downs with their coaches. Dana Crom, an attorney, said she had gone through many coaches with Calibrate. Some were good, effective cheerleaders; others, not so good. But when kinks in the program arose, she said, the coach wasn’t able to help her navigate them. While the coach can report trouble with medications or the app, it appears those reports are no more effective than messages sent through the portal, Ms. Crom said.

And what about when her yearlong subscription ends? Ms. Crom said she’d consider continuing with Calibrate.

Relationships with coaches, given the need to change behavior, are a critical element of the business models. Patients’ results depend “on how adherent they are to lifestyle changes,” said Found’s chief medical officer, Rehka Kumar, MD.

While the startups offer care to a larger geographic footprint, it’s not clear whether the demographics of their patient populations are different from those of the traditional bricks-and-mortar model. Calibrate’s patients are overwhelmingly White; over 8 in 10 have at least an undergraduate degree; and over 8 in 10 are women, according to the company.

And its earlier marketing strategies reflected that. The September 2020 “segmentation” document laid out three types of customers the company could hope to attract: perimenopausal or menopausal women, with income ranging from $75,000 to $150,000 a year; working mothers, with a similar income; and “men.”

Isabelle Kenyon, Calibrate’s CEO, said the company now hopes to expand its reach to partner with large employers, and that will help diversify its patients.

Patients will need to be convinced that the model – more affordable, more accessible – works for them. For her part, Ms. Garrant, who no longer is using Found, reflected on her experience, writing in her blog post that she was hoping for more follow-up and a more personal approach. “I don’t think it’s a helpful way to lose weight,” she said.

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

Many Americans turn to the latest big idea to lose weight – fad diets, fitness crazes, dodgy herbs and pills, bariatric surgery, just to name a few. They’re rarely the magic solution people dream of.

Now a wave of startups offer access to a new category of drugs coupled with intensive behavioral coaching online. But already concerns are emerging.

These startups, spurred by hundreds of millions of dollars in funding from blue-chip venture capital firms, have signed up well over 100,000 patients and could reach millions more. These patients pay hundreds, if not thousands, of dollars to access new drugs, called glucagonlike peptide–1 (GLP-1) agonists, along with online coaching to encourage healthy habits.

The startups initially positioned themselves in lofty terms. “This is the last weight-loss program you’ll try,” said a 2020 marketing analysis by startup Calibrate Health, in messaging designed to reach one of its target demographics, the “working mom.” (Company spokesperson Michelle Wellington said the document does not reflect Calibrate’s current marketing strategy.)

But while doctors and patients are intrigued by the new model, some customers complain online that reality is short of the buildup: They say they got canned advice and unresponsive clinicians – and some report they couldn’t get the newest drugs.

Calibrate Health, a New York City–based startup, reported earlier in 2022 it had served 20,000 people. Another startup, Found, headquartered in San Francisco, has served 135,000 patients since July 2020, CEO Sarah Jones Simmer said in an interview. Calibrate costs patients nearly $1,600 a year, not counting the price of drugs, which can hit nearly $1,500 monthly without insurance, according to drug price savings site GoodRx. (Insurers reimburse for GLP-1agonists in limited circumstances, patients said.) Found offers a 6-month plan for nearly $600, a company spokesperson said. (That price includes generic drugs, but not the newer GLP-1 agonists, like Wegovy.)

The two companies are beneficiaries of over $200 million in combined venture funding, according to tracking by Crunchbase, a repository of venture capital investments. The firms say they’re on the vanguard of weight care, both citing the influence of biology and other scientific factors as key ingredients to their approaches.

There’s potentially a big market for these startups. Just over 4 in 10 Americans are obese, according to the Centers for Disease Control and Prevention, driving up their risk for cardiovascular conditions and type 2 diabetes. Effective medical treatments are elusive and hard to access.

Centers that provide this specialty care “are overwhelmed,” said Fatima Stanford, MD, an obesity medicine specialist at Massachusetts General in Boston, a teaching hospital affiliated with Harvard. Her own clinic has a wait list of 3,000.

Dr. Stanford, who said she has advised several of these telemedicine startups, is bullish on their potential.

Scott Butsch, MD, director of obesity medicine at the Cleveland Clinic, said the startups can offer care with less judgment and stigma than in-person peers. They’re also more convenient.

Dr. Butsch, who learned about the model through consultancies, patients, and colleagues, wonders whether the startups are operating “to strategically find which patients respond to which drug.” He said they should coordinate well with behavioral specialists, as antidepressants or other medications may be driving weight gain. “Obesity is a complex disease and requires treatments that match its complexity. I think programs that do not have a multidisciplinary team are less comprehensive and, in the long term, less effective.”

The startups market a two-pronged product: first, the new class of GLP-1 agonists. While these medications are effective at provoking weight loss, Wegovy, one of two in this class specifically approved for this purpose, is in short supply because of manufacturing difficulties, according to its maker, Novo Nordisk. Others in the category can be prescribed off label. But doctors generally aren’t familiar with the medications, Stanford said. In theory, the startups can bridge some of those gaps: They offer more specialized, knowledgeable clinicians.

Then there’s the other prong: behavioral changes. The companies use televisits and online messaging with nutritionists or coaches to help patients incorporate new diet and exercise habits. The weight loss figures achieved by participants in clinical trials for the new drugs – up to 15% of body mass – were tied to such changes, according to Novo Nordisk.

Social media sites are bursting with these startups’ ads, everywhere from podcasts to Instagram. A search of Meta’s ad library finds 40,000 ads on Facebook and Instagram between the two firms.

The ads complement people’s own postings on social media: Numerous Facebook groups are devoted to the new type of drugs – some even focused on helping patients manage side effects, like changes in their bowel movements. The buzz is quantifiable: On TikTok, mentions of the new GLP-1 agonists tripled from last June to this June, according to an analysis by investment bankers at Morgan Stanley.

There’s now a feverish, expectant appetite for these medications among the startups’ clientele. Patients often complained that their friends had obtained a drug they weren’t offered, recalled Alexandra Coults, a former pharmacist consultant for Found. Ms. Coults said patients may have perceived some sort of bait-and-switch when in reality clinical reasons – like drug contraindications – guide prescribing decisions.

Patient expectations influence care, Ms. Coults said. Customers came in with ideas shaped by the culture of fad diets and New Year’s resolutions. “Quite a few people would sign up for 1 month and not continue.”

In interviews with KHN and in online complaints, patients also questioned the quality of care they received. Some said intake – which began by filling out a form and proceeded to an online visit with a doctor – was perfunctory. Once medication began, they said, requests for counseling about side effects were slow to be answered.

Jess Garrant, a Found patient, recalled that after she was prescribed zonisamide, a generic anticonvulsant that has shown some ability to help with weight loss, she felt “absolutely weird.”

“I was up all night and my thoughts were racing,” she wrote in a blog post. She developed sores in her mouth.

She sought advice and help from Found physicians, but their replies “weren’t quick.” Nonemergency communications are routed through the company’s portal.

It took a week to complete a switch of medications and have a new prescription arrive at her home, she said. Meanwhile, she said, she went to an urgent care clinic for the mouth sores.

Found frequently prescribes generic medications – often off label – rather than just the new GLP-1 agonists, company executives said in an interview. Found said older generics like zonisamide are more accessible than the GLP-1 agonists advertised on social media and their own website. Both Dr. Butsch and Dr. Stanford said they’ve prescribed zonisamide successfully. Dr. Butsch said ramping up dosage rapidly can increase the risk of side effects.

But Kim Boyd, MD, chief medical officer of competitor Calibrate, said the older drugs “just haven’t worked.”

Patients of both companies have critiqued online and in interviews the startups’ behavioral care – which experts across the board maintain is integral to successful weight loss treatment. But some patients felt they simply had canned advice.

Other patients said they had ups and downs with their coaches. Dana Crom, an attorney, said she had gone through many coaches with Calibrate. Some were good, effective cheerleaders; others, not so good. But when kinks in the program arose, she said, the coach wasn’t able to help her navigate them. While the coach can report trouble with medications or the app, it appears those reports are no more effective than messages sent through the portal, Ms. Crom said.

And what about when her yearlong subscription ends? Ms. Crom said she’d consider continuing with Calibrate.

Relationships with coaches, given the need to change behavior, are a critical element of the business models. Patients’ results depend “on how adherent they are to lifestyle changes,” said Found’s chief medical officer, Rehka Kumar, MD.

While the startups offer care to a larger geographic footprint, it’s not clear whether the demographics of their patient populations are different from those of the traditional bricks-and-mortar model. Calibrate’s patients are overwhelmingly White; over 8 in 10 have at least an undergraduate degree; and over 8 in 10 are women, according to the company.

And its earlier marketing strategies reflected that. The September 2020 “segmentation” document laid out three types of customers the company could hope to attract: perimenopausal or menopausal women, with income ranging from $75,000 to $150,000 a year; working mothers, with a similar income; and “men.”

Isabelle Kenyon, Calibrate’s CEO, said the company now hopes to expand its reach to partner with large employers, and that will help diversify its patients.

Patients will need to be convinced that the model – more affordable, more accessible – works for them. For her part, Ms. Garrant, who no longer is using Found, reflected on her experience, writing in her blog post that she was hoping for more follow-up and a more personal approach. “I don’t think it’s a helpful way to lose weight,” she said.

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

Many Americans turn to the latest big idea to lose weight – fad diets, fitness crazes, dodgy herbs and pills, bariatric surgery, just to name a few. They’re rarely the magic solution people dream of.

Now a wave of startups offer access to a new category of drugs coupled with intensive behavioral coaching online. But already concerns are emerging.

These startups, spurred by hundreds of millions of dollars in funding from blue-chip venture capital firms, have signed up well over 100,000 patients and could reach millions more. These patients pay hundreds, if not thousands, of dollars to access new drugs, called glucagonlike peptide–1 (GLP-1) agonists, along with online coaching to encourage healthy habits.

The startups initially positioned themselves in lofty terms. “This is the last weight-loss program you’ll try,” said a 2020 marketing analysis by startup Calibrate Health, in messaging designed to reach one of its target demographics, the “working mom.” (Company spokesperson Michelle Wellington said the document does not reflect Calibrate’s current marketing strategy.)

But while doctors and patients are intrigued by the new model, some customers complain online that reality is short of the buildup: They say they got canned advice and unresponsive clinicians – and some report they couldn’t get the newest drugs.

