Obesity

Despite their best efforts, 80% of people who lose weight regain it and many end up heavier within 5 years. Why? Our bodies fight back, revving up hunger while slowing metabolism after weight loss. In ongoing obesity discussions, ghrelin is in the spotlight as the “hunger hormone” playing a crucial role in driving appetite and facilitating weight gain. 

Weight loss interventions, such as diet or gastric bypass surgery, may trigger an increase in ghrelin levels, potentially fueling long-term weight gain. Consequently, ghrelin remains a focal point of research into innovative antiobesity treatments. 

Ghrelin, a hormone produced in the stomach, is often called the “hunger hormone.” Ghrelin is a circulating orexigenic gut hormone with growth hormone–releasing activity. In the intricate balance of energy, central and peripheral peptides such as ghrelin, leptin, adiponectin, and insulin play crucial roles. They regulate hunger, fullness, and metabolic rates, shaping our body weight outcomes. 

Since the discovery of ghrelin, in 1999, research in mice and people has focused on its effect on regulating appetite and implications for long-term weight control. When hunger strikes, ghrelin levels surge, sending signals to the brain that ramp up the appetite. Following a meal, ghrelin decreases, indicating fullness. 

Studies have found that people who were injected with subcutaneous ghrelin experienced a 46% increase in hunger and ate 28% more at their next meal than those who didn’t receive a ghrelin injection.

We might expect high levels of ghrelin in individuals with obesity, but this is not the case. In fact, ghrelin levels are typically lower in individuals with obesity than in leaner individuals. This finding might seem to contradict the idea that obesity is due to high levels of the hunger hormone. 

Excess weight could increase sensitivity to ghrelin, where more receptors lead to higher hunger stimulation with less ghrelin. Beyond hunger, ghrelin can also lead us to eat for comfort, as when stressed or anxious. Ghrelin and synthetic ghrelin mimetics increase body weight and fat mass by activating receptors in the arcuate nucleus of the hypothalamus (Müller et al.; Bany Bakar et al.). There, it also activates the brain’s reward pathways, making us crave food even when we are not hungry. This connection between ghrelin and emotional eating can contribute to stress-induced obesity. 

In my clinical practice, I have seen individuals gain maximum weight when they are under more stress and are sleep-deprived. This is because ghrelin levels increased in these scenarios. This elevation of ghrelin in high-stress, low-sleep situations affects weight gain in women during the postpartum period and menopause. 

Evidence also suggests that certain foods affect ghrelin levels. After a person eats carbohydrates, their ghrelin levels initially decrease quickly, but this is followed by a rise in ghrelin, leading them to become hungry again. In contrast, protein intake helps suppress ghrelin levels for longer. Hence, we advise patients to increase protein intake while reducing their carb intake, or to always eat protein along with carbs.

It makes sense that when individuals with obesity lose weight by fasting or caloric restriction and try to maintain that weight loss, their bodies tend to produce more ghrelin. This effect might explain why people who lose weight often find it hard to keep it off: Rising ghrelin levels after weight loss might drive them to eat more and regain weight. 

Two prominent weight loss surgeries, sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGB), have opposite effects on ghrelin levels, reflecting their distinct mechanisms for weight loss. SG involves removal of the gastric fundus, where ghrelin is produced, resulting in a significant decrease in ghrelin levels; RYGB operates through malabsorption without directly affecting ghrelin production. Despite these differing approaches, both techniques demonstrate remarkable weight loss efficacy. Research comparing the two procedures reveals that SG leads to decreased fasting plasma ghrelin levels, whereas RYGB prompts an increase, highlighting the additional appetite-reducing mechanism of SG through ghrelin suppression. This contrast underscores the intricate role of ghrelin in appetite regulation and suggests that its manipulation can significantly influence weight loss outcomes.

With the effect of ghrelin in stimulating appetite being established, other studies have explored the relationship between ghrelin and insulin resistance. A meta-analysis by researchers at Qingdao University, Qingdao, China, found that circulating ghrelin levels were negatively correlated with insulin resistance in individuals with obesity and normal fasting glucose levels. The findings suggest that the role of ghrelin in obesity might extend beyond appetite regulation to influence metabolic pathways and that ghrelin may be a marker for predicting obesity.

Researchers are exploring potential therapeutic targets focusing on ghrelin modulation. Although selective neutralization of ghrelin has not yielded consistent results in rodent models, the interplay between ghrelin and LEAP2— a hormone that attaches to the same brain receptors — could be an area of interest for future obesity treatments.

Could ghrelin be the key to tackling obesity? Blocking ghrelin pharmacologically might be a strategy to keep weight off after weight loss, and it could help prevent the typical rebound effect seen with diets and withdrawal of medications. Considering the high rates of weight regain after diet-induced weight loss and withdrawal of weight loss medications, targeting ghrelin might be the missing link in long-term obesity treatment. It could be a valuable approach to improving long-term outcomes for obesity. However, these blockers might have significant side effects, given that ghrelin affects not only hunger but also the brain’s reward and pleasure centers. Therefore, caution will be needed in developing such medications owing to their potential impact on mood and mental health.

With ghrelin playing roles in hunger, reward pathways, and energy regulation, understanding this hormone is crucial in the fight against obesity. Stay tuned for future research that could shed light on the underlying mechanisms at play and hopefully results in clinical action steps.

Dimpi Desai, MD, is a professor in the Department of Medicine, Division of Endocrinology, Gerontology, and Metabolism, Stanford University, Stanford, California, and has disclosed no relevant financial relationships. Ashni Dharia, MD, is a resident in the Department of Internal Medicine, Allegheny General Hospital, Pittsburgh, Pennsylvania.

A version of this article appeared on Medscape.com.

Despite their best efforts, 80% of people who lose weight regain it and many end up heavier within 5 years. Why? Our bodies fight back, revving up hunger while slowing metabolism after weight loss. In ongoing obesity discussions, ghrelin is in the spotlight as the “hunger hormone” playing a crucial role in driving appetite and facilitating weight gain. 

Weight loss interventions, such as diet or gastric bypass surgery, may trigger an increase in ghrelin levels, potentially fueling long-term weight gain. Consequently, ghrelin remains a focal point of research into innovative antiobesity treatments. 

Ghrelin, a hormone produced in the stomach, is often called the “hunger hormone.” Ghrelin is a circulating orexigenic gut hormone with growth hormone–releasing activity. In the intricate balance of energy, central and peripheral peptides such as ghrelin, leptin, adiponectin, and insulin play crucial roles. They regulate hunger, fullness, and metabolic rates, shaping our body weight outcomes. 

Since the discovery of ghrelin, in 1999, research in mice and people has focused on its effect on regulating appetite and implications for long-term weight control. When hunger strikes, ghrelin levels surge, sending signals to the brain that ramp up the appetite. Following a meal, ghrelin decreases, indicating fullness. 

Studies have found that people who were injected with subcutaneous ghrelin experienced a 46% increase in hunger and ate 28% more at their next meal than those who didn’t receive a ghrelin injection.

We might expect high levels of ghrelin in individuals with obesity, but this is not the case. In fact, ghrelin levels are typically lower in individuals with obesity than in leaner individuals. This finding might seem to contradict the idea that obesity is due to high levels of the hunger hormone. 

Excess weight could increase sensitivity to ghrelin, where more receptors lead to higher hunger stimulation with less ghrelin. Beyond hunger, ghrelin can also lead us to eat for comfort, as when stressed or anxious. Ghrelin and synthetic ghrelin mimetics increase body weight and fat mass by activating receptors in the arcuate nucleus of the hypothalamus (Müller et al.; Bany Bakar et al.). There, it also activates the brain’s reward pathways, making us crave food even when we are not hungry. This connection between ghrelin and emotional eating can contribute to stress-induced obesity. 

In my clinical practice, I have seen individuals gain maximum weight when they are under more stress and are sleep-deprived. This is because ghrelin levels increased in these scenarios. This elevation of ghrelin in high-stress, low-sleep situations affects weight gain in women during the postpartum period and menopause. 

Evidence also suggests that certain foods affect ghrelin levels. After a person eats carbohydrates, their ghrelin levels initially decrease quickly, but this is followed by a rise in ghrelin, leading them to become hungry again. In contrast, protein intake helps suppress ghrelin levels for longer. Hence, we advise patients to increase protein intake while reducing their carb intake, or to always eat protein along with carbs.

It makes sense that when individuals with obesity lose weight by fasting or caloric restriction and try to maintain that weight loss, their bodies tend to produce more ghrelin. This effect might explain why people who lose weight often find it hard to keep it off: Rising ghrelin levels after weight loss might drive them to eat more and regain weight. 

Two prominent weight loss surgeries, sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGB), have opposite effects on ghrelin levels, reflecting their distinct mechanisms for weight loss. SG involves removal of the gastric fundus, where ghrelin is produced, resulting in a significant decrease in ghrelin levels; RYGB operates through malabsorption without directly affecting ghrelin production. Despite these differing approaches, both techniques demonstrate remarkable weight loss efficacy. Research comparing the two procedures reveals that SG leads to decreased fasting plasma ghrelin levels, whereas RYGB prompts an increase, highlighting the additional appetite-reducing mechanism of SG through ghrelin suppression. This contrast underscores the intricate role of ghrelin in appetite regulation and suggests that its manipulation can significantly influence weight loss outcomes.

With the effect of ghrelin in stimulating appetite being established, other studies have explored the relationship between ghrelin and insulin resistance. A meta-analysis by researchers at Qingdao University, Qingdao, China, found that circulating ghrelin levels were negatively correlated with insulin resistance in individuals with obesity and normal fasting glucose levels. The findings suggest that the role of ghrelin in obesity might extend beyond appetite regulation to influence metabolic pathways and that ghrelin may be a marker for predicting obesity.

Researchers are exploring potential therapeutic targets focusing on ghrelin modulation. Although selective neutralization of ghrelin has not yielded consistent results in rodent models, the interplay between ghrelin and LEAP2— a hormone that attaches to the same brain receptors — could be an area of interest for future obesity treatments.

Could ghrelin be the key to tackling obesity? Blocking ghrelin pharmacologically might be a strategy to keep weight off after weight loss, and it could help prevent the typical rebound effect seen with diets and withdrawal of medications. Considering the high rates of weight regain after diet-induced weight loss and withdrawal of weight loss medications, targeting ghrelin might be the missing link in long-term obesity treatment. It could be a valuable approach to improving long-term outcomes for obesity. However, these blockers might have significant side effects, given that ghrelin affects not only hunger but also the brain’s reward and pleasure centers. Therefore, caution will be needed in developing such medications owing to their potential impact on mood and mental health.

With ghrelin playing roles in hunger, reward pathways, and energy regulation, understanding this hormone is crucial in the fight against obesity. Stay tuned for future research that could shed light on the underlying mechanisms at play and hopefully results in clinical action steps.

Dimpi Desai, MD, is a professor in the Department of Medicine, Division of Endocrinology, Gerontology, and Metabolism, Stanford University, Stanford, California, and has disclosed no relevant financial relationships. Ashni Dharia, MD, is a resident in the Department of Internal Medicine, Allegheny General Hospital, Pittsburgh, Pennsylvania.

A version of this article appeared on Medscape.com.

Despite their best efforts, 80% of people who lose weight regain it and many end up heavier within 5 years. Why? Our bodies fight back, revving up hunger while slowing metabolism after weight loss. In ongoing obesity discussions, ghrelin is in the spotlight as the “hunger hormone” playing a crucial role in driving appetite and facilitating weight gain. 

Weight loss interventions, such as diet or gastric bypass surgery, may trigger an increase in ghrelin levels, potentially fueling long-term weight gain. Consequently, ghrelin remains a focal point of research into innovative antiobesity treatments. 

Ghrelin, a hormone produced in the stomach, is often called the “hunger hormone.” Ghrelin is a circulating orexigenic gut hormone with growth hormone–releasing activity. In the intricate balance of energy, central and peripheral peptides such as ghrelin, leptin, adiponectin, and insulin play crucial roles. They regulate hunger, fullness, and metabolic rates, shaping our body weight outcomes. 

Since the discovery of ghrelin, in 1999, research in mice and people has focused on its effect on regulating appetite and implications for long-term weight control. When hunger strikes, ghrelin levels surge, sending signals to the brain that ramp up the appetite. Following a meal, ghrelin decreases, indicating fullness. 

Studies have found that people who were injected with subcutaneous ghrelin experienced a 46% increase in hunger and ate 28% more at their next meal than those who didn’t receive a ghrelin injection.

We might expect high levels of ghrelin in individuals with obesity, but this is not the case. In fact, ghrelin levels are typically lower in individuals with obesity than in leaner individuals. This finding might seem to contradict the idea that obesity is due to high levels of the hunger hormone. 

Excess weight could increase sensitivity to ghrelin, where more receptors lead to higher hunger stimulation with less ghrelin. Beyond hunger, ghrelin can also lead us to eat for comfort, as when stressed or anxious. Ghrelin and synthetic ghrelin mimetics increase body weight and fat mass by activating receptors in the arcuate nucleus of the hypothalamus (Müller et al.; Bany Bakar et al.). There, it also activates the brain’s reward pathways, making us crave food even when we are not hungry. This connection between ghrelin and emotional eating can contribute to stress-induced obesity. 

In my clinical practice, I have seen individuals gain maximum weight when they are under more stress and are sleep-deprived. This is because ghrelin levels increased in these scenarios. This elevation of ghrelin in high-stress, low-sleep situations affects weight gain in women during the postpartum period and menopause. 

Evidence also suggests that certain foods affect ghrelin levels. After a person eats carbohydrates, their ghrelin levels initially decrease quickly, but this is followed by a rise in ghrelin, leading them to become hungry again. In contrast, protein intake helps suppress ghrelin levels for longer. Hence, we advise patients to increase protein intake while reducing their carb intake, or to always eat protein along with carbs.

It makes sense that when individuals with obesity lose weight by fasting or caloric restriction and try to maintain that weight loss, their bodies tend to produce more ghrelin. This effect might explain why people who lose weight often find it hard to keep it off: Rising ghrelin levels after weight loss might drive them to eat more and regain weight. 