Calibrate Health, a New York City–based startup, reported earlier in 2022 it had served 20,000 people. Another startup, Found, headquartered in San Francisco, has served 135,000 patients since July 2020, CEO Sarah Jones Simmer said in an interview. Calibrate costs patients nearly $1,600 a year, not counting the price of drugs, which can hit nearly $1,500 monthly without insurance, according to drug price savings site GoodRx. (Insurers reimburse for GLP-1agonists in limited circumstances, patients said.) Found offers a 6-month plan for nearly $600, a company spokesperson said. (That price includes generic drugs, but not the newer GLP-1 agonists, like Wegovy.)

The two companies are beneficiaries of over $200 million in combined venture funding, according to tracking by Crunchbase, a repository of venture capital investments. The firms say they’re on the vanguard of weight care, both citing the influence of biology and other scientific factors as key ingredients to their approaches.

There’s potentially a big market for these startups. Just over 4 in 10 Americans are obese, according to the Centers for Disease Control and Prevention, driving up their risk for cardiovascular conditions and type 2 diabetes. Effective medical treatments are elusive and hard to access.

Centers that provide this specialty care “are overwhelmed,” said Fatima Stanford, MD, an obesity medicine specialist at Massachusetts General in Boston, a teaching hospital affiliated with Harvard. Her own clinic has a wait list of 3,000.

Dr. Stanford, who said she has advised several of these telemedicine startups, is bullish on their potential.

Scott Butsch, MD, director of obesity medicine at the Cleveland Clinic, said the startups can offer care with less judgment and stigma than in-person peers. They’re also more convenient.

Dr. Butsch, who learned about the model through consultancies, patients, and colleagues, wonders whether the startups are operating “to strategically find which patients respond to which drug.” He said they should coordinate well with behavioral specialists, as antidepressants or other medications may be driving weight gain. “Obesity is a complex disease and requires treatments that match its complexity. I think programs that do not have a multidisciplinary team are less comprehensive and, in the long term, less effective.”

The startups market a two-pronged product: first, the new class of GLP-1 agonists. While these medications are effective at provoking weight loss, Wegovy, one of two in this class specifically approved for this purpose, is in short supply because of manufacturing difficulties, according to its maker, Novo Nordisk. Others in the category can be prescribed off label. But doctors generally aren’t familiar with the medications, Stanford said. In theory, the startups can bridge some of those gaps: They offer more specialized, knowledgeable clinicians.

Then there’s the other prong: behavioral changes. The companies use televisits and online messaging with nutritionists or coaches to help patients incorporate new diet and exercise habits. The weight loss figures achieved by participants in clinical trials for the new drugs – up to 15% of body mass – were tied to such changes, according to Novo Nordisk.

Social media sites are bursting with these startups’ ads, everywhere from podcasts to Instagram. A search of Meta’s ad library finds 40,000 ads on Facebook and Instagram between the two firms.

The ads complement people’s own postings on social media: Numerous Facebook groups are devoted to the new type of drugs – some even focused on helping patients manage side effects, like changes in their bowel movements. The buzz is quantifiable: On TikTok, mentions of the new GLP-1 agonists tripled from last June to this June, according to an analysis by investment bankers at Morgan Stanley.

There’s now a feverish, expectant appetite for these medications among the startups’ clientele. Patients often complained that their friends had obtained a drug they weren’t offered, recalled Alexandra Coults, a former pharmacist consultant for Found. Ms. Coults said patients may have perceived some sort of bait-and-switch when in reality clinical reasons – like drug contraindications – guide prescribing decisions.

Patient expectations influence care, Ms. Coults said. Customers came in with ideas shaped by the culture of fad diets and New Year’s resolutions. “Quite a few people would sign up for 1 month and not continue.”

In interviews with KHN and in online complaints, patients also questioned the quality of care they received. Some said intake – which began by filling out a form and proceeded to an online visit with a doctor – was perfunctory. Once medication began, they said, requests for counseling about side effects were slow to be answered.

Jess Garrant, a Found patient, recalled that after she was prescribed zonisamide, a generic anticonvulsant that has shown some ability to help with weight loss, she felt “absolutely weird.”

“I was up all night and my thoughts were racing,” she wrote in a blog post. She developed sores in her mouth.

She sought advice and help from Found physicians, but their replies “weren’t quick.” Nonemergency communications are routed through the company’s portal.

It took a week to complete a switch of medications and have a new prescription arrive at her home, she said. Meanwhile, she said, she went to an urgent care clinic for the mouth sores.

Found frequently prescribes generic medications – often off label – rather than just the new GLP-1 agonists, company executives said in an interview. Found said older generics like zonisamide are more accessible than the GLP-1 agonists advertised on social media and their own website. Both Dr. Butsch and Dr. Stanford said they’ve prescribed zonisamide successfully. Dr. Butsch said ramping up dosage rapidly can increase the risk of side effects.

But Kim Boyd, MD, chief medical officer of competitor Calibrate, said the older drugs “just haven’t worked.”

Patients of both companies have critiqued online and in interviews the startups’ behavioral care – which experts across the board maintain is integral to successful weight loss treatment. But some patients felt they simply had canned advice.

Other patients said they had ups and downs with their coaches. Dana Crom, an attorney, said she had gone through many coaches with Calibrate. Some were good, effective cheerleaders; others, not so good. But when kinks in the program arose, she said, the coach wasn’t able to help her navigate them. While the coach can report trouble with medications or the app, it appears those reports are no more effective than messages sent through the portal, Ms. Crom said.

And what about when her yearlong subscription ends? Ms. Crom said she’d consider continuing with Calibrate.

Relationships with coaches, given the need to change behavior, are a critical element of the business models. Patients’ results depend “on how adherent they are to lifestyle changes,” said Found’s chief medical officer, Rehka Kumar, MD.

While the startups offer care to a larger geographic footprint, it’s not clear whether the demographics of their patient populations are different from those of the traditional bricks-and-mortar model. Calibrate’s patients are overwhelmingly White; over 8 in 10 have at least an undergraduate degree; and over 8 in 10 are women, according to the company.

And its earlier marketing strategies reflected that. The September 2020 “segmentation” document laid out three types of customers the company could hope to attract: perimenopausal or menopausal women, with income ranging from $75,000 to $150,000 a year; working mothers, with a similar income; and “men.”

Isabelle Kenyon, Calibrate’s CEO, said the company now hopes to expand its reach to partner with large employers, and that will help diversify its patients.

Patients will need to be convinced that the model – more affordable, more accessible – works for them. For her part, Ms. Garrant, who no longer is using Found, reflected on her experience, writing in her blog post that she was hoping for more follow-up and a more personal approach. “I don’t think it’s a helpful way to lose weight,” she said.

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

CHICAGO – Renal denervation, relative to a sham procedure, was linked with statistically significant reductions in blood pressure in the newly completed SPYRAL HTN–ON MED trial, but several factors are likely to have worked in concert to prevent the study from meeting its primary endpoint.

Of these differences, probably none was more important than the substantially higher proportion of patients in the sham group that received additional BP-lowering medications over the course of the study, David E. Kandzari, MD, reported at the American Heart Association scientific sessions.

Ted Bosworth/MDedge News

The SPYRAL HTN–ON MED pivotal trial followed the previously completed SPYRAL HTN–ON MED pilot study, which did show a significant BP-lowering effect on antihypertensive medications followed radiofrequency denervation. In a recent update of the pilot study, the effect was persistent out to 3 years.

In the SPYRAL HTN–ON MED program, patients on their second screening visit were required to have a systolic pressure of between 140 and 170 mm Hg on 24-hour ambulatory BP monitoring (ABPM) while taking up to three antihypertensive medications. Patients who entered the study were randomized to renal denervation or sham control while maintaining their baseline antihypertensive therapies.

The previously reported pilot study comprised 80 patients. The expansion pivotal trial added 257 more patients for a total cohort of 337 patients. The primary efficacy endpoint was based on a Bayesian analysis of change in 24-hour systolic ABPM at 6 months for those in the experimental arm versus those on medications alone. Participants from both the pilot and pivotal trials were included.

The prespecified definition of success for renal denervation was a 97.5% threshold for probability of superiority on the basis of this Bayesian analysis. However, the Bayesian analysis was distorted by differences in the pilot and expansion cohorts, which complicated the superiority calculation. As a result, the analysis only yielded a 51% probability of superiority, a level substantially below the predefined threshold.

Despite differences seen in BP control in favor of renal denervation, several factors were identified that likely contributed to the missed primary endpoint. One stood out.

“Significant differences in medication prescriptions were disproportionate in favor of the sham group,” reported Dr. Kandzari, chief of Piedmont Heart Institute, Atlanta. He said these differences, which were a violation of the protocol mandate, led to a “bias toward the null” for the primary outcome.

The failure to meet the primary outcome was particularly disappointing in the wake of the favorable pilot study and the SPYRAL HTN–OFF MED pivotal trial, which were both positive.

In the pilot study, which did not have a medication imbalance, a 7.3–mm Hg reduction (P = .004) in 24-hour ABPM was seen at 6 months. Relative reductions in office-based systolic pressure reductions for renal denervation versus sham were 6.6 mm Hg (P = .03) and 4.0 mm Hg (P = .03) for the pilot and expansions groups, respectively.

On the basis of a Win ratio derived from a hierarchical analysis of ABMP and medication burden reduction, the 1.50 advantage (P = .005) for the renal denervation arm in the newly completed SPYRAL HTN–ON MED trial was also compelling.

At study entry, the median number of medications was 1.9 in both the renal denervation and sham arms. At the end of 6 months, the median number of medications was unchanged in the experimental arm but rose to 2.1 (P = .01) in the sham group. Similarly, there was little change in the medication burden from the start to the end of the trial in the denervation group (2.8 vs. 3.0), but a statistically significant change in the sham group (2.9 vs. 3.5; P = .04).

Furthermore, the net percentage change of patients receiving medications favoring BP reduction over the course of the study did not differ between the experimental and control arms of the pilot cohort, but was more than 10 times higher among controls in the expansion group (1.9% vs. 21.8%; P < .0001).

Medication changes over the course of the SPYRAL HTN–ON MED trial were even greater in some specific subgroups. Among Black participants, for example, 14.2% of those randomized to renal denervation and 54.6% of those randomized to the sham group increased their antihypertensive therapies over the course of the study.

The COVID-19 epidemic is suspected of playing another role in the negative results, according to Dr. Kandzari. After a brief pause in enrollment, the SPYRAL HTN–ON MED trial was resumed, but approximately 80% of the expansion cohort data were collected during this period. When compared, variances in office and 24-hour ABPM were observed for participants who were or were not evaluated during COVID.

“Significant differences in 24-hour ABPM patterns pre- and during COVID may reflect changes in patient behavior and lifestyle,” Dr. Kandzari speculated.