Two prominent weight loss surgeries, sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGB), have opposite effects on ghrelin levels, reflecting their distinct mechanisms for weight loss. SG involves removal of the gastric fundus, where ghrelin is produced, resulting in a significant decrease in ghrelin levels; RYGB operates through malabsorption without directly affecting ghrelin production. Despite these differing approaches, both techniques demonstrate remarkable weight loss efficacy. Research comparing the two procedures reveals that SG leads to decreased fasting plasma ghrelin levels, whereas RYGB prompts an increase, highlighting the additional appetite-reducing mechanism of SG through ghrelin suppression. This contrast underscores the intricate role of ghrelin in appetite regulation and suggests that its manipulation can significantly influence weight loss outcomes.

With the effect of ghrelin in stimulating appetite being established, other studies have explored the relationship between ghrelin and insulin resistance. A meta-analysis by researchers at Qingdao University, Qingdao, China, found that circulating ghrelin levels were negatively correlated with insulin resistance in individuals with obesity and normal fasting glucose levels. The findings suggest that the role of ghrelin in obesity might extend beyond appetite regulation to influence metabolic pathways and that ghrelin may be a marker for predicting obesity.

Researchers are exploring potential therapeutic targets focusing on ghrelin modulation. Although selective neutralization of ghrelin has not yielded consistent results in rodent models, the interplay between ghrelin and LEAP2— a hormone that attaches to the same brain receptors — could be an area of interest for future obesity treatments.

Could ghrelin be the key to tackling obesity? Blocking ghrelin pharmacologically might be a strategy to keep weight off after weight loss, and it could help prevent the typical rebound effect seen with diets and withdrawal of medications. Considering the high rates of weight regain after diet-induced weight loss and withdrawal of weight loss medications, targeting ghrelin might be the missing link in long-term obesity treatment. It could be a valuable approach to improving long-term outcomes for obesity. However, these blockers might have significant side effects, given that ghrelin affects not only hunger but also the brain’s reward and pleasure centers. Therefore, caution will be needed in developing such medications owing to their potential impact on mood and mental health.

With ghrelin playing roles in hunger, reward pathways, and energy regulation, understanding this hormone is crucial in the fight against obesity. Stay tuned for future research that could shed light on the underlying mechanisms at play and hopefully results in clinical action steps.

Dimpi Desai, MD, is a professor in the Department of Medicine, Division of Endocrinology, Gerontology, and Metabolism, Stanford University, Stanford, California, and has disclosed no relevant financial relationships. Ashni Dharia, MD, is a resident in the Department of Internal Medicine, Allegheny General Hospital, Pittsburgh, Pennsylvania.

A version of this article appeared on Medscape.com.

ORLANDO, FLA. — The diabetes and weight loss drug tirzepatide (Mounjaro for type 2 diabetes; Zepbound for obesity) was so effective at reducing sleep disruptions in patients with obesity and obstructive sleep apnea (OSA) that 40%-50% no longer needed to use a continuous positive airway pressure (CPAP) device, according to two new studies.

Tirzepatide, a long-acting glucose-dependent insulinotropic polypeptide (GIP) receptor agonist and glucagon-like peptide 1 (GLP-1) receptor agonist, also lowered C-reactive protein levels and systolic blood pressure. And patients taking the medication lost 18%-20% of their body weight. 

The SURMOUNT-OSA studies “mark a significant milestone in the treatment of OSA, offering a promising new therapeutic option that addresses both respiratory and metabolic complications,” said lead author Atul Malhotra, MD, professor of medicine at the University of California, San Diego, and director of sleep medicine at UC San Diego Health. 

The two double-blind, randomized, controlled trials in patients with obesity and moderate to severe OSA were conducted at 60 sites in nine countries. The results were presented at the American Diabetes Association (ADA) 84th Scientific Sessions and simultaneously published online in the New England Journal of Medicine.

OSA affects 1 billion people worldwide and 30 million American adults, many of whom are undiagnosed. Obesity is a common risk factor. According to the ADA, 40% of those with obesity have OSA and 70% of those with OSA have obesity. 

CPAP is an effective and the most-used intervention for OSA, but many patients refuse to use the device, stop using it, or cannot use it. Should tirzepatide eventually gain Food and Drug Administration approval for OSA, it would be the first drug approved for the condition.

“This new drug treatment offers a more accessible alternative for individuals who cannot tolerate or adhere to existing therapies,” said Dr. Malhotra.
 

Huge Reduction in Episodes, Severity

For the two studies, patients were enrolled who had moderate to severe OSA, defined as more than 15 events per hour (using the apnea-hypopnea index [AHI]) and a body mass index of 30 kg/m² or greater. Those not using a CPAP device were enrolled in study 1, and those using a CPAP device were enrolled in study 2. 

Participants received either the maximum tolerated dose of tirzepatide (10 or 15 mg by once-weekly injection) or placebo for 1 year. In study 1, 114 individuals received tirzepatide and 120 received placebo. For study 2, 119 patients received tirzepatide and 114 received placebo. All participants received regular lifestyle counseling sessions about nutrition and were instructed to reduce food intake by 500 kcal/day and to engage in at least 150 min/week of physical activity.

Enrollment was limited to 70% men to ensure adequate representation of women.

At baseline, 65%-70% of participants had severe OSA, with more than 30 events/hour on the AHI scale and a mean of 51.5 events/hour.

By 1 year, patients taking tirzepatide had 27-30 fewer events/hour, compared with 4-6 fewer events/hour for those taking placebo.

Up to half of those who received tirzepatide in both trials had less than 5 events/hour or 5-14 AHI events/hour and an Epworth Sleepiness Scale score of 10 or less. Those thresholds “represent a level at which CPAP therapy may not be recommended,” wrote the authors.

Patients in the tirzepatide group also had a decrease in systolic blood pressure from baseline of 9.7 mm Hg in study 1 and 7.6 mm Hg in study 2 at week 48.

The most common adverse events were diarrhea, nausea, and vomiting, which occurred in approximately a quarter of patients taking tirzepatide. There were two adjudicated-confirmed cases of acute pancreatitis in those taking tirzepatide in study 2. 

Patients who received tirzepatide also reported fewer daytime and nighttime disturbances, as measured using the Patient-Reported Outcomes Measurement Information System Short Form scale for Sleep-Related Impairment and Sleep Disturbance.
 

Tirzepatide Plus CPAP Are Best

Writing in an accompanying editorial, Sanjay R. Patel, MD, noted that, although clinical guidelines have recommended that weight loss strategies be incorporated as part of OSA treatment, “the integration of obesity management into the approaches to care for obstructive sleep apnea has lagged.”

As many as half of patients abandon CPAP therapy within 3 years, wrote Dr. Patel, who is professor of medicine and epidemiology at the University of Pittsburgh, Pittsburgh, Pennsylvania, and medical director of the UPMC Comprehensive Sleep Disorders program. “An effective medication to treat obesity is thus an obvious avenue to pursue.”

Dr. Patel noted the large reductions in the number of events on the AHI scale. He wrote that the improvement in systolic blood pressure “was substantially larger than effects seen with CPAP therapy alone and indicate that tirzepatide may be an attractive option for those patients who seek to reduce their cardiovascular risk.”

Dr. Patel raised concerns about whether patients outside of a trial would stick with therapy, noting studies have shown high rates of discontinuation of GLP-1 receptor agonists.

And, he wrote, “racial disparities in the use of GLP-1 receptor agonists among patients with diabetes arouse concern that the addition of tirzepatide as a treatment option for obstructive sleep apnea without directly addressing policies relative to coverage of care will only further exacerbate already pervasive disparities in clinical care for obstructive sleep apnea.”

Commenting on the study during the presentation of the results, Louis Aronne, MD, said he believes the trials demonstrate “the treatment of obesity with tirzepatide plus CPAP is really the optimal treatment for obstructive sleep apnea and obesity-related cardiometabolic risks.” Dr. Aronne is the Sanford I. Weill professor of metabolic research at Weill Cornell Medical College, New York City.

Dr. Aronne added there is still much to learn. It is still not clear whether tirzepatide had an independent effect in the OSA trial — as has been seen in other studies where the drug clearly reduced cardiovascular risk — or whether the positive results were primarily caused by weight loss.

“I believe that over time we’ll see that this particular effect in sleep apnea is related to weight,” he said. 

The study was supported by Eli Lilly. Dr. Malhotra has reported being a paid consultant for Lilly and ZOLL Medical and a cofounder of Healcisio. 

A version of this article appeared on Medscape.com.
 

ORLANDO, FLA. — The diabetes and weight loss drug tirzepatide (Mounjaro for type 2 diabetes; Zepbound for obesity) was so effective at reducing sleep disruptions in patients with obesity and obstructive sleep apnea (OSA) that 40%-50% no longer needed to use a continuous positive airway pressure (CPAP) device, according to two new studies.

Tirzepatide, a long-acting glucose-dependent insulinotropic polypeptide (GIP) receptor agonist and glucagon-like peptide 1 (GLP-1) receptor agonist, also lowered C-reactive protein levels and systolic blood pressure. And patients taking the medication lost 18%-20% of their body weight. 

The SURMOUNT-OSA studies “mark a significant milestone in the treatment of OSA, offering a promising new therapeutic option that addresses both respiratory and metabolic complications,” said lead author Atul Malhotra, MD, professor of medicine at the University of California, San Diego, and director of sleep medicine at UC San Diego Health. 

The two double-blind, randomized, controlled trials in patients with obesity and moderate to severe OSA were conducted at 60 sites in nine countries. The results were presented at the American Diabetes Association (ADA) 84th Scientific Sessions and simultaneously published online in the New England Journal of Medicine.

OSA affects 1 billion people worldwide and 30 million American adults, many of whom are undiagnosed. Obesity is a common risk factor. According to the ADA, 40% of those with obesity have OSA and 70% of those with OSA have obesity. 

CPAP is an effective and the most-used intervention for OSA, but many patients refuse to use the device, stop using it, or cannot use it. Should tirzepatide eventually gain Food and Drug Administration approval for OSA, it would be the first drug approved for the condition.

“This new drug treatment offers a more accessible alternative for individuals who cannot tolerate or adhere to existing therapies,” said Dr. Malhotra.
 

Huge Reduction in Episodes, Severity

For the two studies, patients were enrolled who had moderate to severe OSA, defined as more than 15 events per hour (using the apnea-hypopnea index [AHI]) and a body mass index of 30 kg/m² or greater. Those not using a CPAP device were enrolled in study 1, and those using a CPAP device were enrolled in study 2. 

Participants received either the maximum tolerated dose of tirzepatide (10 or 15 mg by once-weekly injection) or placebo for 1 year. In study 1, 114 individuals received tirzepatide and 120 received placebo. For study 2, 119 patients received tirzepatide and 114 received placebo. All participants received regular lifestyle counseling sessions about nutrition and were instructed to reduce food intake by 500 kcal/day and to engage in at least 150 min/week of physical activity.

Enrollment was limited to 70% men to ensure adequate representation of women.

At baseline, 65%-70% of participants had severe OSA, with more than 30 events/hour on the AHI scale and a mean of 51.5 events/hour.

By 1 year, patients taking tirzepatide had 27-30 fewer events/hour, compared with 4-6 fewer events/hour for those taking placebo.

Up to half of those who received tirzepatide in both trials had less than 5 events/hour or 5-14 AHI events/hour and an Epworth Sleepiness Scale score of 10 or less. Those thresholds “represent a level at which CPAP therapy may not be recommended,” wrote the authors.

Patients in the tirzepatide group also had a decrease in systolic blood pressure from baseline of 9.7 mm Hg in study 1 and 7.6 mm Hg in study 2 at week 48.

The most common adverse events were diarrhea, nausea, and vomiting, which occurred in approximately a quarter of patients taking tirzepatide. There were two adjudicated-confirmed cases of acute pancreatitis in those taking tirzepatide in study 2. 

Patients who received tirzepatide also reported fewer daytime and nighttime disturbances, as measured using the Patient-Reported Outcomes Measurement Information System Short Form scale for Sleep-Related Impairment and Sleep Disturbance.
 

Tirzepatide Plus CPAP Are Best

Writing in an accompanying editorial, Sanjay R. Patel, MD, noted that, although clinical guidelines have recommended that weight loss strategies be incorporated as part of OSA treatment, “the integration of obesity management into the approaches to care for obstructive sleep apnea has lagged.”

As many as half of patients abandon CPAP therapy within 3 years, wrote Dr. Patel, who is professor of medicine and epidemiology at the University of Pittsburgh, Pittsburgh, Pennsylvania, and medical director of the UPMC Comprehensive Sleep Disorders program. “An effective medication to treat obesity is thus an obvious avenue to pursue.”

Dr. Patel noted the large reductions in the number of events on the AHI scale. He wrote that the improvement in systolic blood pressure “was substantially larger than effects seen with CPAP therapy alone and indicate that tirzepatide may be an attractive option for those patients who seek to reduce their cardiovascular risk.”

Dr. Patel raised concerns about whether patients outside of a trial would stick with therapy, noting studies have shown high rates of discontinuation of GLP-1 receptor agonists.

And, he wrote, “racial disparities in the use of GLP-1 receptor agonists among patients with diabetes arouse concern that the addition of tirzepatide as a treatment option for obstructive sleep apnea without directly addressing policies relative to coverage of care will only further exacerbate already pervasive disparities in clinical care for obstructive sleep apnea.”

Commenting on the study during the presentation of the results, Louis Aronne, MD, said he believes the trials demonstrate “the treatment of obesity with tirzepatide plus CPAP is really the optimal treatment for obstructive sleep apnea and obesity-related cardiometabolic risks.” Dr. Aronne is the Sanford I. Weill professor of metabolic research at Weill Cornell Medical College, New York City.

Dr. Aronne added there is still much to learn. It is still not clear whether tirzepatide had an independent effect in the OSA trial — as has been seen in other studies where the drug clearly reduced cardiovascular risk — or whether the positive results were primarily caused by weight loss.

“I believe that over time we’ll see that this particular effect in sleep apnea is related to weight,” he said. 

The study was supported by Eli Lilly. Dr. Malhotra has reported being a paid consultant for Lilly and ZOLL Medical and a cofounder of Healcisio. 

A version of this article appeared on Medscape.com.
 

ORLANDO, FLA. — The diabetes and weight loss drug tirzepatide (Mounjaro for type 2 diabetes; Zepbound for obesity) was so effective at reducing sleep disruptions in patients with obesity and obstructive sleep apnea (OSA) that 40%-50% no longer needed to use a continuous positive airway pressure (CPAP) device, according to two new studies.

Tirzepatide, a long-acting glucose-dependent insulinotropic polypeptide (GIP) receptor agonist and glucagon-like peptide 1 (GLP-1) receptor agonist, also lowered C-reactive protein levels and systolic blood pressure. And patients taking the medication lost 18%-20% of their body weight. 