The data from this study differ from essentially all of the other studies in the SPYRAL HTN program as well as several other sham-controlled studies with renal denervation, according to Dr. Kandzari.

Ted Bosworth/MDedge News

The AHA-invited discussant, Ajay J. Kirtane, MD, director of the Cardiac Catheterization Laboratories at Columbia University, New York, largely agreed that several variables appeared to conspire against a positive result in this trial, but he zeroed in on the imbalance of antihypertensive medications.

“Any trial that attempts to show a difference between renal denervation and a sham procedure must insure that antihypertensive medications are the same in the two arms. They cannot be different,” he said.

As an active investigator in the field of renal denervation, Dr. Kirtane thinks the evidence does support a benefit from renal denervation, but he believes data are still needed to determine which patients are candidates.

“Renal denervation is not going to be a replacement for previous established therapies, but it will be an adjunct,” he predicted. The preponderance of evidence supports clinically meaningful reductions in BP with this approach, “but we need to determine who to consider [for this therapy] and to have realistic expectations about the degree of benefit.”

Dr. Kandzari reported financial relationships with Abbott Vascular, Ablative Solutions, Biotronik, Boston Scientific, CSI, Medtronic Cardiovascular, OrbusNeich, and Teleflex. Dr. Kirtane reported financial relationships with Abbott Vascular, Abiomed, Boston Scientific, Cardiovascular Systems, Cathworks, Chiesi, Medtronic, Opens, Philipps, Regeneron, ReCor Medical, Siemens, Spectranetics, and Zoll.
 

CHICAGO – Renal denervation, relative to a sham procedure, was linked with statistically significant reductions in blood pressure in the newly completed SPYRAL HTN–ON MED trial, but several factors are likely to have worked in concert to prevent the study from meeting its primary endpoint.

Of these differences, probably none was more important than the substantially higher proportion of patients in the sham group that received additional BP-lowering medications over the course of the study, David E. Kandzari, MD, reported at the American Heart Association scientific sessions.

Ted Bosworth/MDedge News

The SPYRAL HTN–ON MED pivotal trial followed the previously completed SPYRAL HTN–ON MED pilot study, which did show a significant BP-lowering effect on antihypertensive medications followed radiofrequency denervation. In a recent update of the pilot study, the effect was persistent out to 3 years.

In the SPYRAL HTN–ON MED program, patients on their second screening visit were required to have a systolic pressure of between 140 and 170 mm Hg on 24-hour ambulatory BP monitoring (ABPM) while taking up to three antihypertensive medications. Patients who entered the study were randomized to renal denervation or sham control while maintaining their baseline antihypertensive therapies.

The previously reported pilot study comprised 80 patients. The expansion pivotal trial added 257 more patients for a total cohort of 337 patients. The primary efficacy endpoint was based on a Bayesian analysis of change in 24-hour systolic ABPM at 6 months for those in the experimental arm versus those on medications alone. Participants from both the pilot and pivotal trials were included.

The prespecified definition of success for renal denervation was a 97.5% threshold for probability of superiority on the basis of this Bayesian analysis. However, the Bayesian analysis was distorted by differences in the pilot and expansion cohorts, which complicated the superiority calculation. As a result, the analysis only yielded a 51% probability of superiority, a level substantially below the predefined threshold.

Despite differences seen in BP control in favor of renal denervation, several factors were identified that likely contributed to the missed primary endpoint. One stood out.

“Significant differences in medication prescriptions were disproportionate in favor of the sham group,” reported Dr. Kandzari, chief of Piedmont Heart Institute, Atlanta. He said these differences, which were a violation of the protocol mandate, led to a “bias toward the null” for the primary outcome.

The failure to meet the primary outcome was particularly disappointing in the wake of the favorable pilot study and the SPYRAL HTN–OFF MED pivotal trial, which were both positive.

In the pilot study, which did not have a medication imbalance, a 7.3–mm Hg reduction (P = .004) in 24-hour ABPM was seen at 6 months. Relative reductions in office-based systolic pressure reductions for renal denervation versus sham were 6.6 mm Hg (P = .03) and 4.0 mm Hg (P = .03) for the pilot and expansions groups, respectively.

On the basis of a Win ratio derived from a hierarchical analysis of ABMP and medication burden reduction, the 1.50 advantage (P = .005) for the renal denervation arm in the newly completed SPYRAL HTN–ON MED trial was also compelling.

At study entry, the median number of medications was 1.9 in both the renal denervation and sham arms. At the end of 6 months, the median number of medications was unchanged in the experimental arm but rose to 2.1 (P = .01) in the sham group. Similarly, there was little change in the medication burden from the start to the end of the trial in the denervation group (2.8 vs. 3.0), but a statistically significant change in the sham group (2.9 vs. 3.5; P = .04).

Furthermore, the net percentage change of patients receiving medications favoring BP reduction over the course of the study did not differ between the experimental and control arms of the pilot cohort, but was more than 10 times higher among controls in the expansion group (1.9% vs. 21.8%; P < .0001).

Medication changes over the course of the SPYRAL HTN–ON MED trial were even greater in some specific subgroups. Among Black participants, for example, 14.2% of those randomized to renal denervation and 54.6% of those randomized to the sham group increased their antihypertensive therapies over the course of the study.

The COVID-19 epidemic is suspected of playing another role in the negative results, according to Dr. Kandzari. After a brief pause in enrollment, the SPYRAL HTN–ON MED trial was resumed, but approximately 80% of the expansion cohort data were collected during this period. When compared, variances in office and 24-hour ABPM were observed for participants who were or were not evaluated during COVID.

“Significant differences in 24-hour ABPM patterns pre- and during COVID may reflect changes in patient behavior and lifestyle,” Dr. Kandzari speculated.

The data from this study differ from essentially all of the other studies in the SPYRAL HTN program as well as several other sham-controlled studies with renal denervation, according to Dr. Kandzari.

Ted Bosworth/MDedge News

The AHA-invited discussant, Ajay J. Kirtane, MD, director of the Cardiac Catheterization Laboratories at Columbia University, New York, largely agreed that several variables appeared to conspire against a positive result in this trial, but he zeroed in on the imbalance of antihypertensive medications.

“Any trial that attempts to show a difference between renal denervation and a sham procedure must insure that antihypertensive medications are the same in the two arms. They cannot be different,” he said.

As an active investigator in the field of renal denervation, Dr. Kirtane thinks the evidence does support a benefit from renal denervation, but he believes data are still needed to determine which patients are candidates.

“Renal denervation is not going to be a replacement for previous established therapies, but it will be an adjunct,” he predicted. The preponderance of evidence supports clinically meaningful reductions in BP with this approach, “but we need to determine who to consider [for this therapy] and to have realistic expectations about the degree of benefit.”

Dr. Kandzari reported financial relationships with Abbott Vascular, Ablative Solutions, Biotronik, Boston Scientific, CSI, Medtronic Cardiovascular, OrbusNeich, and Teleflex. Dr. Kirtane reported financial relationships with Abbott Vascular, Abiomed, Boston Scientific, Cardiovascular Systems, Cathworks, Chiesi, Medtronic, Opens, Philipps, Regeneron, ReCor Medical, Siemens, Spectranetics, and Zoll.
 

CHICAGO – Renal denervation, relative to a sham procedure, was linked with statistically significant reductions in blood pressure in the newly completed SPYRAL HTN–ON MED trial, but several factors are likely to have worked in concert to prevent the study from meeting its primary endpoint.

Of these differences, probably none was more important than the substantially higher proportion of patients in the sham group that received additional BP-lowering medications over the course of the study, David E. Kandzari, MD, reported at the American Heart Association scientific sessions.

Ted Bosworth/MDedge News

The SPYRAL HTN–ON MED pivotal trial followed the previously completed SPYRAL HTN–ON MED pilot study, which did show a significant BP-lowering effect on antihypertensive medications followed radiofrequency denervation. In a recent update of the pilot study, the effect was persistent out to 3 years.

In the SPYRAL HTN–ON MED program, patients on their second screening visit were required to have a systolic pressure of between 140 and 170 mm Hg on 24-hour ambulatory BP monitoring (ABPM) while taking up to three antihypertensive medications. Patients who entered the study were randomized to renal denervation or sham control while maintaining their baseline antihypertensive therapies.

The previously reported pilot study comprised 80 patients. The expansion pivotal trial added 257 more patients for a total cohort of 337 patients. The primary efficacy endpoint was based on a Bayesian analysis of change in 24-hour systolic ABPM at 6 months for those in the experimental arm versus those on medications alone. Participants from both the pilot and pivotal trials were included.

The prespecified definition of success for renal denervation was a 97.5% threshold for probability of superiority on the basis of this Bayesian analysis. However, the Bayesian analysis was distorted by differences in the pilot and expansion cohorts, which complicated the superiority calculation. As a result, the analysis only yielded a 51% probability of superiority, a level substantially below the predefined threshold.

Despite differences seen in BP control in favor of renal denervation, several factors were identified that likely contributed to the missed primary endpoint. One stood out.

“Significant differences in medication prescriptions were disproportionate in favor of the sham group,” reported Dr. Kandzari, chief of Piedmont Heart Institute, Atlanta. He said these differences, which were a violation of the protocol mandate, led to a “bias toward the null” for the primary outcome.

The failure to meet the primary outcome was particularly disappointing in the wake of the favorable pilot study and the SPYRAL HTN–OFF MED pivotal trial, which were both positive.

In the pilot study, which did not have a medication imbalance, a 7.3–mm Hg reduction (P = .004) in 24-hour ABPM was seen at 6 months. Relative reductions in office-based systolic pressure reductions for renal denervation versus sham were 6.6 mm Hg (P = .03) and 4.0 mm Hg (P = .03) for the pilot and expansions groups, respectively.

On the basis of a Win ratio derived from a hierarchical analysis of ABMP and medication burden reduction, the 1.50 advantage (P = .005) for the renal denervation arm in the newly completed SPYRAL HTN–ON MED trial was also compelling.

At study entry, the median number of medications was 1.9 in both the renal denervation and sham arms. At the end of 6 months, the median number of medications was unchanged in the experimental arm but rose to 2.1 (P = .01) in the sham group. Similarly, there was little change in the medication burden from the start to the end of the trial in the denervation group (2.8 vs. 3.0), but a statistically significant change in the sham group (2.9 vs. 3.5; P = .04).

Furthermore, the net percentage change of patients receiving medications favoring BP reduction over the course of the study did not differ between the experimental and control arms of the pilot cohort, but was more than 10 times higher among controls in the expansion group (1.9% vs. 21.8%; P < .0001).

Medication changes over the course of the SPYRAL HTN–ON MED trial were even greater in some specific subgroups. Among Black participants, for example, 14.2% of those randomized to renal denervation and 54.6% of those randomized to the sham group increased their antihypertensive therapies over the course of the study.

The COVID-19 epidemic is suspected of playing another role in the negative results, according to Dr. Kandzari. After a brief pause in enrollment, the SPYRAL HTN–ON MED trial was resumed, but approximately 80% of the expansion cohort data were collected during this period. When compared, variances in office and 24-hour ABPM were observed for participants who were or were not evaluated during COVID.

“Significant differences in 24-hour ABPM patterns pre- and during COVID may reflect changes in patient behavior and lifestyle,” Dr. Kandzari speculated.

The data from this study differ from essentially all of the other studies in the SPYRAL HTN program as well as several other sham-controlled studies with renal denervation, according to Dr. Kandzari.

Ted Bosworth/MDedge News

The AHA-invited discussant, Ajay J. Kirtane, MD, director of the Cardiac Catheterization Laboratories at Columbia University, New York, largely agreed that several variables appeared to conspire against a positive result in this trial, but he zeroed in on the imbalance of antihypertensive medications.

“Any trial that attempts to show a difference between renal denervation and a sham procedure must insure that antihypertensive medications are the same in the two arms. They cannot be different,” he said.

As an active investigator in the field of renal denervation, Dr. Kirtane thinks the evidence does support a benefit from renal denervation, but he believes data are still needed to determine which patients are candidates.

“Renal denervation is not going to be a replacement for previous established therapies, but it will be an adjunct,” he predicted. The preponderance of evidence supports clinically meaningful reductions in BP with this approach, “but we need to determine who to consider [for this therapy] and to have realistic expectations about the degree of benefit.”

Dr. Kandzari reported financial relationships with Abbott Vascular, Ablative Solutions, Biotronik, Boston Scientific, CSI, Medtronic Cardiovascular, OrbusNeich, and Teleflex. Dr. Kirtane reported financial relationships with Abbott Vascular, Abiomed, Boston Scientific, Cardiovascular Systems, Cathworks, Chiesi, Medtronic, Opens, Philipps, Regeneron, ReCor Medical, Siemens, Spectranetics, and Zoll.
 

In my last column, I discussed blogging as a great way to capture the attention of anyone interested in your practice, especially prospective patients. If you are already blogging – or would like to consider a less crowded and competitive activity – podcasting might be the answer. At this writing (November 2022), more than 600 million blogs are online, compared with about 2 million podcasts, and relatively few of them are run by physicians. With podcasts, you have a better chance of standing out in a crowded online world.

Starting a podcast is not difficult, but there are several steps you need to go through before launching one.

As with blogging, start by outlining a long-range plan. Your general topic will probably be your specialty, but you will need to narrow your focus to a few specific subjects, such as the problems you see most often, or a subspecialty that you concentrate on. You can always expand your topic later, as you get more popular. Choose a name for your podcast, and purchase a domain name that accurately describes it.

You will also need to choose a hosting service. Numerous inexpensive hosting platforms are available, and a simple Google search will find them for you. Many of them provide free learning materials, helpful creative tools, and customer support to get you through the confusing technical aspects. They can also help you choose a music introduction (to add a bit of polish), and help you piece together your audio segments. Buzzsprout, RSS.com, and Podbean get good reviews on many sites. (As always, I have no financial interest in any company or service mentioned herein.)

Hosting services can assist you in creating a template – a framework that you can reuse each time you record an episode – containing your intro and exit music, tracks for your conversations, etc. This will make your podcasts instantly recognizable each time your listeners tune in.

Many podcasting experts recommend recruiting a co-host. This can be an associate within your practice, a friend who practices elsewhere, or perhaps a resident in an academic setting. You will be able to spread the workload of creating, editing, and promoting. Plus, it is much easier to generate interesting content when two people are having a conversation, rather than one person lecturing from a prepared script. You might also consider having multiple co-hosts, either to expand episodes into group discussions, or to take turns working with you in covering different subjects.

How long you make your podcast is entirely up to you. Some consultants recommend specific time frames, such as 5 minutes (because that’s an average attention span), or 28 minutes (because that’s the average driving commute time). There are short podcasts and long ones; whatever works for you is fine, as long as you don’t drift off the topic. Furthermore, no one says they must all be the same length; when you are finished talking, you are done. And no one says you must stick with one subject throughout. Combining several short segments might hold more listeners’ interest and will make it easier to share small clips on social media.

Content guidelines are similar to those for blogs. Give people content that will be of interest or benefit to them. Talk about subjects – medical and otherwise – that are relevant to your practice or are prominent in the news.

As with blogs, try to avoid polarizing political discussions, and while it’s fine to discuss treatments and procedures that you offer, aggressive solicitation tends to make viewers look elsewhere. Keep any medical advice in general terms; don’t portray any specific patients as examples.

When your podcast is ready, your hosting platform will show you how to submit it to iTunes, and how to submit your podcast RSS feed to other podcast directories. As you upload new episodes, your host will automatically update your RSS feed, so that any directory you are listed on will receive the new episode.

Once you are uploaded, you can use your host’s social sharing tools to spread the word. As with blogs, use social media, such as your practice’s Facebook page, to push podcast updates into patients’ feeds and track relevant Twitter hashtags to find online communities that might be interested in your subject matter. You should also find your episode embed code (which your host will have) and place it in a prominent place on your website so patients can listen directly from there.

Transcriptions are another excellent promotional tool. Search engines will “read” your podcasts and list them in searches. Some podcast hosts will do transcribing for a fee, but there are independent transcription services as well.

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at [email protected].

In my last column, I discussed blogging as a great way to capture the attention of anyone interested in your practice, especially prospective patients. If you are already blogging – or would like to consider a less crowded and competitive activity – podcasting might be the answer. At this writing (November 2022), more than 600 million blogs are online, compared with about 2 million podcasts, and relatively few of them are run by physicians. With podcasts, you have a better chance of standing out in a crowded online world.

Starting a podcast is not difficult, but there are several steps you need to go through before launching one.

As with blogging, start by outlining a long-range plan. Your general topic will probably be your specialty, but you will need to narrow your focus to a few specific subjects, such as the problems you see most often, or a subspecialty that you concentrate on. You can always expand your topic later, as you get more popular. Choose a name for your podcast, and purchase a domain name that accurately describes it.

You will also need to choose a hosting service. Numerous inexpensive hosting platforms are available, and a simple Google search will find them for you. Many of them provide free learning materials, helpful creative tools, and customer support to get you through the confusing technical aspects. They can also help you choose a music introduction (to add a bit of polish), and help you piece together your audio segments. Buzzsprout, RSS.com, and Podbean get good reviews on many sites. (As always, I have no financial interest in any company or service mentioned herein.)

Hosting services can assist you in creating a template – a framework that you can reuse each time you record an episode – containing your intro and exit music, tracks for your conversations, etc. This will make your podcasts instantly recognizable each time your listeners tune in.

Many podcasting experts recommend recruiting a co-host. This can be an associate within your practice, a friend who practices elsewhere, or perhaps a resident in an academic setting. You will be able to spread the workload of creating, editing, and promoting. Plus, it is much easier to generate interesting content when two people are having a conversation, rather than one person lecturing from a prepared script. You might also consider having multiple co-hosts, either to expand episodes into group discussions, or to take turns working with you in covering different subjects.

How long you make your podcast is entirely up to you. Some consultants recommend specific time frames, such as 5 minutes (because that’s an average attention span), or 28 minutes (because that’s the average driving commute time). There are short podcasts and long ones; whatever works for you is fine, as long as you don’t drift off the topic. Furthermore, no one says they must all be the same length; when you are finished talking, you are done. And no one says you must stick with one subject throughout. Combining several short segments might hold more listeners’ interest and will make it easier to share small clips on social media.

Content guidelines are similar to those for blogs. Give people content that will be of interest or benefit to them. Talk about subjects – medical and otherwise – that are relevant to your practice or are prominent in the news.

As with blogs, try to avoid polarizing political discussions, and while it’s fine to discuss treatments and procedures that you offer, aggressive solicitation tends to make viewers look elsewhere. Keep any medical advice in general terms; don’t portray any specific patients as examples.

When your podcast is ready, your hosting platform will show you how to submit it to iTunes, and how to submit your podcast RSS feed to other podcast directories. As you upload new episodes, your host will automatically update your RSS feed, so that any directory you are listed on will receive the new episode.

Once you are uploaded, you can use your host’s social sharing tools to spread the word. As with blogs, use social media, such as your practice’s Facebook page, to push podcast updates into patients’ feeds and track relevant Twitter hashtags to find online communities that might be interested in your subject matter. You should also find your episode embed code (which your host will have) and place it in a prominent place on your website so patients can listen directly from there.

Transcriptions are another excellent promotional tool. Search engines will “read” your podcasts and list them in searches. Some podcast hosts will do transcribing for a fee, but there are independent transcription services as well.

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at [email protected].

In my last column, I discussed blogging as a great way to capture the attention of anyone interested in your practice, especially prospective patients. If you are already blogging – or would like to consider a less crowded and competitive activity – podcasting might be the answer. At this writing (November 2022), more than 600 million blogs are online, compared with about 2 million podcasts, and relatively few of them are run by physicians. With podcasts, you have a better chance of standing out in a crowded online world.

Starting a podcast is not difficult, but there are several steps you need to go through before launching one.

As with blogging, start by outlining a long-range plan. Your general topic will probably be your specialty, but you will need to narrow your focus to a few specific subjects, such as the problems you see most often, or a subspecialty that you concentrate on. You can always expand your topic later, as you get more popular. Choose a name for your podcast, and purchase a domain name that accurately describes it.

You will also need to choose a hosting service. Numerous inexpensive hosting platforms are available, and a simple Google search will find them for you. Many of them provide free learning materials, helpful creative tools, and customer support to get you through the confusing technical aspects. They can also help you choose a music introduction (to add a bit of polish), and help you piece together your audio segments. Buzzsprout, RSS.com, and Podbean get good reviews on many sites. (As always, I have no financial interest in any company or service mentioned herein.)

Hosting services can assist you in creating a template – a framework that you can reuse each time you record an episode – containing your intro and exit music, tracks for your conversations, etc. This will make your podcasts instantly recognizable each time your listeners tune in.