The SURMOUNT-OSA studies “mark a significant milestone in the treatment of OSA, offering a promising new therapeutic option that addresses both respiratory and metabolic complications,” said lead author Atul Malhotra, MD, professor of medicine at the University of California, San Diego, and director of sleep medicine at UC San Diego Health. 

The two double-blind, randomized, controlled trials in patients with obesity and moderate to severe OSA were conducted at 60 sites in nine countries. The results were presented at the American Diabetes Association (ADA) 84th Scientific Sessions and simultaneously published online in the New England Journal of Medicine.

OSA affects 1 billion people worldwide and 30 million American adults, many of whom are undiagnosed. Obesity is a common risk factor. According to the ADA, 40% of those with obesity have OSA and 70% of those with OSA have obesity. 

CPAP is an effective and the most-used intervention for OSA, but many patients refuse to use the device, stop using it, or cannot use it. Should tirzepatide eventually gain Food and Drug Administration approval for OSA, it would be the first drug approved for the condition.

“This new drug treatment offers a more accessible alternative for individuals who cannot tolerate or adhere to existing therapies,” said Dr. Malhotra.
 

Huge Reduction in Episodes, Severity

For the two studies, patients were enrolled who had moderate to severe OSA, defined as more than 15 events per hour (using the apnea-hypopnea index [AHI]) and a body mass index of 30 kg/m² or greater. Those not using a CPAP device were enrolled in study 1, and those using a CPAP device were enrolled in study 2. 

Participants received either the maximum tolerated dose of tirzepatide (10 or 15 mg by once-weekly injection) or placebo for 1 year. In study 1, 114 individuals received tirzepatide and 120 received placebo. For study 2, 119 patients received tirzepatide and 114 received placebo. All participants received regular lifestyle counseling sessions about nutrition and were instructed to reduce food intake by 500 kcal/day and to engage in at least 150 min/week of physical activity.

Enrollment was limited to 70% men to ensure adequate representation of women.

At baseline, 65%-70% of participants had severe OSA, with more than 30 events/hour on the AHI scale and a mean of 51.5 events/hour.

By 1 year, patients taking tirzepatide had 27-30 fewer events/hour, compared with 4-6 fewer events/hour for those taking placebo.

Up to half of those who received tirzepatide in both trials had less than 5 events/hour or 5-14 AHI events/hour and an Epworth Sleepiness Scale score of 10 or less. Those thresholds “represent a level at which CPAP therapy may not be recommended,” wrote the authors.

Patients in the tirzepatide group also had a decrease in systolic blood pressure from baseline of 9.7 mm Hg in study 1 and 7.6 mm Hg in study 2 at week 48.

The most common adverse events were diarrhea, nausea, and vomiting, which occurred in approximately a quarter of patients taking tirzepatide. There were two adjudicated-confirmed cases of acute pancreatitis in those taking tirzepatide in study 2. 

Patients who received tirzepatide also reported fewer daytime and nighttime disturbances, as measured using the Patient-Reported Outcomes Measurement Information System Short Form scale for Sleep-Related Impairment and Sleep Disturbance.
 

Tirzepatide Plus CPAP Are Best

Writing in an accompanying editorial, Sanjay R. Patel, MD, noted that, although clinical guidelines have recommended that weight loss strategies be incorporated as part of OSA treatment, “the integration of obesity management into the approaches to care for obstructive sleep apnea has lagged.”

As many as half of patients abandon CPAP therapy within 3 years, wrote Dr. Patel, who is professor of medicine and epidemiology at the University of Pittsburgh, Pittsburgh, Pennsylvania, and medical director of the UPMC Comprehensive Sleep Disorders program. “An effective medication to treat obesity is thus an obvious avenue to pursue.”

Dr. Patel noted the large reductions in the number of events on the AHI scale. He wrote that the improvement in systolic blood pressure “was substantially larger than effects seen with CPAP therapy alone and indicate that tirzepatide may be an attractive option for those patients who seek to reduce their cardiovascular risk.”

Dr. Patel raised concerns about whether patients outside of a trial would stick with therapy, noting studies have shown high rates of discontinuation of GLP-1 receptor agonists.

And, he wrote, “racial disparities in the use of GLP-1 receptor agonists among patients with diabetes arouse concern that the addition of tirzepatide as a treatment option for obstructive sleep apnea without directly addressing policies relative to coverage of care will only further exacerbate already pervasive disparities in clinical care for obstructive sleep apnea.”

Commenting on the study during the presentation of the results, Louis Aronne, MD, said he believes the trials demonstrate “the treatment of obesity with tirzepatide plus CPAP is really the optimal treatment for obstructive sleep apnea and obesity-related cardiometabolic risks.” Dr. Aronne is the Sanford I. Weill professor of metabolic research at Weill Cornell Medical College, New York City.

Dr. Aronne added there is still much to learn. It is still not clear whether tirzepatide had an independent effect in the OSA trial — as has been seen in other studies where the drug clearly reduced cardiovascular risk — or whether the positive results were primarily caused by weight loss.

“I believe that over time we’ll see that this particular effect in sleep apnea is related to weight,” he said. 

The study was supported by Eli Lilly. Dr. Malhotra has reported being a paid consultant for Lilly and ZOLL Medical and a cofounder of Healcisio. 

A version of this article appeared on Medscape.com.
 

TOPLINE:

Whether they have normal weight, overweight, or obesity, individuals with metabolically healthy (MH) phenotypes show a lower frequency of impaired glucose metabolism than their unhealthy counterparts across all weight categories.

METHODOLOGY:

• The concepts of MH overweight and MH obesity refer to a subset of people who exhibit an absence of cardiometabolic risk factors despite excess body fat, but the prevalence of prediabetes has not been investigated by metabolic phenotype and body mass index (BMI).
• This study first validated the use of estimated glucose disposal rate (eGDR), an index of insulin sensitivity calculated from clinical variables, in 350 individuals without diabetes (mean age, 37 years; 219 women; mean BMI, 30.3) from the EUGENE2 project who had varying glucose tolerance values originally assessed by insulin-stimulated glucose disposal.
• Researchers then stratified 2201 participants without diabetes (mean age, 46 years; White; 1290 women; mean BMI, 31.2) from the CATAMERI study according to BMI into three groups — individuals with normal weight (BMI, 18-24.9), overweight (BMI, 25-29.9), and obesity (BMI, ≥ 30).
• The men and women in each BMI group were separated into quartiles of insulin sensitivity based on eGDR index:
• In the normal weight group, men and women were defined as MH in the top three eGDR quartiles and metabolically unhealthy (MU) in the lowest quartile.
• In the overweight and obesity groups, people were defined as MH in the top eGDR quartile and MU in the lower three quartiles.
• Impaired glucose tolerance (IGT), impaired fasting glucose (IFG), and combined IFG+IGT conditions (from an oral glucose tolerance test) were compared in individuals without diabetes based on MH or unhealthy phenotypes across normal weight, overweight, and obese categories.

TAKEAWAY:

• eGDR demonstrated good accuracy in detecting individuals with higher insulin sensitivity in the EUGENE2 cohort.
• The MH overweight and MH obesity groups showed comparable glycemic parameters as the MH normal weight group, whereas the MU overweight and MU obesity groups exhibited higher A1c levels and fasting and 2-hour post-load glucose than the MH normal weight group.
• The frequencies of IFG, IGT, and IFG+IGT conditions were similar among the MH normal weight, MH overweight, and MH obesity groups but were higher in the MU overweight and MU obesity groups than in the MU normal weight group.
• Furthermore, compared with those in the MH normal weight group, the odds of prediabetes were at least two times higher in the MU obesity (odds ratio [OR], 2.54; P < .001) and MU overweight (OR, 2.06; P < .001) groups but not significantly different in the MU normal weight, MH obesity, and MH overweight groups.

IN PRACTICE:

The authors wrote, “Overall, the results of this cross-sectional study support the notion that metabolically healthy individuals with overweight or obesity have a more favorable metabolic risk profile in comparison to metabolically unhealthy subjects with overweight or obesity.”

SOURCE:

The study was conducted by Chiara M.A. Cefalo, MD, department of clinical and molecular medicine, Sapienza University of Rome, Rome, Italy, and was published online in Diabetes, Obesity and Metabolism.

LIMITATIONS:

There was no consensus on the parameters and cutoff values for defining metabolic health status, allowing for potential variations in results. The study design suggested an association with prevalent IFG and IGT conditions but not with incident IFG and IGT conditions. All participants in this study were White, limiting the generalizability of its findings.

DISCLOSURES:

The study was supported by Sapienza University of Rome and the Italian Ministry of University. The authors declared no conflicts of interest.

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

TOPLINE:

Whether they have normal weight, overweight, or obesity, individuals with metabolically healthy (MH) phenotypes show a lower frequency of impaired glucose metabolism than their unhealthy counterparts across all weight categories.

METHODOLOGY:

• The concepts of MH overweight and MH obesity refer to a subset of people who exhibit an absence of cardiometabolic risk factors despite excess body fat, but the prevalence of prediabetes has not been investigated by metabolic phenotype and body mass index (BMI).
• This study first validated the use of estimated glucose disposal rate (eGDR), an index of insulin sensitivity calculated from clinical variables, in 350 individuals without diabetes (mean age, 37 years; 219 women; mean BMI, 30.3) from the EUGENE2 project who had varying glucose tolerance values originally assessed by insulin-stimulated glucose disposal.
• Researchers then stratified 2201 participants without diabetes (mean age, 46 years; White; 1290 women; mean BMI, 31.2) from the CATAMERI study according to BMI into three groups — individuals with normal weight (BMI, 18-24.9), overweight (BMI, 25-29.9), and obesity (BMI, ≥ 30).
• The men and women in each BMI group were separated into quartiles of insulin sensitivity based on eGDR index:
• In the normal weight group, men and women were defined as MH in the top three eGDR quartiles and metabolically unhealthy (MU) in the lowest quartile.
• In the overweight and obesity groups, people were defined as MH in the top eGDR quartile and MU in the lower three quartiles.
• Impaired glucose tolerance (IGT), impaired fasting glucose (IFG), and combined IFG+IGT conditions (from an oral glucose tolerance test) were compared in individuals without diabetes based on MH or unhealthy phenotypes across normal weight, overweight, and obese categories.

TAKEAWAY:

• eGDR demonstrated good accuracy in detecting individuals with higher insulin sensitivity in the EUGENE2 cohort.
• The MH overweight and MH obesity groups showed comparable glycemic parameters as the MH normal weight group, whereas the MU overweight and MU obesity groups exhibited higher A1c levels and fasting and 2-hour post-load glucose than the MH normal weight group.
• The frequencies of IFG, IGT, and IFG+IGT conditions were similar among the MH normal weight, MH overweight, and MH obesity groups but were higher in the MU overweight and MU obesity groups than in the MU normal weight group.
• Furthermore, compared with those in the MH normal weight group, the odds of prediabetes were at least two times higher in the MU obesity (odds ratio [OR], 2.54; P < .001) and MU overweight (OR, 2.06; P < .001) groups but not significantly different in the MU normal weight, MH obesity, and MH overweight groups.

IN PRACTICE:

The authors wrote, “Overall, the results of this cross-sectional study support the notion that metabolically healthy individuals with overweight or obesity have a more favorable metabolic risk profile in comparison to metabolically unhealthy subjects with overweight or obesity.”

SOURCE:

The study was conducted by Chiara M.A. Cefalo, MD, department of clinical and molecular medicine, Sapienza University of Rome, Rome, Italy, and was published online in Diabetes, Obesity and Metabolism.

LIMITATIONS:

There was no consensus on the parameters and cutoff values for defining metabolic health status, allowing for potential variations in results. The study design suggested an association with prevalent IFG and IGT conditions but not with incident IFG and IGT conditions. All participants in this study were White, limiting the generalizability of its findings.

DISCLOSURES:

The study was supported by Sapienza University of Rome and the Italian Ministry of University. The authors declared no conflicts of interest.

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

TOPLINE:

Whether they have normal weight, overweight, or obesity, individuals with metabolically healthy (MH) phenotypes show a lower frequency of impaired glucose metabolism than their unhealthy counterparts across all weight categories.

METHODOLOGY:

• The concepts of MH overweight and MH obesity refer to a subset of people who exhibit an absence of cardiometabolic risk factors despite excess body fat, but the prevalence of prediabetes has not been investigated by metabolic phenotype and body mass index (BMI).
• This study first validated the use of estimated glucose disposal rate (eGDR), an index of insulin sensitivity calculated from clinical variables, in 350 individuals without diabetes (mean age, 37 years; 219 women; mean BMI, 30.3) from the EUGENE2 project who had varying glucose tolerance values originally assessed by insulin-stimulated glucose disposal.
• Researchers then stratified 2201 participants without diabetes (mean age, 46 years; White; 1290 women; mean BMI, 31.2) from the CATAMERI study according to BMI into three groups — individuals with normal weight (BMI, 18-24.9), overweight (BMI, 25-29.9), and obesity (BMI, ≥ 30).
• The men and women in each BMI group were separated into quartiles of insulin sensitivity based on eGDR index:
• In the normal weight group, men and women were defined as MH in the top three eGDR quartiles and metabolically unhealthy (MU) in the lowest quartile.
• In the overweight and obesity groups, people were defined as MH in the top eGDR quartile and MU in the lower three quartiles.
• Impaired glucose tolerance (IGT), impaired fasting glucose (IFG), and combined IFG+IGT conditions (from an oral glucose tolerance test) were compared in individuals without diabetes based on MH or unhealthy phenotypes across normal weight, overweight, and obese categories.

TAKEAWAY:

• eGDR demonstrated good accuracy in detecting individuals with higher insulin sensitivity in the EUGENE2 cohort.
• The MH overweight and MH obesity groups showed comparable glycemic parameters as the MH normal weight group, whereas the MU overweight and MU obesity groups exhibited higher A1c levels and fasting and 2-hour post-load glucose than the MH normal weight group.
• The frequencies of IFG, IGT, and IFG+IGT conditions were similar among the MH normal weight, MH overweight, and MH obesity groups but were higher in the MU overweight and MU obesity groups than in the MU normal weight group.
• Furthermore, compared with those in the MH normal weight group, the odds of prediabetes were at least two times higher in the MU obesity (odds ratio [OR], 2.54; P < .001) and MU overweight (OR, 2.06; P < .001) groups but not significantly different in the MU normal weight, MH obesity, and MH overweight groups.

IN PRACTICE:

The authors wrote, “Overall, the results of this cross-sectional study support the notion that metabolically healthy individuals with overweight or obesity have a more favorable metabolic risk profile in comparison to metabolically unhealthy subjects with overweight or obesity.”

SOURCE:

The study was conducted by Chiara M.A. Cefalo, MD, department of clinical and molecular medicine, Sapienza University of Rome, Rome, Italy, and was published online in Diabetes, Obesity and Metabolism.

LIMITATIONS:

There was no consensus on the parameters and cutoff values for defining metabolic health status, allowing for potential variations in results. The study design suggested an association with prevalent IFG and IGT conditions but not with incident IFG and IGT conditions. All participants in this study were White, limiting the generalizability of its findings.

DISCLOSURES:

The study was supported by Sapienza University of Rome and the Italian Ministry of University. The authors declared no conflicts of interest.

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

TOPLINE:

Bariatric metabolic surgery (BMS) offers a survival advantage over glucagon-like peptide 1 receptor agonists (GLP-1 RAs) in adults with obesity and diabetes for 10 years or less, which may be explained by greater weight loss with surgery, new research shows.

METHODOLOGY:

• There is limited evidence regarding the relative effectiveness of BMS and GLP-1 RAs in reducing mortality and major adverse cardiovascular events (MACE).
• This observational, retrospective cohort study analyzed the electronic medical records of Clalit Health Services, Israel’s largest healthcare organization.
• Researchers included patients aged 24 years or older who had diabetes and obesity but no prior cardiovascular disease and who either underwent BMS or received a GLP-1 RA.
• The primary outcome was all-cause mortality, assessed by multivariate Cox proportional hazards regression models. The secondary outcome was nonfatal MACE, assessed by multivariate competing risk models.

TAKEAWAY:

• Researchers included 3035 matched pairs of patients (total, 6070; mean age, 51 years; 65% women), who were followed for a median of 6.8 years.
• Among patients with diabetes for 10 years or less, those who underwent BMS had a 62% lower risk for mortality than those treated with a GLP-1 RA (hazard ratio [HR], 0.38).
• The survival advantage associated with BMS vs GLP-1 RA may be explained by the greater relative decrease in body mass index in the surgery group (–31.4% vs –12.8%, respectively).
• Among patients with diabetes for more than 10 years, no survival advantage was observed for BMS over GLP-1 RA (HR, 0.65), which may be explained by the adverse effects of prolonged diabetes duration masking the benefit associated with weight loss.
• The risk for nonfatal MACE did not differ significantly between the treatment groups in both diabetes duration categories.

IN PRACTICE:

“This study suggests that BMS was associated with greater reduced mortality compared with GLP-1 RAs among individuals with a diabetes duration of 10 years or less, mediated via greater weight loss,” the authors wrote.

SOURCE:

The study, with first author Dror Dicker, MD, Hasharon Hospital, Rabin Medical Center, Petah Tikva, Israel, was published online in JAMA Network Open.

LIMITATIONS:

The observational design may have introduced residual confounding despite matching and multivariable adjustment. The analyses did not account for the types of BMS or GLP-1 RAs or the level of adherence to GLP-1 RA treatment. Information regarding cause of death was unavailable.

DISCLOSURES:

The study was funded by the Israel Science Foundation. Dicker reported financial relationships with Novo Nordisk, Eli Lilly, and Boehringer Ingelheim.

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

TOPLINE:

Bariatric metabolic surgery (BMS) offers a survival advantage over glucagon-like peptide 1 receptor agonists (GLP-1 RAs) in adults with obesity and diabetes for 10 years or less, which may be explained by greater weight loss with surgery, new research shows.

METHODOLOGY:

• There is limited evidence regarding the relative effectiveness of BMS and GLP-1 RAs in reducing mortality and major adverse cardiovascular events (MACE).
• This observational, retrospective cohort study analyzed the electronic medical records of Clalit Health Services, Israel’s largest healthcare organization.
• Researchers included patients aged 24 years or older who had diabetes and obesity but no prior cardiovascular disease and who either underwent BMS or received a GLP-1 RA.
• The primary outcome was all-cause mortality, assessed by multivariate Cox proportional hazards regression models. The secondary outcome was nonfatal MACE, assessed by multivariate competing risk models.

TAKEAWAY:

• Researchers included 3035 matched pairs of patients (total, 6070; mean age, 51 years; 65% women), who were followed for a median of 6.8 years.
• Among patients with diabetes for 10 years or less, those who underwent BMS had a 62% lower risk for mortality than those treated with a GLP-1 RA (hazard ratio [HR], 0.38).
• The survival advantage associated with BMS vs GLP-1 RA may be explained by the greater relative decrease in body mass index in the surgery group (–31.4% vs –12.8%, respectively).
• Among patients with diabetes for more than 10 years, no survival advantage was observed for BMS over GLP-1 RA (HR, 0.65), which may be explained by the adverse effects of prolonged diabetes duration masking the benefit associated with weight loss.
• The risk for nonfatal MACE did not differ significantly between the treatment groups in both diabetes duration categories.

IN PRACTICE:

“This study suggests that BMS was associated with greater reduced mortality compared with GLP-1 RAs among individuals with a diabetes duration of 10 years or less, mediated via greater weight loss,” the authors wrote.

SOURCE:

The study, with first author Dror Dicker, MD, Hasharon Hospital, Rabin Medical Center, Petah Tikva, Israel, was published online in JAMA Network Open.

LIMITATIONS:

The observational design may have introduced residual confounding despite matching and multivariable adjustment. The analyses did not account for the types of BMS or GLP-1 RAs or the level of adherence to GLP-1 RA treatment. Information regarding cause of death was unavailable.

DISCLOSURES:

The study was funded by the Israel Science Foundation. Dicker reported financial relationships with Novo Nordisk, Eli Lilly, and Boehringer Ingelheim.

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

TOPLINE:

Bariatric metabolic surgery (BMS) offers a survival advantage over glucagon-like peptide 1 receptor agonists (GLP-1 RAs) in adults with obesity and diabetes for 10 years or less, which may be explained by greater weight loss with surgery, new research shows.

METHODOLOGY:

• There is limited evidence regarding the relative effectiveness of BMS and GLP-1 RAs in reducing mortality and major adverse cardiovascular events (MACE).
• This observational, retrospective cohort study analyzed the electronic medical records of Clalit Health Services, Israel’s largest healthcare organization.
• Researchers included patients aged 24 years or older who had diabetes and obesity but no prior cardiovascular disease and who either underwent BMS or received a GLP-1 RA.
• The primary outcome was all-cause mortality, assessed by multivariate Cox proportional hazards regression models. The secondary outcome was nonfatal MACE, assessed by multivariate competing risk models.

TAKEAWAY:

• Researchers included 3035 matched pairs of patients (total, 6070; mean age, 51 years; 65% women), who were followed for a median of 6.8 years.
• Among patients with diabetes for 10 years or less, those who underwent BMS had a 62% lower risk for mortality than those treated with a GLP-1 RA (hazard ratio [HR], 0.38).
• The survival advantage associated with BMS vs GLP-1 RA may be explained by the greater relative decrease in body mass index in the surgery group (–31.4% vs –12.8%, respectively).
• Among patients with diabetes for more than 10 years, no survival advantage was observed for BMS over GLP-1 RA (HR, 0.65), which may be explained by the adverse effects of prolonged diabetes duration masking the benefit associated with weight loss.
• The risk for nonfatal MACE did not differ significantly between the treatment groups in both diabetes duration categories.

IN PRACTICE:

“This study suggests that BMS was associated with greater reduced mortality compared with GLP-1 RAs among individuals with a diabetes duration of 10 years or less, mediated via greater weight loss,” the authors wrote.

SOURCE:

The study, with first author Dror Dicker, MD, Hasharon Hospital, Rabin Medical Center, Petah Tikva, Israel, was published online in JAMA Network Open.

LIMITATIONS:

The observational design may have introduced residual confounding despite matching and multivariable adjustment. The analyses did not account for the types of BMS or GLP-1 RAs or the level of adherence to GLP-1 RA treatment. Information regarding cause of death was unavailable.

DISCLOSURES:

The study was funded by the Israel Science Foundation. Dicker reported financial relationships with Novo Nordisk, Eli Lilly, and Boehringer Ingelheim.

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

Overall, persons with schizophrenia are more likely than the general population to be overweight and have cardiovascular risk factors before starting treatment with antipsychotics, and such treatment generally worsens these measures. Weight gain and associated morbidity and mortality are common side effects of antipsychotic medications. Olanzapine is associated with significant weight gain of 7% or more, higher than other second-generation antipsychotics. Olanzapine treatment is the major contributor to this patient's additional weight gain over the past 2 years. This added weight has translated to excess wear and tear on her joints, leading to evidence of osteoarthritis. Treatment with olanzapine is also independently associated with detrimental changes in cardiometabolic parameters.

Interventions to prevent or mitigate weight gain with antipsychotics are limited. In general, the American Psychiatric Association does not recommend switching antipsychotics for patients whose schizophrenia is well managed. However, there is increasing evidence that metformin may have a role in mitigating weight gain as well as beneficially modifying cardiometabolic factors in patients with schizophrenia being treated with olanzapine. A systematic review of emerging evidence with metformin in patients with schizophrenia suggests that metformin may also improve some cognitive symptoms of the illness, although further research is needed. The randomized, double-blind MELIA trial of metformin plus lifestyle intervention in antipsychotic-induced weight gain is ongoing. Starting metformin as a preventive measure at the same time as antipsychotic therapy may help to limit excess weight gain. 

Research continues on the potential benefit of adding weight loss medications, including glucagon-like peptide-1 (GLP-1) receptor agonists, to antipsychotics. Daily liraglutide is most widely studied, but a published case series with weekly semaglutide also demonstrated weight loss in this setting. Liraglutide also has shown beneficial cardiometabolic effects in patients using antipsychotic medications. More studies of these drugs and of GLP-1/glucose-dependent insulinotropic polypeptide agonists are needed to elucidate the optimal use of these therapies for patients with schizophrenia.

There are few other effective ways to mitigate weight gain with olanzapine. Patients should be counseled on nutrition and lifestyle modifications. Evidence supports improvement with structured lifestyle modifications across a range of patients with less severe mental health issues, and structured programs combined with motivational interviewing were associated with reductions in antipsychotic-induced weight gain in patients with severe mental illness. As with any patient with obesity, however, the success of lifestyle modifications is heavily dependent on the individual's ability and motivation to comply with recommended interventions. 

Nonpharmacologic interventions to address joint pain include heat or cold compresses, physical therapy, and strength and resistance training to improve the strength of muscles supporting the joints. If these measures are ineffective, nonsteroidal anti-inflammatory drugs (NSAIDs), including ibuprofen, naproxen, meloxicam, diclofenac, or celecoxib may be used with regular follow-up to assess cardiovascular and gastrointestinal health. Topical NSAIDs also may be useful. For more intractable joint pain, options include injecting a corticosteroid or sodium hyaluronate into the affected joints or joint replacement. 

Carolyn Newbury, MD, Assistant Professor of Medicine, Director of GI Nutrition, Innovative Center for Health and Nutrition in Gastroenterology (ICHANGE), Division of Gastroenterology, Weill Cornell Medical Center, New York, NY.

Disclosure: Carolyn Newberry, MD, has disclosed the following relevant financial relationships:

Serve(d) as a speaker or a member of a speakers bureau for: Baster International; InBody.

Image Quizzes are fictional or fictionalized clinical scenarios intended to provide evidence-based educational takeaways.

Overall, persons with schizophrenia are more likely than the general population to be overweight and have cardiovascular risk factors before starting treatment with antipsychotics, and such treatment generally worsens these measures. Weight gain and associated morbidity and mortality are common side effects of antipsychotic medications. Olanzapine is associated with significant weight gain of 7% or more, higher than other second-generation antipsychotics. Olanzapine treatment is the major contributor to this patient's additional weight gain over the past 2 years. This added weight has translated to excess wear and tear on her joints, leading to evidence of osteoarthritis. Treatment with olanzapine is also independently associated with detrimental changes in cardiometabolic parameters.

Interventions to prevent or mitigate weight gain with antipsychotics are limited. In general, the American Psychiatric Association does not recommend switching antipsychotics for patients whose schizophrenia is well managed. However, there is increasing evidence that metformin may have a role in mitigating weight gain as well as beneficially modifying cardiometabolic factors in patients with schizophrenia being treated with olanzapine. A systematic review of emerging evidence with metformin in patients with schizophrenia suggests that metformin may also improve some cognitive symptoms of the illness, although further research is needed. The randomized, double-blind MELIA trial of metformin plus lifestyle intervention in antipsychotic-induced weight gain is ongoing. Starting metformin as a preventive measure at the same time as antipsychotic therapy may help to limit excess weight gain. 

Research continues on the potential benefit of adding weight loss medications, including glucagon-like peptide-1 (GLP-1) receptor agonists, to antipsychotics. Daily liraglutide is most widely studied, but a published case series with weekly semaglutide also demonstrated weight loss in this setting. Liraglutide also has shown beneficial cardiometabolic effects in patients using antipsychotic medications. More studies of these drugs and of GLP-1/glucose-dependent insulinotropic polypeptide agonists are needed to elucidate the optimal use of these therapies for patients with schizophrenia.

There are few other effective ways to mitigate weight gain with olanzapine. Patients should be counseled on nutrition and lifestyle modifications. Evidence supports improvement with structured lifestyle modifications across a range of patients with less severe mental health issues, and structured programs combined with motivational interviewing were associated with reductions in antipsychotic-induced weight gain in patients with severe mental illness. As with any patient with obesity, however, the success of lifestyle modifications is heavily dependent on the individual's ability and motivation to comply with recommended interventions. 

Nonpharmacologic interventions to address joint pain include heat or cold compresses, physical therapy, and strength and resistance training to improve the strength of muscles supporting the joints. If these measures are ineffective, nonsteroidal anti-inflammatory drugs (NSAIDs), including ibuprofen, naproxen, meloxicam, diclofenac, or celecoxib may be used with regular follow-up to assess cardiovascular and gastrointestinal health. Topical NSAIDs also may be useful. For more intractable joint pain, options include injecting a corticosteroid or sodium hyaluronate into the affected joints or joint replacement. 