Many podcasting experts recommend recruiting a co-host. This can be an associate within your practice, a friend who practices elsewhere, or perhaps a resident in an academic setting. You will be able to spread the workload of creating, editing, and promoting. Plus, it is much easier to generate interesting content when two people are having a conversation, rather than one person lecturing from a prepared script. You might also consider having multiple co-hosts, either to expand episodes into group discussions, or to take turns working with you in covering different subjects.

How long you make your podcast is entirely up to you. Some consultants recommend specific time frames, such as 5 minutes (because that’s an average attention span), or 28 minutes (because that’s the average driving commute time). There are short podcasts and long ones; whatever works for you is fine, as long as you don’t drift off the topic. Furthermore, no one says they must all be the same length; when you are finished talking, you are done. And no one says you must stick with one subject throughout. Combining several short segments might hold more listeners’ interest and will make it easier to share small clips on social media.

Content guidelines are similar to those for blogs. Give people content that will be of interest or benefit to them. Talk about subjects – medical and otherwise – that are relevant to your practice or are prominent in the news.

As with blogs, try to avoid polarizing political discussions, and while it’s fine to discuss treatments and procedures that you offer, aggressive solicitation tends to make viewers look elsewhere. Keep any medical advice in general terms; don’t portray any specific patients as examples.

When your podcast is ready, your hosting platform will show you how to submit it to iTunes, and how to submit your podcast RSS feed to other podcast directories. As you upload new episodes, your host will automatically update your RSS feed, so that any directory you are listed on will receive the new episode.

Once you are uploaded, you can use your host’s social sharing tools to spread the word. As with blogs, use social media, such as your practice’s Facebook page, to push podcast updates into patients’ feeds and track relevant Twitter hashtags to find online communities that might be interested in your subject matter. You should also find your episode embed code (which your host will have) and place it in a prominent place on your website so patients can listen directly from there.

Transcriptions are another excellent promotional tool. Search engines will “read” your podcasts and list them in searches. Some podcast hosts will do transcribing for a fee, but there are independent transcription services as well.

Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at [email protected].

Understanding of the key mechanisms underlying the progression of type 2 diabetes has been advanced by new research from Oxford (England) University suggesting potential ways to “slow the seemingly inexorable decline in beta-cell function in T2D”.

The study in mice elucidated a “key cause” of T2D by showing that high blood glucose reprograms the metabolism of pancreatic beta-cells, helping to explain the progressive decline in their function in diabetes.

Scientists already knew that chronic hyperglycemia leads to a progressive decline in beta-cell function and, conversely, that the failure of pancreatic beta-cells to produce insulin results in chronically elevated blood glucose. However, the exact cause of beta-cell failure in T2D has remained unclear. T2D typically presents in later adult life, and by the time of diagnosis as much as 50% of beta-cell function has been lost.

In the United Kingdom there are nearly 5 million people diagnosed with T2D, which costs the National Health Service some £10 billion annually.
 

Glucose metabolites, rather than glucose itself, drives failure of cells to release insulin

The new study, published in Nature Communications, used both an animal model of diabetes and in vitro culture of beta-cells in a high glucose medium. In both cases the researchers showed, for the first time, that it is glucose metabolites, rather than glucose itself, that drives the failure of beta-cells to release insulin and is key to the progression of type 2 diabetes. 

Senior researcher Frances Ashcroft, PhD, of the department of physiology, anatomy and genetics at the University of Oxford said: “This suggests a potential way in which the decline in beta-cell function in T2D might be slowed or prevented.”

Blood glucose concentration is controlled within narrow limits, the team explained. When it is too low for more than few minutes, consciousness is rapidly lost because the brain is starved of fuel. However chronic elevation of blood glucose leads to the serious complications found in poorly controlled diabetes, such as retinopathy, nephropathy, peripheral neuropathy, and cardiac disease. Insulin, released from pancreatic beta-cells when blood glucose levels rise, is the only hormone that can lower the blood glucose concentration, and insufficient secretion results in diabetes. In T2D, the beta-cells are still present (unlike in T1D), but they have a reduced insulin content and the coupling between glucose and insulin release is impaired. 
 

Vicious spiral of hyperglycemia and beta-cell damage

Previous work by the same team had shown that chronic hyperglycemia damages the ability of the beta-cell to produce insulin and to release it when blood glucose levels rise. This suggested that “prolonged hyperglycemia sets off a vicious spiral in which an increase in blood glucose leads to beta-cell damage and less insulin secretion - which causes an even greater increase in blood glucose and a further decline in beta-cell function,” the team explained. 

Lead researcher Elizabeth Haythorne, PhD, said: “We realized that we next needed to understand how glucose damages beta-cell function, so we can think about how we might stop it and so slow the seemingly inexorable decline in beta-cell function in T2D.”

In the new study, they showed that altered glycolysis in T2D occurs, in part, through marked up-regulation of mammalian target of rapamycin complex 1 (mTORC1), a protein complex involved in control of cell growth, dysregulation of which underlies a variety of human diseases, including diabetes. Up-regulation of mTORC1 led to changes in metabolic gene expression, oxidative phosphorylation and insulin secretion. Furthermore, they demonstrated that reducing the rate at which glucose is metabolized and at which its metabolites build up could prevent the effects of chronic hyperglycemia and the ensuing beta-cell failure. 

“High blood glucose levels cause an increased rate of glucose metabolism in the beta-cell, which leads to a metabolic bottleneck and the pooling of upstream metabolites,” the team said. “These metabolites switch off the insulin gene, so less insulin is made, as well as switching off numerous genes involved in metabolism and stimulus-secretion coupling. Consequently, the beta-cells become glucose blind and no longer respond to changes in blood glucose with insulin secretion.”
 

Blocking metabolic enzyme could maintain insulin secretion

The team attempted to block the first step in glucose metabolism, and therefore prevent the gene changes from taking place, by blocking the enzyme glucokinase, which regulates the process. They found that this could maintain glucose-stimulated insulin secretion even in the presence of chronic hyperglycemia.

“Our results support the idea that progressive impairment of beta-cell metabolism, induced by increasing hyperglycemia, speeds T2D development, and suggest that reducing glycolysis at the level of glucokinase may slow this progression,” they said.

Dr. Ashcroft said: “This is potentially a useful way to try to prevent beta-cell decline in diabetes. Because glucose metabolism normally stimulates insulin secretion, it was previously hypothesized that increasing glucose metabolism would enhance insulin secretion in T2D and glucokinase activators were trialled, with varying results. 

“Our data suggests that glucokinase activators could have an adverse effect and, somewhat counter-intuitively, that a glucokinase inhibitor might be a better strategy to treat T2D. Of course, it would be important to reduce glucose flux in T2D to that found in people without diabetes – and no further. But there is a very long way to go before we can tell if this approach would be useful for treating beta-cell decline in T2D. 

“In the meantime, the key message from our study if you have type 2 diabetes is that it is important to keep your blood glucose well controlled.”

This study was funded by the UK Medical Research Council, the Biotechnology and Biological Sciences Research Council, the John Fell Fund, and the Nuffield Benefaction for Medicine/Wellcome Institutional Strategic Support Fund. The authors declared no competing interests.

A version of this article first appeared on Medscape UK.

Understanding of the key mechanisms underlying the progression of type 2 diabetes has been advanced by new research from Oxford (England) University suggesting potential ways to “slow the seemingly inexorable decline in beta-cell function in T2D”.

The study in mice elucidated a “key cause” of T2D by showing that high blood glucose reprograms the metabolism of pancreatic beta-cells, helping to explain the progressive decline in their function in diabetes.

Scientists already knew that chronic hyperglycemia leads to a progressive decline in beta-cell function and, conversely, that the failure of pancreatic beta-cells to produce insulin results in chronically elevated blood glucose. However, the exact cause of beta-cell failure in T2D has remained unclear. T2D typically presents in later adult life, and by the time of diagnosis as much as 50% of beta-cell function has been lost.

In the United Kingdom there are nearly 5 million people diagnosed with T2D, which costs the National Health Service some £10 billion annually.
 

Glucose metabolites, rather than glucose itself, drives failure of cells to release insulin

The new study, published in Nature Communications, used both an animal model of diabetes and in vitro culture of beta-cells in a high glucose medium. In both cases the researchers showed, for the first time, that it is glucose metabolites, rather than glucose itself, that drives the failure of beta-cells to release insulin and is key to the progression of type 2 diabetes. 

Senior researcher Frances Ashcroft, PhD, of the department of physiology, anatomy and genetics at the University of Oxford said: “This suggests a potential way in which the decline in beta-cell function in T2D might be slowed or prevented.”

Blood glucose concentration is controlled within narrow limits, the team explained. When it is too low for more than few minutes, consciousness is rapidly lost because the brain is starved of fuel. However chronic elevation of blood glucose leads to the serious complications found in poorly controlled diabetes, such as retinopathy, nephropathy, peripheral neuropathy, and cardiac disease. Insulin, released from pancreatic beta-cells when blood glucose levels rise, is the only hormone that can lower the blood glucose concentration, and insufficient secretion results in diabetes. In T2D, the beta-cells are still present (unlike in T1D), but they have a reduced insulin content and the coupling between glucose and insulin release is impaired. 
 

Vicious spiral of hyperglycemia and beta-cell damage

Previous work by the same team had shown that chronic hyperglycemia damages the ability of the beta-cell to produce insulin and to release it when blood glucose levels rise. This suggested that “prolonged hyperglycemia sets off a vicious spiral in which an increase in blood glucose leads to beta-cell damage and less insulin secretion - which causes an even greater increase in blood glucose and a further decline in beta-cell function,” the team explained. 

Lead researcher Elizabeth Haythorne, PhD, said: “We realized that we next needed to understand how glucose damages beta-cell function, so we can think about how we might stop it and so slow the seemingly inexorable decline in beta-cell function in T2D.”

In the new study, they showed that altered glycolysis in T2D occurs, in part, through marked up-regulation of mammalian target of rapamycin complex 1 (mTORC1), a protein complex involved in control of cell growth, dysregulation of which underlies a variety of human diseases, including diabetes. Up-regulation of mTORC1 led to changes in metabolic gene expression, oxidative phosphorylation and insulin secretion. Furthermore, they demonstrated that reducing the rate at which glucose is metabolized and at which its metabolites build up could prevent the effects of chronic hyperglycemia and the ensuing beta-cell failure. 

“High blood glucose levels cause an increased rate of glucose metabolism in the beta-cell, which leads to a metabolic bottleneck and the pooling of upstream metabolites,” the team said. “These metabolites switch off the insulin gene, so less insulin is made, as well as switching off numerous genes involved in metabolism and stimulus-secretion coupling. Consequently, the beta-cells become glucose blind and no longer respond to changes in blood glucose with insulin secretion.”
 