Carolyn Newbury, MD, Assistant Professor of Medicine, Director of GI Nutrition, Innovative Center for Health and Nutrition in Gastroenterology (ICHANGE), Division of Gastroenterology, Weill Cornell Medical Center, New York, NY.

Disclosure: Carolyn Newberry, MD, has disclosed the following relevant financial relationships:

Serve(d) as a speaker or a member of a speakers bureau for: Baster International; InBody.

Image Quizzes are fictional or fictionalized clinical scenarios intended to provide evidence-based educational takeaways.

Overall, persons with schizophrenia are more likely than the general population to be overweight and have cardiovascular risk factors before starting treatment with antipsychotics, and such treatment generally worsens these measures. Weight gain and associated morbidity and mortality are common side effects of antipsychotic medications. Olanzapine is associated with significant weight gain of 7% or more, higher than other second-generation antipsychotics. Olanzapine treatment is the major contributor to this patient's additional weight gain over the past 2 years. This added weight has translated to excess wear and tear on her joints, leading to evidence of osteoarthritis. Treatment with olanzapine is also independently associated with detrimental changes in cardiometabolic parameters.

Interventions to prevent or mitigate weight gain with antipsychotics are limited. In general, the American Psychiatric Association does not recommend switching antipsychotics for patients whose schizophrenia is well managed. However, there is increasing evidence that metformin may have a role in mitigating weight gain as well as beneficially modifying cardiometabolic factors in patients with schizophrenia being treated with olanzapine. A systematic review of emerging evidence with metformin in patients with schizophrenia suggests that metformin may also improve some cognitive symptoms of the illness, although further research is needed. The randomized, double-blind MELIA trial of metformin plus lifestyle intervention in antipsychotic-induced weight gain is ongoing. Starting metformin as a preventive measure at the same time as antipsychotic therapy may help to limit excess weight gain. 

Research continues on the potential benefit of adding weight loss medications, including glucagon-like peptide-1 (GLP-1) receptor agonists, to antipsychotics. Daily liraglutide is most widely studied, but a published case series with weekly semaglutide also demonstrated weight loss in this setting. Liraglutide also has shown beneficial cardiometabolic effects in patients using antipsychotic medications. More studies of these drugs and of GLP-1/glucose-dependent insulinotropic polypeptide agonists are needed to elucidate the optimal use of these therapies for patients with schizophrenia.

There are few other effective ways to mitigate weight gain with olanzapine. Patients should be counseled on nutrition and lifestyle modifications. Evidence supports improvement with structured lifestyle modifications across a range of patients with less severe mental health issues, and structured programs combined with motivational interviewing were associated with reductions in antipsychotic-induced weight gain in patients with severe mental illness. As with any patient with obesity, however, the success of lifestyle modifications is heavily dependent on the individual's ability and motivation to comply with recommended interventions. 

Nonpharmacologic interventions to address joint pain include heat or cold compresses, physical therapy, and strength and resistance training to improve the strength of muscles supporting the joints. If these measures are ineffective, nonsteroidal anti-inflammatory drugs (NSAIDs), including ibuprofen, naproxen, meloxicam, diclofenac, or celecoxib may be used with regular follow-up to assess cardiovascular and gastrointestinal health. Topical NSAIDs also may be useful. For more intractable joint pain, options include injecting a corticosteroid or sodium hyaluronate into the affected joints or joint replacement. 

Carolyn Newbury, MD, Assistant Professor of Medicine, Director of GI Nutrition, Innovative Center for Health and Nutrition in Gastroenterology (ICHANGE), Division of Gastroenterology, Weill Cornell Medical Center, New York, NY.

Disclosure: Carolyn Newberry, MD, has disclosed the following relevant financial relationships:

Serve(d) as a speaker or a member of a speakers bureau for: Baster International; InBody.

Image Quizzes are fictional or fictionalized clinical scenarios intended to provide evidence-based educational takeaways.

The U.S. Preventive Services Task Force (USPSTF) is recommending that clinicians provide comprehensive, intensive behavioral interventions for children 6 years and older who have a high body mass index (BMI) at or above the 95th percentile (for age and sex) or refer those patients to an appropriate provider.

One in five children (19.7%) and adolescents ages 2-19 in the United States are at or above this range, based on Centers for Disease Control and Prevention growth charts from 2000, the task force wrote in its statement. The rate of BMI increase nearly doubled in this age group during the COVID pandemic, compared with prepandemic levels.

Publishing their recommendations in JAMA, the task force, with lead author Wanda K. Nicholson, MD, MPH, MBA, with the Milken Institute of Public Health, George Washington University, Washington, D.C., also noted that the prevalence of high BMI increases with age and rates are higher among children from lower-income families. Rates are also higher in Hispanic/Latino, Native American/Alaska Native and non-Hispanic Black children.
 

At Least 26 Hours of Interventions

It is important that children and adolescents 6 years or older with a high BMI receive intensive interventions for at least 26 contact hours for up to a year, as evidence showed that was the threshold for weight loss, the task force said.

Based on its evidence review, the USPSTF assigned this recommendation a B grade indicating “moderate certainty ... of moderate net benefit.” The task force analyzed 50 randomized clinical trials (RCTs) (n = 8,798) that examined behavioral interventions. They also analyzed eight trials that assessed pharmacotherapy interventions: liraglutide (three RCTs), semaglutide (one RCT), orlistat (two RCTs) and phentermine/topiramate (two RCTs). Five trials included behavioral counseling with the medication or placebo.

These new recommendations also reaffirm the task force’s 2010 and 2023 recommendations.

Effective interventions had multiple components. They included interventions targeting both the parent and child (separately, together or both); group sessions; information about healthy eating, information on reading food labels, and safe exercising; and interventions for encouraging behavioral changes, such as monitoring food intake and problem solving, changing physical activity behaviors, and goal setting.

These types of interventions are often delivered by multidisciplinary teams, including pediatricians, exercise physiologists or physical therapists, dietitians, psychologists, social workers, or other behavioral specialists.
 

Personalizing Treatment for Optimal Benefit

“The time to prevent and intervene on childhood obesity is now, and the need to start with ILT [intensive lifestyle therapy] is clear,” Roohi Y. Kharofa, MD, with the department of pediatrics, University of Cincinnati College of Medicine, Cincinnati, Ohio, and colleagues wrote in a related editorial.

However, the editorialists noted it will be important to personalize the level of interventions as ILT won’t be enough for some to prevent serious outcomes. For such patients, bariatric surgery or pharmacotherapy may need to be considered as well.
 

Ways to Reach the 26 Hours

Dr. Kharofa and coauthors pointed out that, while the threshold of at least 26 contact hours is associated with significant improvement in BMI (mean BMI difference, –0.8; 95% CI, –1.2 to –0.4), and while it’s important to now have an evidence-based threshold, the number may be disheartening given limits on clinicians, staff, and resources. The key may be prescribing physical activity sessions outside the health system.

For patients not interested in group sports or burdened by participation fees, collaboration with local community organizations, such as the YMCA or the Boys & Girls Club, could be arranged, the authors suggested.

“The inability to attain 26 hours should not deter patients or practitioners from participating in, referring to, or implementing obesity interventions. Rather, clinical teams and families should work together to maximize intervention dose using clinical and community programs synergistically,” they wrote.

They noted that the USPSTF in this 2024 update found “inadequate evidence on the benefits of pharmacotherapy in youth with obesity, encouraging clinicians to use ILT as the primary intervention.”
 

What About Medications?

New since the previous USPSTF review, several new medications have been approved for weight loss in pediatric populations, Elizabeth A. O’Connor, PhD, with The Center for Health Research, Kaiser Permanente Northwest, Portland, Oregon, and colleagues noted in their updated evidence report.

They noted that the 2023 Clinical Practice Guideline developed by the American Academy of Pediatrics states that clinicians “may offer children ages 8 through 11 years of age with obesity weight loss pharmacotherapy, according to medication indications, risks, and benefits, as an adjunct to health behavior and lifestyle treatment.”

However, Dr. O’Connor and coauthors wrote, the evidence base for each agent is limited and there is no information in the literature supporting their findings on harms of medication use beyond 17 months.

“For pharmacotherapy, when evidence was available on weight maintenance after discontinuation, weight rebounded quickly after medication use ended,” the authors wrote. “This suggests that long-term use is required for weight maintenance and underscores the need for evidence about potential harms from long-term use.”
 

Changes in Investment, Food, Government Priorities Are Needed

In a separate accompanying editorial, Thomas N. Robinson, MD, MPH, with Stanford University’s Center for Healthy Weight and General Pediatrics Department in Palo Alto, California, and Sarah C. Armstrong, MD, with the Duke Center for Childhood Obesity Research, Chapel Hill, North Carolina, wrote that experience to date has shown that current approaches aren’t working and, in fact, pediatric obesity rates are worsening.

“After nearly 15 years of authoritative, evidence-backed USPSTF recommendations for effective interventions for children with high BMI, it is long past time to implement them,” they wrote.

But changes will need to go far beyond clinicians’ offices and priorities must change at local, state, and federal levels, Dr. Robinson and Dr. Armstrong wrote. A shift in priorities is needed to make screening and behavioral interventions available to all children and teens with obesity.

Public policies, they wrote, must address larger issues, such as food content and availability of healthy foods, transportation innovations, and ways to make active lifestyles available equitably.

The authors said that strategies may include taxing sugary drinks, regulating marketing of unhealthful foods, crafting legislation to regulate the nutritional content of school meals, and creating policies to reduce poverty and address social drivers of health.

“A synergistic combination of effective clinical care, as recommended by the USPSTF, and public policy interventions is critically needed to turn the tide on childhood obesity,” Dr. Robinson and Dr. Armstrong wrote.

The full recommendation statement is available at the USPSTF website or the JAMA website.

One coauthor of the recommendation statement reported receiving publications and federal grand funding to his institution for the relationship between obesity and the potential effect of nutrition policy interventions on cardiovascular disease and cancer and for a meta-analysis of the effect of dietary counseling for weight loss. The authors of the evidence report had no relevant conflicts of interest. Dr. Kharofa reported receiving grants from Rhythm Pharmaceuticals outside the submitted work. Dr. Robinson has served on the scientific advisory board of WW International (through December 2022). Dr. Armstrong has served as chair of the Section on Obesity, American Academy of Pediatrics; and is a coauthor of the Clinical Practice Guidelines for the Evaluation and Treatment of Children and Adolescents with Obesity.
 

The U.S. Preventive Services Task Force (USPSTF) is recommending that clinicians provide comprehensive, intensive behavioral interventions for children 6 years and older who have a high body mass index (BMI) at or above the 95th percentile (for age and sex) or refer those patients to an appropriate provider.

One in five children (19.7%) and adolescents ages 2-19 in the United States are at or above this range, based on Centers for Disease Control and Prevention growth charts from 2000, the task force wrote in its statement. The rate of BMI increase nearly doubled in this age group during the COVID pandemic, compared with prepandemic levels.

Publishing their recommendations in JAMA, the task force, with lead author Wanda K. Nicholson, MD, MPH, MBA, with the Milken Institute of Public Health, George Washington University, Washington, D.C., also noted that the prevalence of high BMI increases with age and rates are higher among children from lower-income families. Rates are also higher in Hispanic/Latino, Native American/Alaska Native and non-Hispanic Black children.
 

At Least 26 Hours of Interventions

It is important that children and adolescents 6 years or older with a high BMI receive intensive interventions for at least 26 contact hours for up to a year, as evidence showed that was the threshold for weight loss, the task force said.

Based on its evidence review, the USPSTF assigned this recommendation a B grade indicating “moderate certainty ... of moderate net benefit.” The task force analyzed 50 randomized clinical trials (RCTs) (n = 8,798) that examined behavioral interventions. They also analyzed eight trials that assessed pharmacotherapy interventions: liraglutide (three RCTs), semaglutide (one RCT), orlistat (two RCTs) and phentermine/topiramate (two RCTs). Five trials included behavioral counseling with the medication or placebo.

These new recommendations also reaffirm the task force’s 2010 and 2023 recommendations.

Effective interventions had multiple components. They included interventions targeting both the parent and child (separately, together or both); group sessions; information about healthy eating, information on reading food labels, and safe exercising; and interventions for encouraging behavioral changes, such as monitoring food intake and problem solving, changing physical activity behaviors, and goal setting.

These types of interventions are often delivered by multidisciplinary teams, including pediatricians, exercise physiologists or physical therapists, dietitians, psychologists, social workers, or other behavioral specialists.
 

Personalizing Treatment for Optimal Benefit

“The time to prevent and intervene on childhood obesity is now, and the need to start with ILT [intensive lifestyle therapy] is clear,” Roohi Y. Kharofa, MD, with the department of pediatrics, University of Cincinnati College of Medicine, Cincinnati, Ohio, and colleagues wrote in a related editorial.

However, the editorialists noted it will be important to personalize the level of interventions as ILT won’t be enough for some to prevent serious outcomes. For such patients, bariatric surgery or pharmacotherapy may need to be considered as well.
 

Ways to Reach the 26 Hours

Dr. Kharofa and coauthors pointed out that, while the threshold of at least 26 contact hours is associated with significant improvement in BMI (mean BMI difference, –0.8; 95% CI, –1.2 to –0.4), and while it’s important to now have an evidence-based threshold, the number may be disheartening given limits on clinicians, staff, and resources. The key may be prescribing physical activity sessions outside the health system.

For patients not interested in group sports or burdened by participation fees, collaboration with local community organizations, such as the YMCA or the Boys & Girls Club, could be arranged, the authors suggested.

“The inability to attain 26 hours should not deter patients or practitioners from participating in, referring to, or implementing obesity interventions. Rather, clinical teams and families should work together to maximize intervention dose using clinical and community programs synergistically,” they wrote.

They noted that the USPSTF in this 2024 update found “inadequate evidence on the benefits of pharmacotherapy in youth with obesity, encouraging clinicians to use ILT as the primary intervention.”
 

What About Medications?

New since the previous USPSTF review, several new medications have been approved for weight loss in pediatric populations, Elizabeth A. O’Connor, PhD, with The Center for Health Research, Kaiser Permanente Northwest, Portland, Oregon, and colleagues noted in their updated evidence report.

They noted that the 2023 Clinical Practice Guideline developed by the American Academy of Pediatrics states that clinicians “may offer children ages 8 through 11 years of age with obesity weight loss pharmacotherapy, according to medication indications, risks, and benefits, as an adjunct to health behavior and lifestyle treatment.”

However, Dr. O’Connor and coauthors wrote, the evidence base for each agent is limited and there is no information in the literature supporting their findings on harms of medication use beyond 17 months.

“For pharmacotherapy, when evidence was available on weight maintenance after discontinuation, weight rebounded quickly after medication use ended,” the authors wrote. “This suggests that long-term use is required for weight maintenance and underscores the need for evidence about potential harms from long-term use.”
 

Changes in Investment, Food, Government Priorities Are Needed

In a separate accompanying editorial, Thomas N. Robinson, MD, MPH, with Stanford University’s Center for Healthy Weight and General Pediatrics Department in Palo Alto, California, and Sarah C. Armstrong, MD, with the Duke Center for Childhood Obesity Research, Chapel Hill, North Carolina, wrote that experience to date has shown that current approaches aren’t working and, in fact, pediatric obesity rates are worsening.

“After nearly 15 years of authoritative, evidence-backed USPSTF recommendations for effective interventions for children with high BMI, it is long past time to implement them,” they wrote.

But changes will need to go far beyond clinicians’ offices and priorities must change at local, state, and federal levels, Dr. Robinson and Dr. Armstrong wrote. A shift in priorities is needed to make screening and behavioral interventions available to all children and teens with obesity.

Public policies, they wrote, must address larger issues, such as food content and availability of healthy foods, transportation innovations, and ways to make active lifestyles available equitably.

The authors said that strategies may include taxing sugary drinks, regulating marketing of unhealthful foods, crafting legislation to regulate the nutritional content of school meals, and creating policies to reduce poverty and address social drivers of health.

“A synergistic combination of effective clinical care, as recommended by the USPSTF, and public policy interventions is critically needed to turn the tide on childhood obesity,” Dr. Robinson and Dr. Armstrong wrote.

The full recommendation statement is available at the USPSTF website or the JAMA website.

One coauthor of the recommendation statement reported receiving publications and federal grand funding to his institution for the relationship between obesity and the potential effect of nutrition policy interventions on cardiovascular disease and cancer and for a meta-analysis of the effect of dietary counseling for weight loss. The authors of the evidence report had no relevant conflicts of interest. Dr. Kharofa reported receiving grants from Rhythm Pharmaceuticals outside the submitted work. Dr. Robinson has served on the scientific advisory board of WW International (through December 2022). Dr. Armstrong has served as chair of the Section on Obesity, American Academy of Pediatrics; and is a coauthor of the Clinical Practice Guidelines for the Evaluation and Treatment of Children and Adolescents with Obesity.
 

The U.S. Preventive Services Task Force (USPSTF) is recommending that clinicians provide comprehensive, intensive behavioral interventions for children 6 years and older who have a high body mass index (BMI) at or above the 95th percentile (for age and sex) or refer those patients to an appropriate provider.

One in five children (19.7%) and adolescents ages 2-19 in the United States are at or above this range, based on Centers for Disease Control and Prevention growth charts from 2000, the task force wrote in its statement. The rate of BMI increase nearly doubled in this age group during the COVID pandemic, compared with prepandemic levels.

Publishing their recommendations in JAMA, the task force, with lead author Wanda K. Nicholson, MD, MPH, MBA, with the Milken Institute of Public Health, George Washington University, Washington, D.C., also noted that the prevalence of high BMI increases with age and rates are higher among children from lower-income families. Rates are also higher in Hispanic/Latino, Native American/Alaska Native and non-Hispanic Black children.
 

At Least 26 Hours of Interventions

It is important that children and adolescents 6 years or older with a high BMI receive intensive interventions for at least 26 contact hours for up to a year, as evidence showed that was the threshold for weight loss, the task force said.

Based on its evidence review, the USPSTF assigned this recommendation a B grade indicating “moderate certainty ... of moderate net benefit.” The task force analyzed 50 randomized clinical trials (RCTs) (n = 8,798) that examined behavioral interventions. They also analyzed eight trials that assessed pharmacotherapy interventions: liraglutide (three RCTs), semaglutide (one RCT), orlistat (two RCTs) and phentermine/topiramate (two RCTs). Five trials included behavioral counseling with the medication or placebo.

These new recommendations also reaffirm the task force’s 2010 and 2023 recommendations.

Effective interventions had multiple components. They included interventions targeting both the parent and child (separately, together or both); group sessions; information about healthy eating, information on reading food labels, and safe exercising; and interventions for encouraging behavioral changes, such as monitoring food intake and problem solving, changing physical activity behaviors, and goal setting.

These types of interventions are often delivered by multidisciplinary teams, including pediatricians, exercise physiologists or physical therapists, dietitians, psychologists, social workers, or other behavioral specialists.
 

Personalizing Treatment for Optimal Benefit

“The time to prevent and intervene on childhood obesity is now, and the need to start with ILT [intensive lifestyle therapy] is clear,” Roohi Y. Kharofa, MD, with the department of pediatrics, University of Cincinnati College of Medicine, Cincinnati, Ohio, and colleagues wrote in a related editorial.

However, the editorialists noted it will be important to personalize the level of interventions as ILT won’t be enough for some to prevent serious outcomes. For such patients, bariatric surgery or pharmacotherapy may need to be considered as well.
 

Ways to Reach the 26 Hours

Dr. Kharofa and coauthors pointed out that, while the threshold of at least 26 contact hours is associated with significant improvement in BMI (mean BMI difference, –0.8; 95% CI, –1.2 to –0.4), and while it’s important to now have an evidence-based threshold, the number may be disheartening given limits on clinicians, staff, and resources. The key may be prescribing physical activity sessions outside the health system.

For patients not interested in group sports or burdened by participation fees, collaboration with local community organizations, such as the YMCA or the Boys & Girls Club, could be arranged, the authors suggested.

“The inability to attain 26 hours should not deter patients or practitioners from participating in, referring to, or implementing obesity interventions. Rather, clinical teams and families should work together to maximize intervention dose using clinical and community programs synergistically,” they wrote.

They noted that the USPSTF in this 2024 update found “inadequate evidence on the benefits of pharmacotherapy in youth with obesity, encouraging clinicians to use ILT as the primary intervention.”
 

What About Medications?

New since the previous USPSTF review, several new medications have been approved for weight loss in pediatric populations, Elizabeth A. O’Connor, PhD, with The Center for Health Research, Kaiser Permanente Northwest, Portland, Oregon, and colleagues noted in their updated evidence report.

They noted that the 2023 Clinical Practice Guideline developed by the American Academy of Pediatrics states that clinicians “may offer children ages 8 through 11 years of age with obesity weight loss pharmacotherapy, according to medication indications, risks, and benefits, as an adjunct to health behavior and lifestyle treatment.”

However, Dr. O’Connor and coauthors wrote, the evidence base for each agent is limited and there is no information in the literature supporting their findings on harms of medication use beyond 17 months.

“For pharmacotherapy, when evidence was available on weight maintenance after discontinuation, weight rebounded quickly after medication use ended,” the authors wrote. “This suggests that long-term use is required for weight maintenance and underscores the need for evidence about potential harms from long-term use.”
 

Changes in Investment, Food, Government Priorities Are Needed

In a separate accompanying editorial, Thomas N. Robinson, MD, MPH, with Stanford University’s Center for Healthy Weight and General Pediatrics Department in Palo Alto, California, and Sarah C. Armstrong, MD, with the Duke Center for Childhood Obesity Research, Chapel Hill, North Carolina, wrote that experience to date has shown that current approaches aren’t working and, in fact, pediatric obesity rates are worsening.

“After nearly 15 years of authoritative, evidence-backed USPSTF recommendations for effective interventions for children with high BMI, it is long past time to implement them,” they wrote.

But changes will need to go far beyond clinicians’ offices and priorities must change at local, state, and federal levels, Dr. Robinson and Dr. Armstrong wrote. A shift in priorities is needed to make screening and behavioral interventions available to all children and teens with obesity.

Public policies, they wrote, must address larger issues, such as food content and availability of healthy foods, transportation innovations, and ways to make active lifestyles available equitably.

The authors said that strategies may include taxing sugary drinks, regulating marketing of unhealthful foods, crafting legislation to regulate the nutritional content of school meals, and creating policies to reduce poverty and address social drivers of health.

“A synergistic combination of effective clinical care, as recommended by the USPSTF, and public policy interventions is critically needed to turn the tide on childhood obesity,” Dr. Robinson and Dr. Armstrong wrote.

The full recommendation statement is available at the USPSTF website or the JAMA website.

One coauthor of the recommendation statement reported receiving publications and federal grand funding to his institution for the relationship between obesity and the potential effect of nutrition policy interventions on cardiovascular disease and cancer and for a meta-analysis of the effect of dietary counseling for weight loss. The authors of the evidence report had no relevant conflicts of interest. Dr. Kharofa reported receiving grants from Rhythm Pharmaceuticals outside the submitted work. Dr. Robinson has served on the scientific advisory board of WW International (through December 2022). Dr. Armstrong has served as chair of the Section on Obesity, American Academy of Pediatrics; and is a coauthor of the Clinical Practice Guidelines for the Evaluation and Treatment of Children and Adolescents with Obesity.
 

Among stroke survivors with diabetes or obesity, glucagon-like peptide-1 receptor agonists (GLP-1 RAs) reduced secondary stroke risk by up to 16%, according to authors of a recent meta-analysis. With benefits across administration routes, dosing regimens, type 2 diabetes status, and total and nonfatal strokes, the findings could improve GLP-1 RA implementation by stroke specialists in patients with stroke history and concurrent type 2 diabetes or obesity, authors said. The study was published online in the International Journal of Stoke.

Extending Longevity

Agents including GLP-1 RAs that have been found to reduce cardiovascular events among patients with type 2 diabetes and patients who are overweight or obese also reduce risk of recurrent stroke among patients with a history of stroke who are overweight, obese, or have metabolic disease, said American Heart Association (AHA) Chief Clinical Science Officer Mitchell S. V. Elkind, MD, who was not involved with the study but was asked to comment.

“Stroke is a leading cause of mortality and the leading cause of serious long-term disability,” he added, “so medications that help to reduce that risk can play an important role in improving overall health and well-being and hopefully reducing premature mortality.”

Investigators Anastasia Adamou, MD, an internal medicine resident at AHEPA University Hospital in Thessaloniki, Greece, and colleagues searched MEDLINE and Scopus for cardiovascular outcome trials involving adults randomly assigned to GLP-1 RAs or placebo through November 2023, ultimately analyzing 11 randomized controlled trials (RCTs).

Among 60,380 participants in the nine studies that assessed total strokes, 2.5% of the GLP-1 RA group experienced strokes during follow-up, versus 3% in the placebo group (relative risk [RR] 0.85, 95% confidence interval [CI] 0.77-0.93). Regarding secondary outcomes, the GLP-1 RA group showed a significantly lower rate of nonfatal strokes versus patients on placebo (RR 0.87, 95% CI 0.79-0.95). Conversely, investigators observed no significant risk difference among the groups regarding fatal strokes, probably due to the low rate of events — 0.3% and 0.4% for treated and untreated patients, respectively.

Subgroup analyses revealed no interaction between dosing frequency and total, nonfatal, or fatal strokes. The investigators observed no difference in nonfatal strokes among participants by type 2 diabetes status and medication administration route (oral versus subcutaneous).

“The oral administration route could provide the advantage of lower local ecchymoses and allergic reactions due to subcutaneous infusions,” Dr. Adamou said in an interview. But because oral administration demands daily intake, she added, treatment adherence might be affected. “For this reason, our team performed another subgroup analysis to compare the once-a-day to the once-a-month administration. No interaction effect was again presented between the two subgroups. This outcome allows for personalization of the administration method for each patient.”

Addressing Underutilization

Despite more than 2 decades of widespread use and well-established effects on body weight, HbA1c, and cardiovascular risk, GLP-1 RAs remain underutilized, authors wrote. This is especially true in primary care, noted one study published in Clinical Diabetes.

“GLP-1 RAs have been used for many years to treat diabetic patients,” said Dr. Adamou. But because their impact on cardiovascular health regardless of diabetic status is only recently known, she said, physicians are exercising caution when prescribing this medication to patients without diabetes. “This is why more studies need to be available, especially RCTs.”

Most neurologists traditionally have left management of type 2 diabetes and other metabolic disorders to primary care doctors, said Dr. Elkind. “However, these medications are increasingly important to vascular risk reduction and should be considered part of the stroke specialist’s armamentarium.”

Vascular neurologists can play an important role in managing metabolic disease and obesity by recommending GLP-1 RAs for patients with a history of stroke, or by initiating these medications themselves, Dr. Elkind said. “These drugs are likely to become an important part of stroke patients’ medication regimens, along with antithrombotic agents, blood pressure control, and statins. Neurologists are well-positioned to educate other physicians about the important connections among brain, heart, and metabolic health.”

To that end, he said, the AHA will update guidelines for both primary and secondary stroke prevention as warranted by evidence supporting GLP-1 RAs and other medications that could impact stroke risk in type 2 diabetes and related metabolic disorders. However, no guidelines concerning use of GLP-1 RAs for secondary stroke prevention in obesity exist. Here, said Dr. Elkind, the AHA will continue building on its innovative Cardiovascular-Kidney Metabolic Health program, which includes clinical suggestions and may include more formal clinical practice guidelines as the evidence evolves.

Among the main drivers of the initiative, he said, is the recognition that cardiovascular disease — including stroke — is the major cause of death and morbidity among patients with obesity, type 2 diabetes, and metabolic disorders. “Stroke should be considered an important part of overall cardiovascular risk, and the findings that these drugs can help to reduce the risk of stroke specifically is an important additional reason for their use.”

Dr. Elkind and Dr. Adamou reported no conflicting interests. The authors received no financial support for the study.

Among stroke survivors with diabetes or obesity, glucagon-like peptide-1 receptor agonists (GLP-1 RAs) reduced secondary stroke risk by up to 16%, according to authors of a recent meta-analysis. With benefits across administration routes, dosing regimens, type 2 diabetes status, and total and nonfatal strokes, the findings could improve GLP-1 RA implementation by stroke specialists in patients with stroke history and concurrent type 2 diabetes or obesity, authors said. The study was published online in the International Journal of Stoke.

Extending Longevity

Agents including GLP-1 RAs that have been found to reduce cardiovascular events among patients with type 2 diabetes and patients who are overweight or obese also reduce risk of recurrent stroke among patients with a history of stroke who are overweight, obese, or have metabolic disease, said American Heart Association (AHA) Chief Clinical Science Officer Mitchell S. V. Elkind, MD, who was not involved with the study but was asked to comment.