Blocking metabolic enzyme could maintain insulin secretion

The team attempted to block the first step in glucose metabolism, and therefore prevent the gene changes from taking place, by blocking the enzyme glucokinase, which regulates the process. They found that this could maintain glucose-stimulated insulin secretion even in the presence of chronic hyperglycemia.

“Our results support the idea that progressive impairment of beta-cell metabolism, induced by increasing hyperglycemia, speeds T2D development, and suggest that reducing glycolysis at the level of glucokinase may slow this progression,” they said.

Dr. Ashcroft said: “This is potentially a useful way to try to prevent beta-cell decline in diabetes. Because glucose metabolism normally stimulates insulin secretion, it was previously hypothesized that increasing glucose metabolism would enhance insulin secretion in T2D and glucokinase activators were trialled, with varying results. 

“Our data suggests that glucokinase activators could have an adverse effect and, somewhat counter-intuitively, that a glucokinase inhibitor might be a better strategy to treat T2D. Of course, it would be important to reduce glucose flux in T2D to that found in people without diabetes – and no further. But there is a very long way to go before we can tell if this approach would be useful for treating beta-cell decline in T2D. 

“In the meantime, the key message from our study if you have type 2 diabetes is that it is important to keep your blood glucose well controlled.”

This study was funded by the UK Medical Research Council, the Biotechnology and Biological Sciences Research Council, the John Fell Fund, and the Nuffield Benefaction for Medicine/Wellcome Institutional Strategic Support Fund. The authors declared no competing interests.

A version of this article first appeared on Medscape UK.

Understanding of the key mechanisms underlying the progression of type 2 diabetes has been advanced by new research from Oxford (England) University suggesting potential ways to “slow the seemingly inexorable decline in beta-cell function in T2D”.

The study in mice elucidated a “key cause” of T2D by showing that high blood glucose reprograms the metabolism of pancreatic beta-cells, helping to explain the progressive decline in their function in diabetes.

Scientists already knew that chronic hyperglycemia leads to a progressive decline in beta-cell function and, conversely, that the failure of pancreatic beta-cells to produce insulin results in chronically elevated blood glucose. However, the exact cause of beta-cell failure in T2D has remained unclear. T2D typically presents in later adult life, and by the time of diagnosis as much as 50% of beta-cell function has been lost.

In the United Kingdom there are nearly 5 million people diagnosed with T2D, which costs the National Health Service some £10 billion annually.
 

Glucose metabolites, rather than glucose itself, drives failure of cells to release insulin

The new study, published in Nature Communications, used both an animal model of diabetes and in vitro culture of beta-cells in a high glucose medium. In both cases the researchers showed, for the first time, that it is glucose metabolites, rather than glucose itself, that drives the failure of beta-cells to release insulin and is key to the progression of type 2 diabetes. 

Senior researcher Frances Ashcroft, PhD, of the department of physiology, anatomy and genetics at the University of Oxford said: “This suggests a potential way in which the decline in beta-cell function in T2D might be slowed or prevented.”

Blood glucose concentration is controlled within narrow limits, the team explained. When it is too low for more than few minutes, consciousness is rapidly lost because the brain is starved of fuel. However chronic elevation of blood glucose leads to the serious complications found in poorly controlled diabetes, such as retinopathy, nephropathy, peripheral neuropathy, and cardiac disease. Insulin, released from pancreatic beta-cells when blood glucose levels rise, is the only hormone that can lower the blood glucose concentration, and insufficient secretion results in diabetes. In T2D, the beta-cells are still present (unlike in T1D), but they have a reduced insulin content and the coupling between glucose and insulin release is impaired. 
 

Vicious spiral of hyperglycemia and beta-cell damage

Previous work by the same team had shown that chronic hyperglycemia damages the ability of the beta-cell to produce insulin and to release it when blood glucose levels rise. This suggested that “prolonged hyperglycemia sets off a vicious spiral in which an increase in blood glucose leads to beta-cell damage and less insulin secretion - which causes an even greater increase in blood glucose and a further decline in beta-cell function,” the team explained. 

Lead researcher Elizabeth Haythorne, PhD, said: “We realized that we next needed to understand how glucose damages beta-cell function, so we can think about how we might stop it and so slow the seemingly inexorable decline in beta-cell function in T2D.”

In the new study, they showed that altered glycolysis in T2D occurs, in part, through marked up-regulation of mammalian target of rapamycin complex 1 (mTORC1), a protein complex involved in control of cell growth, dysregulation of which underlies a variety of human diseases, including diabetes. Up-regulation of mTORC1 led to changes in metabolic gene expression, oxidative phosphorylation and insulin secretion. Furthermore, they demonstrated that reducing the rate at which glucose is metabolized and at which its metabolites build up could prevent the effects of chronic hyperglycemia and the ensuing beta-cell failure. 

“High blood glucose levels cause an increased rate of glucose metabolism in the beta-cell, which leads to a metabolic bottleneck and the pooling of upstream metabolites,” the team said. “These metabolites switch off the insulin gene, so less insulin is made, as well as switching off numerous genes involved in metabolism and stimulus-secretion coupling. Consequently, the beta-cells become glucose blind and no longer respond to changes in blood glucose with insulin secretion.”
 

Blocking metabolic enzyme could maintain insulin secretion

The team attempted to block the first step in glucose metabolism, and therefore prevent the gene changes from taking place, by blocking the enzyme glucokinase, which regulates the process. They found that this could maintain glucose-stimulated insulin secretion even in the presence of chronic hyperglycemia.

“Our results support the idea that progressive impairment of beta-cell metabolism, induced by increasing hyperglycemia, speeds T2D development, and suggest that reducing glycolysis at the level of glucokinase may slow this progression,” they said.

Dr. Ashcroft said: “This is potentially a useful way to try to prevent beta-cell decline in diabetes. Because glucose metabolism normally stimulates insulin secretion, it was previously hypothesized that increasing glucose metabolism would enhance insulin secretion in T2D and glucokinase activators were trialled, with varying results. 

“Our data suggests that glucokinase activators could have an adverse effect and, somewhat counter-intuitively, that a glucokinase inhibitor might be a better strategy to treat T2D. Of course, it would be important to reduce glucose flux in T2D to that found in people without diabetes – and no further. But there is a very long way to go before we can tell if this approach would be useful for treating beta-cell decline in T2D. 

“In the meantime, the key message from our study if you have type 2 diabetes is that it is important to keep your blood glucose well controlled.”

This study was funded by the UK Medical Research Council, the Biotechnology and Biological Sciences Research Council, the John Fell Fund, and the Nuffield Benefaction for Medicine/Wellcome Institutional Strategic Support Fund. The authors declared no competing interests.

A version of this article first appeared on Medscape UK.

CHICAGO – Treatment with the “twincretin” tirzepatide led to significant and potentially clinically meaningful cuts in 24-hour ambulatory blood pressure, compared with placebo, while causing modest increases in heart rate, in a prespecified substudy of the SURMOUNT-1 trial.

“The large effects on ambulatory 24-hour blood pressure raise the possibility that there may be important long-term benefits of [tirzepatide] on the complications of obesity,” said James A. de Lemos, MD, during a presentation at the American Heart Association scientific sessions.

Mitchel L. Zoler/MDedge News

“The findings are concordant with the [previously reported] office-based measurements, and the blood pressure reductions provide further evidence for the potential benefits of tirzepatide on cardiovascular health and outcomes,” said Dr. de Lemos, a cardiologist and professor at the University of Texas Southwestern Medical Center, Dallas.

The substudy included 600 of the 2,539 people enrolled in SURMOUNT-1, the first of two pivotal trials for tirzepatide (Mounjaro) in people without diabetes but with obesity or overweight (body mass index of 27-29 kg/m²) plus at least one weight-related complication. The primary endpoints of SURMOUNT-1 were the percent change in weight from baseline to 72 weeks on treatment with either of three different weekly injected doses of tirzepatide, compared with control subjects who received placebo, and the percentage of enrolled subjects achieving at least 5% loss in baseline weight, compared with the controls.

Tirzepatide treatment led to significant increases in both results, compared with controls, with the highest dose tested, 15 mg/week, resulting in an average 20.9% drop in weight from baseline after 72 weeks of treatment, and 91% of enrolled subjects on that dose achieving the 5% weight-loss threshold during the same time frame, in results published in 2022 in the New England Journal of Medicine.
 

24-hour ambulatory pressures from 494 people

The substudy enrolled 600 of the SURMOUNT-1 participants and involved 24-hour ambulatory BP and heart rate measurements at entry and after 36 weeks on treatment. Full results were available for 494 of these people. The substudy included only study participants who entered with a BP of less than 140/90 mm Hg. Enrollment in SURMOUNT-1 overall excluded people with a BP of 160/100 mm Hg or higher. The average BP among all enrolled participants was about 123/80 mm Hg, while heart rates averaged about 73 beats per minute.

Systolic BP measured with the ambulatory monitor fell from baseline by an average of 5.6, 8.8, and 6.2 mm Hg in the people who received tirzepatide in weekly doses of 5, 10, or 15 mg, respectively, and rose by an average 1.8 mm Hg among the controls, Dr. de Lemos reported. Diastolic BP dropped among the tirzepatide recipients by an average of 1.5, 2.4, and 0.0 mm Hg in the three ascending tirzepatide treatment arms, and rose by an average 0.5 mm Hg among the controls. All of the differences between the intervention groups and the controls were significant except for the change in diastolic BP among participants who received 15 mg of tirzepatide weekly.

The results showed that 36 weeks on tirzepatide treatment was associated with “arguably clinically meaningful” reductions in systolic and diastolic BPs, Dr. de Lemos said. “There is a lot of optimism that this will translate into clinical benefits.” He also noted that, “within the limits of cross-study comparisons, the blood pressure changes look favorable, compared with the single-incretin mechanism GLP-1 [glucagonlike peptide–1] receptor agonists.”

Heart rate fell by an average 1.8 bpm in the controls, and rose by an average 0.3, 0.5, and 3.6 bpm among the three groups receiving ascending weekly tirzepatide doses, effects that were “consistent with what’s been seen with the GLP-1 receptor agonists,” noted Dr. de Lemos.

Tirzepatide is known as a “twincretin” because it shares this GLP-1 receptor agonism and also has a second incretin agonist activity, to the receptor for the glucose-dependent insulinotropic polypeptide.