“Stroke is a leading cause of mortality and the leading cause of serious long-term disability,” he added, “so medications that help to reduce that risk can play an important role in improving overall health and well-being and hopefully reducing premature mortality.”

Investigators Anastasia Adamou, MD, an internal medicine resident at AHEPA University Hospital in Thessaloniki, Greece, and colleagues searched MEDLINE and Scopus for cardiovascular outcome trials involving adults randomly assigned to GLP-1 RAs or placebo through November 2023, ultimately analyzing 11 randomized controlled trials (RCTs).

Among 60,380 participants in the nine studies that assessed total strokes, 2.5% of the GLP-1 RA group experienced strokes during follow-up, versus 3% in the placebo group (relative risk [RR] 0.85, 95% confidence interval [CI] 0.77-0.93). Regarding secondary outcomes, the GLP-1 RA group showed a significantly lower rate of nonfatal strokes versus patients on placebo (RR 0.87, 95% CI 0.79-0.95). Conversely, investigators observed no significant risk difference among the groups regarding fatal strokes, probably due to the low rate of events — 0.3% and 0.4% for treated and untreated patients, respectively.

Subgroup analyses revealed no interaction between dosing frequency and total, nonfatal, or fatal strokes. The investigators observed no difference in nonfatal strokes among participants by type 2 diabetes status and medication administration route (oral versus subcutaneous).

“The oral administration route could provide the advantage of lower local ecchymoses and allergic reactions due to subcutaneous infusions,” Dr. Adamou said in an interview. But because oral administration demands daily intake, she added, treatment adherence might be affected. “For this reason, our team performed another subgroup analysis to compare the once-a-day to the once-a-month administration. No interaction effect was again presented between the two subgroups. This outcome allows for personalization of the administration method for each patient.”

Addressing Underutilization

Despite more than 2 decades of widespread use and well-established effects on body weight, HbA1c, and cardiovascular risk, GLP-1 RAs remain underutilized, authors wrote. This is especially true in primary care, noted one study published in Clinical Diabetes.

“GLP-1 RAs have been used for many years to treat diabetic patients,” said Dr. Adamou. But because their impact on cardiovascular health regardless of diabetic status is only recently known, she said, physicians are exercising caution when prescribing this medication to patients without diabetes. “This is why more studies need to be available, especially RCTs.”

Most neurologists traditionally have left management of type 2 diabetes and other metabolic disorders to primary care doctors, said Dr. Elkind. “However, these medications are increasingly important to vascular risk reduction and should be considered part of the stroke specialist’s armamentarium.”

Vascular neurologists can play an important role in managing metabolic disease and obesity by recommending GLP-1 RAs for patients with a history of stroke, or by initiating these medications themselves, Dr. Elkind said. “These drugs are likely to become an important part of stroke patients’ medication regimens, along with antithrombotic agents, blood pressure control, and statins. Neurologists are well-positioned to educate other physicians about the important connections among brain, heart, and metabolic health.”

To that end, he said, the AHA will update guidelines for both primary and secondary stroke prevention as warranted by evidence supporting GLP-1 RAs and other medications that could impact stroke risk in type 2 diabetes and related metabolic disorders. However, no guidelines concerning use of GLP-1 RAs for secondary stroke prevention in obesity exist. Here, said Dr. Elkind, the AHA will continue building on its innovative Cardiovascular-Kidney Metabolic Health program, which includes clinical suggestions and may include more formal clinical practice guidelines as the evidence evolves.

Among the main drivers of the initiative, he said, is the recognition that cardiovascular disease — including stroke — is the major cause of death and morbidity among patients with obesity, type 2 diabetes, and metabolic disorders. “Stroke should be considered an important part of overall cardiovascular risk, and the findings that these drugs can help to reduce the risk of stroke specifically is an important additional reason for their use.”

Dr. Elkind and Dr. Adamou reported no conflicting interests. The authors received no financial support for the study.

Among stroke survivors with diabetes or obesity, glucagon-like peptide-1 receptor agonists (GLP-1 RAs) reduced secondary stroke risk by up to 16%, according to authors of a recent meta-analysis. With benefits across administration routes, dosing regimens, type 2 diabetes status, and total and nonfatal strokes, the findings could improve GLP-1 RA implementation by stroke specialists in patients with stroke history and concurrent type 2 diabetes or obesity, authors said. The study was published online in the International Journal of Stoke.

Extending Longevity

Agents including GLP-1 RAs that have been found to reduce cardiovascular events among patients with type 2 diabetes and patients who are overweight or obese also reduce risk of recurrent stroke among patients with a history of stroke who are overweight, obese, or have metabolic disease, said American Heart Association (AHA) Chief Clinical Science Officer Mitchell S. V. Elkind, MD, who was not involved with the study but was asked to comment.

“Stroke is a leading cause of mortality and the leading cause of serious long-term disability,” he added, “so medications that help to reduce that risk can play an important role in improving overall health and well-being and hopefully reducing premature mortality.”

Investigators Anastasia Adamou, MD, an internal medicine resident at AHEPA University Hospital in Thessaloniki, Greece, and colleagues searched MEDLINE and Scopus for cardiovascular outcome trials involving adults randomly assigned to GLP-1 RAs or placebo through November 2023, ultimately analyzing 11 randomized controlled trials (RCTs).

Among 60,380 participants in the nine studies that assessed total strokes, 2.5% of the GLP-1 RA group experienced strokes during follow-up, versus 3% in the placebo group (relative risk [RR] 0.85, 95% confidence interval [CI] 0.77-0.93). Regarding secondary outcomes, the GLP-1 RA group showed a significantly lower rate of nonfatal strokes versus patients on placebo (RR 0.87, 95% CI 0.79-0.95). Conversely, investigators observed no significant risk difference among the groups regarding fatal strokes, probably due to the low rate of events — 0.3% and 0.4% for treated and untreated patients, respectively.

Subgroup analyses revealed no interaction between dosing frequency and total, nonfatal, or fatal strokes. The investigators observed no difference in nonfatal strokes among participants by type 2 diabetes status and medication administration route (oral versus subcutaneous).

“The oral administration route could provide the advantage of lower local ecchymoses and allergic reactions due to subcutaneous infusions,” Dr. Adamou said in an interview. But because oral administration demands daily intake, she added, treatment adherence might be affected. “For this reason, our team performed another subgroup analysis to compare the once-a-day to the once-a-month administration. No interaction effect was again presented between the two subgroups. This outcome allows for personalization of the administration method for each patient.”

Addressing Underutilization

Despite more than 2 decades of widespread use and well-established effects on body weight, HbA1c, and cardiovascular risk, GLP-1 RAs remain underutilized, authors wrote. This is especially true in primary care, noted one study published in Clinical Diabetes.

“GLP-1 RAs have been used for many years to treat diabetic patients,” said Dr. Adamou. But because their impact on cardiovascular health regardless of diabetic status is only recently known, she said, physicians are exercising caution when prescribing this medication to patients without diabetes. “This is why more studies need to be available, especially RCTs.”

Most neurologists traditionally have left management of type 2 diabetes and other metabolic disorders to primary care doctors, said Dr. Elkind. “However, these medications are increasingly important to vascular risk reduction and should be considered part of the stroke specialist’s armamentarium.”

Vascular neurologists can play an important role in managing metabolic disease and obesity by recommending GLP-1 RAs for patients with a history of stroke, or by initiating these medications themselves, Dr. Elkind said. “These drugs are likely to become an important part of stroke patients’ medication regimens, along with antithrombotic agents, blood pressure control, and statins. Neurologists are well-positioned to educate other physicians about the important connections among brain, heart, and metabolic health.”

To that end, he said, the AHA will update guidelines for both primary and secondary stroke prevention as warranted by evidence supporting GLP-1 RAs and other medications that could impact stroke risk in type 2 diabetes and related metabolic disorders. However, no guidelines concerning use of GLP-1 RAs for secondary stroke prevention in obesity exist. Here, said Dr. Elkind, the AHA will continue building on its innovative Cardiovascular-Kidney Metabolic Health program, which includes clinical suggestions and may include more formal clinical practice guidelines as the evidence evolves.

Among the main drivers of the initiative, he said, is the recognition that cardiovascular disease — including stroke — is the major cause of death and morbidity among patients with obesity, type 2 diabetes, and metabolic disorders. “Stroke should be considered an important part of overall cardiovascular risk, and the findings that these drugs can help to reduce the risk of stroke specifically is an important additional reason for their use.”

Dr. Elkind and Dr. Adamou reported no conflicting interests. The authors received no financial support for the study.

High levels of xylitol, a low-calorie sweetener used in many reduced-sugar foods as well as gum and toothpaste, are linked to an increased risk of heart attacks, strokes, and death, says a new study published in the European Heart Journal.

The research team studied more than 3000 people in the US and Europe over 3 years and found that people with the highest amount of xylitol in their plasma were more likely to have a problem with their heart or blood vessels.

To show the early effects of xylitol, researchers studied platelet activity in volunteers who consumed a xylitol-sweetened drink and a glucose-sweetened drink. The xylitol levels went up by 1000 times in people after the xylitol drink but not after the glucose-sweetened drink.

Xylitol is naturally found in small amounts in fruit and vegetables, and it’s been used more as a sugar substitute over the past decade in processed foods, toothpaste, chewing gum, and other products.

“This study again shows the immediate need for investigating sugar alcohols and artificial sweeteners, especially as they continue to be recommended in combating conditions like obesity or diabetes,” Stanley Hazen, MD, chair of the Department of Cardiovascular and Metabolic Sciences at Cleveland Clinic’s Lerner Research Institute, Cleveland, Ohio, said in a news release.

“It does not mean throw out your toothpaste if it has xylitol in it, but we should be aware that consumption of a product containing high levels could increase the risk of blood clot-related events.”

A similar link between erythritol, another sugar substance, and problems with the heart and blood vessels was found last year by the same research team, the release said.

In a response to the study, the Calorie Control Council, a trade association representing the low- and reduced-calorie food and beverage industry, said xylitol has been approved for decades by government agencies. The study results may not apply to the general population because some people in the study already had a higher risk of having problems with their heart and blood vessels, it said.

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

High levels of xylitol, a low-calorie sweetener used in many reduced-sugar foods as well as gum and toothpaste, are linked to an increased risk of heart attacks, strokes, and death, says a new study published in the European Heart Journal.

The research team studied more than 3000 people in the US and Europe over 3 years and found that people with the highest amount of xylitol in their plasma were more likely to have a problem with their heart or blood vessels.

To show the early effects of xylitol, researchers studied platelet activity in volunteers who consumed a xylitol-sweetened drink and a glucose-sweetened drink. The xylitol levels went up by 1000 times in people after the xylitol drink but not after the glucose-sweetened drink.

Xylitol is naturally found in small amounts in fruit and vegetables, and it’s been used more as a sugar substitute over the past decade in processed foods, toothpaste, chewing gum, and other products.

“This study again shows the immediate need for investigating sugar alcohols and artificial sweeteners, especially as they continue to be recommended in combating conditions like obesity or diabetes,” Stanley Hazen, MD, chair of the Department of Cardiovascular and Metabolic Sciences at Cleveland Clinic’s Lerner Research Institute, Cleveland, Ohio, said in a news release.

“It does not mean throw out your toothpaste if it has xylitol in it, but we should be aware that consumption of a product containing high levels could increase the risk of blood clot-related events.”

A similar link between erythritol, another sugar substance, and problems with the heart and blood vessels was found last year by the same research team, the release said.

In a response to the study, the Calorie Control Council, a trade association representing the low- and reduced-calorie food and beverage industry, said xylitol has been approved for decades by government agencies. The study results may not apply to the general population because some people in the study already had a higher risk of having problems with their heart and blood vessels, it said.

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

High levels of xylitol, a low-calorie sweetener used in many reduced-sugar foods as well as gum and toothpaste, are linked to an increased risk of heart attacks, strokes, and death, says a new study published in the European Heart Journal.

The research team studied more than 3000 people in the US and Europe over 3 years and found that people with the highest amount of xylitol in their plasma were more likely to have a problem with their heart or blood vessels.

To show the early effects of xylitol, researchers studied platelet activity in volunteers who consumed a xylitol-sweetened drink and a glucose-sweetened drink. The xylitol levels went up by 1000 times in people after the xylitol drink but not after the glucose-sweetened drink.

Xylitol is naturally found in small amounts in fruit and vegetables, and it’s been used more as a sugar substitute over the past decade in processed foods, toothpaste, chewing gum, and other products.

“This study again shows the immediate need for investigating sugar alcohols and artificial sweeteners, especially as they continue to be recommended in combating conditions like obesity or diabetes,” Stanley Hazen, MD, chair of the Department of Cardiovascular and Metabolic Sciences at Cleveland Clinic’s Lerner Research Institute, Cleveland, Ohio, said in a news release.

“It does not mean throw out your toothpaste if it has xylitol in it, but we should be aware that consumption of a product containing high levels could increase the risk of blood clot-related events.”

A similar link between erythritol, another sugar substance, and problems with the heart and blood vessels was found last year by the same research team, the release said.

In a response to the study, the Calorie Control Council, a trade association representing the low- and reduced-calorie food and beverage industry, said xylitol has been approved for decades by government agencies. The study results may not apply to the general population because some people in the study already had a higher risk of having problems with their heart and blood vessels, it said.

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

BOSTON — The prevalence of Cushing syndrome (CS) in the United States may be considerably higher than currently appreciated, new data from a single US institution suggest. 

In contrast to estimates of 1 to 3 cases per million patient-years from population-based European studies, researchers at the University of Wisconsin, Milwaukee, estimated that the incidence of CS in Wisconsin is a minimum of 7.2 cases per million patient-years. What’s more, contrary to all previous studies, they found that adrenal Cushing syndrome was more common than pituitary adrenocorticotropic hormone (ACTH)–secreting tumors (Cushing disease), and that fewer than half of individuals with adrenal Cushing syndrome had classic physical features of hypercortisolism, such as weight gain, round face, excessive hair growth, and stretch marks.

“Cases are absolutely being missed. ... Clinicians should realize that cortisol excess is not rare. It may not be common, but it needs to be considered in patients with any constellation of features that are seen in cortisol excess,” study investigator Ty B. Carroll, MD, associate professor of medicine, endocrinology and molecular medicine, and the endocrine fellowship program director at Medical College of Wisconsin in Milwaukee, told this news organization. 