Lowering of blood pressure plateaus

Changes in BP over time during the 72 weeks on treatment, data first presented in the original report, showed that average systolic pressure in the people who received tirzepatide fell sharply during the first 24 weeks on treatment, and then leveled out with little further change over time. Furthermore, all three tirzepatide doses produced roughly similar systolic BP reductions. Changes in diastolic pressure over time showed a mostly similar pattern of reduction, although a modest ongoing decrease in average diastolic pressure continued beyond 24 weeks.

Mitchel L. Zoler/MDedge News

This pattern of a plateau in BP reduction has been seen before in studies using other treatments to produce weight loss, including bariatric surgery, said Naveed Sattar, MBChB, PhD, professor of metabolic medicine at the University of Glasgow, who was not involved in SURMOUNT-1. He attributed the plateau in BP reduction among tirzepatide-treated people to them hitting a wall in their BP nadir based on homeostatic limits. Dr. Sattar noted that most enrolled participants had normal BPs at entry based on the reported study averages.

“It’s hard to go lower, but the blood pressure reduction may be larger in people who start at higher pressure levels,” Dr. Sattar said in an interview.

Mitchel L. Zoler/MDedge News

Another inferred cap on BP reductions in the trial hypothesizes that the individual clinicians who managed the enrolled patients may have cut back on other BP-lowering agents as the pressures of the tirzepatide recipients fell to relatively low levels, suggested Darren McGuire, MD, a cardiologist and professor at UT Southwestern Medical Center, who also was not involved in the SURMOUNT-1 study.
 

Incretin agonists as antihypertensive drugs

The substantial BP-lowering seen with tirzepatide, as well as with other incretin agonist agents, suggests a new way to think about BP control in people with overweight or obesity, Dr. Sattar said.

“Until now, we haven’t had tools where people lose so much weight. Now that we have these tools [incretin agonists as well as bariatric surgery], we see substantial blood pressure reductions. It makes you think we should use weight-loss agents to lower blood pressure rather than a beta-blocker or angiotensin-converting enzyme inhibitor; then we’d also produce all the other benefits from weight loss,” Dr. Sattar suggested.

Dr. de Lemos said he sees signals that the BP reductions caused by tirzepatide and the GLP-1 receptor agonists may go beyond just weight-loss effects.

“There appears to be a larger blood pressure reduction than anticipated based on the change in weight,” he said during his presentation. “GLP-1 is active in most vascular tissues, so these [receptor agonist] agents likely have vascular or cardiac effects, or even effects on other tissues that may affect blood pressure.”
 

Heart rate increases were usually modest

The experiences with GLP-1 receptor agonists also suggest that the heart rate increases seen with tirzepatide treatment in SURMOUNT-1 will not have long-term effects. “The [Food and Drug Administration] mandated this heart rate substudy to make sure that the increase in heart rate was not larger than what would be anticipated” with a GLP-1 receptor agonist, Dr. de Lemos explained.

SURMOUNT-1 had a treatment-stopping rule to prevent a person’s heart rate from rising beyond 10 bpm from baseline. “Trivial numbers” of patients experienced a heart rate increase of this magnitude, he said. If used in routine practice, Dr. de Lemos said that he would closely investigate a patient with a heart rate increase greater than 10 mm Hg. The average increase seen with the highest dose, about 4 bpm above baseline, would generally not be concerning.

Tirzepatide received U.S. marketing approval from the FDA in May 2022 for treating people with type 2 diabetes. In October 2022, the FDA gave tirzepatide “Fast Track” designation for the pending application for approval of an indication to treat people with overweight or obesity who match the entry criteria for SURMOUNT-1 and for the second pivotal trial for this indication, SURMOUNT-2. According to a statement from Eli Lilly, the company that is developing and markets tirzepatide (Mounjaro), the FDA’s decision on the obesity indication will remain pending until the SURMOUNT-2 results are available, which the company expects will occur in 2023.

SURMOUNT-1 and SURMOUNT-2 were sponsored by Lilly, the company that markets tirzepatide. Dr. de Lemos has been a consultant to Lilly as well as to Amgen, AstraZeneca, Janssen, Novo Nordisk, Ortho, Quidel Cardiovascular, and Regeneron. Dr. Sattar has financial ties to Lilly, Afimmune, Amgen, AstraZeneca, Boehringer Ingelheim, Hammi, Merck Sharpe & Dohme, Novartis, Novo Nordisk, Pfizer, Roche, and Sanofi-Aventis. Dr. McGuire has ties to Lilly as well as to Altimmune, Applied Therapeutics, Bayer, Boehringer Ingelheim, CSL Behring, Lexicon, Merck, Metavant, Novo Nordisk, and Sanofi.

CHICAGO – Treatment with the “twincretin” tirzepatide led to significant and potentially clinically meaningful cuts in 24-hour ambulatory blood pressure, compared with placebo, while causing modest increases in heart rate, in a prespecified substudy of the SURMOUNT-1 trial.

“The large effects on ambulatory 24-hour blood pressure raise the possibility that there may be important long-term benefits of [tirzepatide] on the complications of obesity,” said James A. de Lemos, MD, during a presentation at the American Heart Association scientific sessions.

Mitchel L. Zoler/MDedge News

“The findings are concordant with the [previously reported] office-based measurements, and the blood pressure reductions provide further evidence for the potential benefits of tirzepatide on cardiovascular health and outcomes,” said Dr. de Lemos, a cardiologist and professor at the University of Texas Southwestern Medical Center, Dallas.

The substudy included 600 of the 2,539 people enrolled in SURMOUNT-1, the first of two pivotal trials for tirzepatide (Mounjaro) in people without diabetes but with obesity or overweight (body mass index of 27-29 kg/m²) plus at least one weight-related complication. The primary endpoints of SURMOUNT-1 were the percent change in weight from baseline to 72 weeks on treatment with either of three different weekly injected doses of tirzepatide, compared with control subjects who received placebo, and the percentage of enrolled subjects achieving at least 5% loss in baseline weight, compared with the controls.

Tirzepatide treatment led to significant increases in both results, compared with controls, with the highest dose tested, 15 mg/week, resulting in an average 20.9% drop in weight from baseline after 72 weeks of treatment, and 91% of enrolled subjects on that dose achieving the 5% weight-loss threshold during the same time frame, in results published in 2022 in the New England Journal of Medicine.
 

24-hour ambulatory pressures from 494 people

The substudy enrolled 600 of the SURMOUNT-1 participants and involved 24-hour ambulatory BP and heart rate measurements at entry and after 36 weeks on treatment. Full results were available for 494 of these people. The substudy included only study participants who entered with a BP of less than 140/90 mm Hg. Enrollment in SURMOUNT-1 overall excluded people with a BP of 160/100 mm Hg or higher. The average BP among all enrolled participants was about 123/80 mm Hg, while heart rates averaged about 73 beats per minute.

Systolic BP measured with the ambulatory monitor fell from baseline by an average of 5.6, 8.8, and 6.2 mm Hg in the people who received tirzepatide in weekly doses of 5, 10, or 15 mg, respectively, and rose by an average 1.8 mm Hg among the controls, Dr. de Lemos reported. Diastolic BP dropped among the tirzepatide recipients by an average of 1.5, 2.4, and 0.0 mm Hg in the three ascending tirzepatide treatment arms, and rose by an average 0.5 mm Hg among the controls. All of the differences between the intervention groups and the controls were significant except for the change in diastolic BP among participants who received 15 mg of tirzepatide weekly.

The results showed that 36 weeks on tirzepatide treatment was associated with “arguably clinically meaningful” reductions in systolic and diastolic BPs, Dr. de Lemos said. “There is a lot of optimism that this will translate into clinical benefits.” He also noted that, “within the limits of cross-study comparisons, the blood pressure changes look favorable, compared with the single-incretin mechanism GLP-1 [glucagonlike peptide–1] receptor agonists.”

Heart rate fell by an average 1.8 bpm in the controls, and rose by an average 0.3, 0.5, and 3.6 bpm among the three groups receiving ascending weekly tirzepatide doses, effects that were “consistent with what’s been seen with the GLP-1 receptor agonists,” noted Dr. de Lemos.

Tirzepatide is known as a “twincretin” because it shares this GLP-1 receptor agonism and also has a second incretin agonist activity, to the receptor for the glucose-dependent insulinotropic polypeptide.

Lowering of blood pressure plateaus

Changes in BP over time during the 72 weeks on treatment, data first presented in the original report, showed that average systolic pressure in the people who received tirzepatide fell sharply during the first 24 weeks on treatment, and then leveled out with little further change over time. Furthermore, all three tirzepatide doses produced roughly similar systolic BP reductions. Changes in diastolic pressure over time showed a mostly similar pattern of reduction, although a modest ongoing decrease in average diastolic pressure continued beyond 24 weeks.

Mitchel L. Zoler/MDedge News

This pattern of a plateau in BP reduction has been seen before in studies using other treatments to produce weight loss, including bariatric surgery, said Naveed Sattar, MBChB, PhD, professor of metabolic medicine at the University of Glasgow, who was not involved in SURMOUNT-1. He attributed the plateau in BP reduction among tirzepatide-treated people to them hitting a wall in their BP nadir based on homeostatic limits. Dr. Sattar noted that most enrolled participants had normal BPs at entry based on the reported study averages.

“It’s hard to go lower, but the blood pressure reduction may be larger in people who start at higher pressure levels,” Dr. Sattar said in an interview.

Mitchel L. Zoler/MDedge News

Another inferred cap on BP reductions in the trial hypothesizes that the individual clinicians who managed the enrolled patients may have cut back on other BP-lowering agents as the pressures of the tirzepatide recipients fell to relatively low levels, suggested Darren McGuire, MD, a cardiologist and professor at UT Southwestern Medical Center, who also was not involved in the SURMOUNT-1 study.
 

Incretin agonists as antihypertensive drugs

The substantial BP-lowering seen with tirzepatide, as well as with other incretin agonist agents, suggests a new way to think about BP control in people with overweight or obesity, Dr. Sattar said.

“Until now, we haven’t had tools where people lose so much weight. Now that we have these tools [incretin agonists as well as bariatric surgery], we see substantial blood pressure reductions. It makes you think we should use weight-loss agents to lower blood pressure rather than a beta-blocker or angiotensin-converting enzyme inhibitor; then we’d also produce all the other benefits from weight loss,” Dr. Sattar suggested.

Dr. de Lemos said he sees signals that the BP reductions caused by tirzepatide and the GLP-1 receptor agonists may go beyond just weight-loss effects.

“There appears to be a larger blood pressure reduction than anticipated based on the change in weight,” he said during his presentation. “GLP-1 is active in most vascular tissues, so these [receptor agonist] agents likely have vascular or cardiac effects, or even effects on other tissues that may affect blood pressure.”
 

Heart rate increases were usually modest

The experiences with GLP-1 receptor agonists also suggest that the heart rate increases seen with tirzepatide treatment in SURMOUNT-1 will not have long-term effects. “The [Food and Drug Administration] mandated this heart rate substudy to make sure that the increase in heart rate was not larger than what would be anticipated” with a GLP-1 receptor agonist, Dr. de Lemos explained.

SURMOUNT-1 had a treatment-stopping rule to prevent a person’s heart rate from rising beyond 10 bpm from baseline. “Trivial numbers” of patients experienced a heart rate increase of this magnitude, he said. If used in routine practice, Dr. de Lemos said that he would closely investigate a patient with a heart rate increase greater than 10 mm Hg. The average increase seen with the highest dose, about 4 bpm above baseline, would generally not be concerning.

Tirzepatide received U.S. marketing approval from the FDA in May 2022 for treating people with type 2 diabetes. In October 2022, the FDA gave tirzepatide “Fast Track” designation for the pending application for approval of an indication to treat people with overweight or obesity who match the entry criteria for SURMOUNT-1 and for the second pivotal trial for this indication, SURMOUNT-2. According to a statement from Eli Lilly, the company that is developing and markets tirzepatide (Mounjaro), the FDA’s decision on the obesity indication will remain pending until the SURMOUNT-2 results are available, which the company expects will occur in 2023.

SURMOUNT-1 and SURMOUNT-2 were sponsored by Lilly, the company that markets tirzepatide. Dr. de Lemos has been a consultant to Lilly as well as to Amgen, AstraZeneca, Janssen, Novo Nordisk, Ortho, Quidel Cardiovascular, and Regeneron. Dr. Sattar has financial ties to Lilly, Afimmune, Amgen, AstraZeneca, Boehringer Ingelheim, Hammi, Merck Sharpe & Dohme, Novartis, Novo Nordisk, Pfizer, Roche, and Sanofi-Aventis. Dr. McGuire has ties to Lilly as well as to Altimmune, Applied Therapeutics, Bayer, Boehringer Ingelheim, CSL Behring, Lexicon, Merck, Metavant, Novo Nordisk, and Sanofi.

CHICAGO – Treatment with the “twincretin” tirzepatide led to significant and potentially clinically meaningful cuts in 24-hour ambulatory blood pressure, compared with placebo, while causing modest increases in heart rate, in a prespecified substudy of the SURMOUNT-1 trial.

“The large effects on ambulatory 24-hour blood pressure raise the possibility that there may be important long-term benefits of [tirzepatide] on the complications of obesity,” said James A. de Lemos, MD, during a presentation at the American Heart Association scientific sessions.

Mitchel L. Zoler/MDedge News

“The findings are concordant with the [previously reported] office-based measurements, and the blood pressure reductions provide further evidence for the potential benefits of tirzepatide on cardiovascular health and outcomes,” said Dr. de Lemos, a cardiologist and professor at the University of Texas Southwestern Medical Center, Dallas.

The substudy included 600 of the 2,539 people enrolled in SURMOUNT-1, the first of two pivotal trials for tirzepatide (Mounjaro) in people without diabetes but with obesity or overweight (body mass index of 27-29 kg/m²) plus at least one weight-related complication. The primary endpoints of SURMOUNT-1 were the percent change in weight from baseline to 72 weeks on treatment with either of three different weekly injected doses of tirzepatide, compared with control subjects who received placebo, and the percentage of enrolled subjects achieving at least 5% loss in baseline weight, compared with the controls.

Tirzepatide treatment led to significant increases in both results, compared with controls, with the highest dose tested, 15 mg/week, resulting in an average 20.9% drop in weight from baseline after 72 weeks of treatment, and 91% of enrolled subjects on that dose achieving the 5% weight-loss threshold during the same time frame, in results published in 2022 in the New England Journal of Medicine.
 

24-hour ambulatory pressures from 494 people

The substudy enrolled 600 of the SURMOUNT-1 participants and involved 24-hour ambulatory BP and heart rate measurements at entry and after 36 weeks on treatment. Full results were available for 494 of these people. The substudy included only study participants who entered with a BP of less than 140/90 mm Hg. Enrollment in SURMOUNT-1 overall excluded people with a BP of 160/100 mm Hg or higher. The average BP among all enrolled participants was about 123/80 mm Hg, while heart rates averaged about 73 beats per minute.

Systolic BP measured with the ambulatory monitor fell from baseline by an average of 5.6, 8.8, and 6.2 mm Hg in the people who received tirzepatide in weekly doses of 5, 10, or 15 mg, respectively, and rose by an average 1.8 mm Hg among the controls, Dr. de Lemos reported. Diastolic BP dropped among the tirzepatide recipients by an average of 1.5, 2.4, and 0.0 mm Hg in the three ascending tirzepatide treatment arms, and rose by an average 0.5 mm Hg among the controls. All of the differences between the intervention groups and the controls were significant except for the change in diastolic BP among participants who received 15 mg of tirzepatide weekly.

The results showed that 36 weeks on tirzepatide treatment was associated with “arguably clinically meaningful” reductions in systolic and diastolic BPs, Dr. de Lemos said. “There is a lot of optimism that this will translate into clinical benefits.” He also noted that, “within the limits of cross-study comparisons, the blood pressure changes look favorable, compared with the single-incretin mechanism GLP-1 [glucagonlike peptide–1] receptor agonists.”

Heart rate fell by an average 1.8 bpm in the controls, and rose by an average 0.3, 0.5, and 3.6 bpm among the three groups receiving ascending weekly tirzepatide doses, effects that were “consistent with what’s been seen with the GLP-1 receptor agonists,” noted Dr. de Lemos.

Tirzepatide is known as a “twincretin” because it shares this GLP-1 receptor agonism and also has a second incretin agonist activity, to the receptor for the glucose-dependent insulinotropic polypeptide.

Lowering of blood pressure plateaus

Changes in BP over time during the 72 weeks on treatment, data first presented in the original report, showed that average systolic pressure in the people who received tirzepatide fell sharply during the first 24 weeks on treatment, and then leveled out with little further change over time. Furthermore, all three tirzepatide doses produced roughly similar systolic BP reductions. Changes in diastolic pressure over time showed a mostly similar pattern of reduction, although a modest ongoing decrease in average diastolic pressure continued beyond 24 weeks.

Mitchel L. Zoler/MDedge News

This pattern of a plateau in BP reduction has been seen before in studies using other treatments to produce weight loss, including bariatric surgery, said Naveed Sattar, MBChB, PhD, professor of metabolic medicine at the University of Glasgow, who was not involved in SURMOUNT-1. He attributed the plateau in BP reduction among tirzepatide-treated people to them hitting a wall in their BP nadir based on homeostatic limits. Dr. Sattar noted that most enrolled participants had normal BPs at entry based on the reported study averages.

“It’s hard to go lower, but the blood pressure reduction may be larger in people who start at higher pressure levels,” Dr. Sattar said in an interview.

Mitchel L. Zoler/MDedge News

Another inferred cap on BP reductions in the trial hypothesizes that the individual clinicians who managed the enrolled patients may have cut back on other BP-lowering agents as the pressures of the tirzepatide recipients fell to relatively low levels, suggested Darren McGuire, MD, a cardiologist and professor at UT Southwestern Medical Center, who also was not involved in the SURMOUNT-1 study.
 

Incretin agonists as antihypertensive drugs

The substantial BP-lowering seen with tirzepatide, as well as with other incretin agonist agents, suggests a new way to think about BP control in people with overweight or obesity, Dr. Sattar said.

“Until now, we haven’t had tools where people lose so much weight. Now that we have these tools [incretin agonists as well as bariatric surgery], we see substantial blood pressure reductions. It makes you think we should use weight-loss agents to lower blood pressure rather than a beta-blocker or angiotensin-converting enzyme inhibitor; then we’d also produce all the other benefits from weight loss,” Dr. Sattar suggested.

Dr. de Lemos said he sees signals that the BP reductions caused by tirzepatide and the GLP-1 receptor agonists may go beyond just weight-loss effects.

“There appears to be a larger blood pressure reduction than anticipated based on the change in weight,” he said during his presentation. “GLP-1 is active in most vascular tissues, so these [receptor agonist] agents likely have vascular or cardiac effects, or even effects on other tissues that may affect blood pressure.”
 

Heart rate increases were usually modest

The experiences with GLP-1 receptor agonists also suggest that the heart rate increases seen with tirzepatide treatment in SURMOUNT-1 will not have long-term effects. “The [Food and Drug Administration] mandated this heart rate substudy to make sure that the increase in heart rate was not larger than what would be anticipated” with a GLP-1 receptor agonist, Dr. de Lemos explained.

SURMOUNT-1 had a treatment-stopping rule to prevent a person’s heart rate from rising beyond 10 bpm from baseline. “Trivial numbers” of patients experienced a heart rate increase of this magnitude, he said. If used in routine practice, Dr. de Lemos said that he would closely investigate a patient with a heart rate increase greater than 10 mm Hg. The average increase seen with the highest dose, about 4 bpm above baseline, would generally not be concerning.

Tirzepatide received U.S. marketing approval from the FDA in May 2022 for treating people with type 2 diabetes. In October 2022, the FDA gave tirzepatide “Fast Track” designation for the pending application for approval of an indication to treat people with overweight or obesity who match the entry criteria for SURMOUNT-1 and for the second pivotal trial for this indication, SURMOUNT-2. According to a statement from Eli Lilly, the company that is developing and markets tirzepatide (Mounjaro), the FDA’s decision on the obesity indication will remain pending until the SURMOUNT-2 results are available, which the company expects will occur in 2023.

SURMOUNT-1 and SURMOUNT-2 were sponsored by Lilly, the company that markets tirzepatide. Dr. de Lemos has been a consultant to Lilly as well as to Amgen, AstraZeneca, Janssen, Novo Nordisk, Ortho, Quidel Cardiovascular, and Regeneron. Dr. Sattar has financial ties to Lilly, Afimmune, Amgen, AstraZeneca, Boehringer Ingelheim, Hammi, Merck Sharpe & Dohme, Novartis, Novo Nordisk, Pfizer, Roche, and Sanofi-Aventis. Dr. McGuire has ties to Lilly as well as to Altimmune, Applied Therapeutics, Bayer, Boehringer Ingelheim, CSL Behring, Lexicon, Merck, Metavant, Novo Nordisk, and Sanofi.