There are several contributing factors, he noted, “including the obesity and diabetes epidemics which make some clinical features of cortisol excess more common and less notable. Providers get used to seeing patients with some features of cortisol excess and don’t think to screen. The consequence of this is more difficult-to-control diabetes and hypertension, more advance metabolic bone disease, and likely more advanced cardiovascular disease, all resulting from extended exposure to cortisol excess,” he said.

 

Are Milder Cases the Ones Being Missed?

Asked to comment, session moderator Sharon L. Wardlaw, MD, professor of medicine at Columbia University College of Physicians and Surgeons, New York City, said, “When we talk about Cushing [syndrome], we usually think of pituitary ACTH as more [common], followed by adrenal adenomas, and then ectopic. But they’re seeing more adrenal adenoma ... we are probably diagnosing this a little more now.”

She also suggested that the Wisconsin group may have a lower threshold for diagnosing the milder cortisol elevation seen with adrenal Cushing syndrome. “If you screen for Cushing with a dexamethasone suppression test … [i]f you have autonomous secretion by the adrenal, you don’t suppress as much. ... When you measure 24-hour urinary cortisol, it may be normal. So you’re in this in-between [state]. ... Maybe in Wisconsin they’re diagnosing it more. Or, maybe it’s just being underdiagnosed in other places.” 

She also pointed out that “you can’t diagnose it unless you think of it. I’m not so sure that with these mild cases it’s so much that it’s more common, but maybe it’s like thyroid nodules, where we didn’t know about it until everybody started getting all of these CT scans. We’re now seeing all these incidental thyroid nodules ... I don’t think we’re missing florid Cushing.” 

However, Dr. Wardlaw said, it’s probably worthwhile to detect even milder hypercortisolism because it could still have long-term damaging effects, including osteoporosis, muscle weakness, glucose intolerance, and frailty. “You could do something about it and normalize it if you found it. I think that would be the reason to do it.”
 

Is Wisconsin Representative of Cushing Everywhere?

Dr. Carroll presented the findings at the annual meeting of the Endocrine Society. He began by noting that most of the previous CS incidence studies, with estimates of 1.2-3.2 cases per million per year, come from European data published from 1994 to 2019 and collected as far back as 1955. The method of acquisition of patients and the definitions of confirmed cases varied widely in those studies, which reported CS etiologies of ACTH-secreting neoplasms (pituitary or ectopic) in 75%-85% and adrenal-dependent cortisol excess in 15%-20%. 

The current study included data from clinic records between May 1, 2017, and December 31, 2022, of Wisconsin residents newly diagnosed with and treated for CS. The CS diagnosis was established with standard guideline-supported biochemical testing and appropriate imaging. Patients with exogenous and non-neoplastic hypercortisolism and those who did not receive therapy for CS were excluded. 

A total of 185 patients (73% female, 27% male) were identified from 27 of the total 72 counties in Wisconsin, representing a population of 4.5 million. On the basis of the total 5.9 million population of Wisconsin, the incidence of CS in the state works out to 7.2 cases per million population per year, Dr. Carroll said. 

However, data from the Wisconsin Hospital Association show that the University of Wisconsin’s Milwaukee facility treated just about half of patients in the state who are discharged from the hospital with a diagnosis of CS during 2019-2023. “So ... that means that an actual or approximate incidence of 14-15 cases per million per year rather than the 7.2 cases that we produce,” he said. 

Etiologies were 60% adrenal (111 patients), 36.8% pituitary (68 patients), and 3.2% ectopic (6 patients). Those proportions were similar between genders. 

On biochemical testing, values for late-night salivary cortisol, dexamethasone suppression, and urinary free cortisol were highest for the ectopic group (3.189 µg/dL, 42.5 µg/dL, and 1514.2 µg/24 h, respectively) and lowest for the adrenal group (0.236 µg/dL, 6.5 µg/dL, and 64.2 µg/24 h, respectively). All differences between groups were highly statistically significant, at P < .0001, Dr. Carroll noted. 

Classic physical features of CS were present in 91% of people with pituitary CS and 100% of those ectopic CS but just 44% of individuals with adrenal CS. “We found that adrenal-dependent disease was the most common form of Cushing syndrome. It frequently presented without classic physical features that may be due to the milder biochemical presentation,” he concluded. 

Dr. Carroll reported consulting and investigator fees from Corcept Therapeutics. Dr. Wardlaw has no disclosures. 
 

A version of this article appeared on Medscape.com.

BOSTON — The prevalence of Cushing syndrome (CS) in the United States may be considerably higher than currently appreciated, new data from a single US institution suggest. 

In contrast to estimates of 1 to 3 cases per million patient-years from population-based European studies, researchers at the University of Wisconsin, Milwaukee, estimated that the incidence of CS in Wisconsin is a minimum of 7.2 cases per million patient-years. What’s more, contrary to all previous studies, they found that adrenal Cushing syndrome was more common than pituitary adrenocorticotropic hormone (ACTH)–secreting tumors (Cushing disease), and that fewer than half of individuals with adrenal Cushing syndrome had classic physical features of hypercortisolism, such as weight gain, round face, excessive hair growth, and stretch marks.

“Cases are absolutely being missed. ... Clinicians should realize that cortisol excess is not rare. It may not be common, but it needs to be considered in patients with any constellation of features that are seen in cortisol excess,” study investigator Ty B. Carroll, MD, associate professor of medicine, endocrinology and molecular medicine, and the endocrine fellowship program director at Medical College of Wisconsin in Milwaukee, told this news organization. 

There are several contributing factors, he noted, “including the obesity and diabetes epidemics which make some clinical features of cortisol excess more common and less notable. Providers get used to seeing patients with some features of cortisol excess and don’t think to screen. The consequence of this is more difficult-to-control diabetes and hypertension, more advance metabolic bone disease, and likely more advanced cardiovascular disease, all resulting from extended exposure to cortisol excess,” he said.

 

Are Milder Cases the Ones Being Missed?

Asked to comment, session moderator Sharon L. Wardlaw, MD, professor of medicine at Columbia University College of Physicians and Surgeons, New York City, said, “When we talk about Cushing [syndrome], we usually think of pituitary ACTH as more [common], followed by adrenal adenomas, and then ectopic. But they’re seeing more adrenal adenoma ... we are probably diagnosing this a little more now.”

She also suggested that the Wisconsin group may have a lower threshold for diagnosing the milder cortisol elevation seen with adrenal Cushing syndrome. “If you screen for Cushing with a dexamethasone suppression test … [i]f you have autonomous secretion by the adrenal, you don’t suppress as much. ... When you measure 24-hour urinary cortisol, it may be normal. So you’re in this in-between [state]. ... Maybe in Wisconsin they’re diagnosing it more. Or, maybe it’s just being underdiagnosed in other places.” 

She also pointed out that “you can’t diagnose it unless you think of it. I’m not so sure that with these mild cases it’s so much that it’s more common, but maybe it’s like thyroid nodules, where we didn’t know about it until everybody started getting all of these CT scans. We’re now seeing all these incidental thyroid nodules ... I don’t think we’re missing florid Cushing.” 

However, Dr. Wardlaw said, it’s probably worthwhile to detect even milder hypercortisolism because it could still have long-term damaging effects, including osteoporosis, muscle weakness, glucose intolerance, and frailty. “You could do something about it and normalize it if you found it. I think that would be the reason to do it.”
 

Is Wisconsin Representative of Cushing Everywhere?

Dr. Carroll presented the findings at the annual meeting of the Endocrine Society. He began by noting that most of the previous CS incidence studies, with estimates of 1.2-3.2 cases per million per year, come from European data published from 1994 to 2019 and collected as far back as 1955. The method of acquisition of patients and the definitions of confirmed cases varied widely in those studies, which reported CS etiologies of ACTH-secreting neoplasms (pituitary or ectopic) in 75%-85% and adrenal-dependent cortisol excess in 15%-20%. 

The current study included data from clinic records between May 1, 2017, and December 31, 2022, of Wisconsin residents newly diagnosed with and treated for CS. The CS diagnosis was established with standard guideline-supported biochemical testing and appropriate imaging. Patients with exogenous and non-neoplastic hypercortisolism and those who did not receive therapy for CS were excluded. 

A total of 185 patients (73% female, 27% male) were identified from 27 of the total 72 counties in Wisconsin, representing a population of 4.5 million. On the basis of the total 5.9 million population of Wisconsin, the incidence of CS in the state works out to 7.2 cases per million population per year, Dr. Carroll said. 

However, data from the Wisconsin Hospital Association show that the University of Wisconsin’s Milwaukee facility treated just about half of patients in the state who are discharged from the hospital with a diagnosis of CS during 2019-2023. “So ... that means that an actual or approximate incidence of 14-15 cases per million per year rather than the 7.2 cases that we produce,” he said. 

Etiologies were 60% adrenal (111 patients), 36.8% pituitary (68 patients), and 3.2% ectopic (6 patients). Those proportions were similar between genders. 

On biochemical testing, values for late-night salivary cortisol, dexamethasone suppression, and urinary free cortisol were highest for the ectopic group (3.189 µg/dL, 42.5 µg/dL, and 1514.2 µg/24 h, respectively) and lowest for the adrenal group (0.236 µg/dL, 6.5 µg/dL, and 64.2 µg/24 h, respectively). All differences between groups were highly statistically significant, at P < .0001, Dr. Carroll noted. 

Classic physical features of CS were present in 91% of people with pituitary CS and 100% of those ectopic CS but just 44% of individuals with adrenal CS. “We found that adrenal-dependent disease was the most common form of Cushing syndrome. It frequently presented without classic physical features that may be due to the milder biochemical presentation,” he concluded. 

Dr. Carroll reported consulting and investigator fees from Corcept Therapeutics. Dr. Wardlaw has no disclosures. 
 

A version of this article appeared on Medscape.com.

BOSTON — The prevalence of Cushing syndrome (CS) in the United States may be considerably higher than currently appreciated, new data from a single US institution suggest. 

In contrast to estimates of 1 to 3 cases per million patient-years from population-based European studies, researchers at the University of Wisconsin, Milwaukee, estimated that the incidence of CS in Wisconsin is a minimum of 7.2 cases per million patient-years. What’s more, contrary to all previous studies, they found that adrenal Cushing syndrome was more common than pituitary adrenocorticotropic hormone (ACTH)–secreting tumors (Cushing disease), and that fewer than half of individuals with adrenal Cushing syndrome had classic physical features of hypercortisolism, such as weight gain, round face, excessive hair growth, and stretch marks.

“Cases are absolutely being missed. ... Clinicians should realize that cortisol excess is not rare. It may not be common, but it needs to be considered in patients with any constellation of features that are seen in cortisol excess,” study investigator Ty B. Carroll, MD, associate professor of medicine, endocrinology and molecular medicine, and the endocrine fellowship program director at Medical College of Wisconsin in Milwaukee, told this news organization. 

There are several contributing factors, he noted, “including the obesity and diabetes epidemics which make some clinical features of cortisol excess more common and less notable. Providers get used to seeing patients with some features of cortisol excess and don’t think to screen. The consequence of this is more difficult-to-control diabetes and hypertension, more advance metabolic bone disease, and likely more advanced cardiovascular disease, all resulting from extended exposure to cortisol excess,” he said.

 

Are Milder Cases the Ones Being Missed?

Asked to comment, session moderator Sharon L. Wardlaw, MD, professor of medicine at Columbia University College of Physicians and Surgeons, New York City, said, “When we talk about Cushing [syndrome], we usually think of pituitary ACTH as more [common], followed by adrenal adenomas, and then ectopic. But they’re seeing more adrenal adenoma ... we are probably diagnosing this a little more now.”

She also suggested that the Wisconsin group may have a lower threshold for diagnosing the milder cortisol elevation seen with adrenal Cushing syndrome. “If you screen for Cushing with a dexamethasone suppression test … [i]f you have autonomous secretion by the adrenal, you don’t suppress as much. ... When you measure 24-hour urinary cortisol, it may be normal. So you’re in this in-between [state]. ... Maybe in Wisconsin they’re diagnosing it more. Or, maybe it’s just being underdiagnosed in other places.” 

She also pointed out that “you can’t diagnose it unless you think of it. I’m not so sure that with these mild cases it’s so much that it’s more common, but maybe it’s like thyroid nodules, where we didn’t know about it until everybody started getting all of these CT scans. We’re now seeing all these incidental thyroid nodules ... I don’t think we’re missing florid Cushing.” 

However, Dr. Wardlaw said, it’s probably worthwhile to detect even milder hypercortisolism because it could still have long-term damaging effects, including osteoporosis, muscle weakness, glucose intolerance, and frailty. “You could do something about it and normalize it if you found it. I think that would be the reason to do it.”
 

Is Wisconsin Representative of Cushing Everywhere?

Dr. Carroll presented the findings at the annual meeting of the Endocrine Society. He began by noting that most of the previous CS incidence studies, with estimates of 1.2-3.2 cases per million per year, come from European data published from 1994 to 2019 and collected as far back as 1955. The method of acquisition of patients and the definitions of confirmed cases varied widely in those studies, which reported CS etiologies of ACTH-secreting neoplasms (pituitary or ectopic) in 75%-85% and adrenal-dependent cortisol excess in 15%-20%. 

The current study included data from clinic records between May 1, 2017, and December 31, 2022, of Wisconsin residents newly diagnosed with and treated for CS. The CS diagnosis was established with standard guideline-supported biochemical testing and appropriate imaging. Patients with exogenous and non-neoplastic hypercortisolism and those who did not receive therapy for CS were excluded. 

A total of 185 patients (73% female, 27% male) were identified from 27 of the total 72 counties in Wisconsin, representing a population of 4.5 million. On the basis of the total 5.9 million population of Wisconsin, the incidence of CS in the state works out to 7.2 cases per million population per year, Dr. Carroll said. 

However, data from the Wisconsin Hospital Association show that the University of Wisconsin’s Milwaukee facility treated just about half of patients in the state who are discharged from the hospital with a diagnosis of CS during 2019-2023. “So ... that means that an actual or approximate incidence of 14-15 cases per million per year rather than the 7.2 cases that we produce,” he said. 

Etiologies were 60% adrenal (111 patients), 36.8% pituitary (68 patients), and 3.2% ectopic (6 patients). Those proportions were similar between genders. 

On biochemical testing, values for late-night salivary cortisol, dexamethasone suppression, and urinary free cortisol were highest for the ectopic group (3.189 µg/dL, 42.5 µg/dL, and 1514.2 µg/24 h, respectively) and lowest for the adrenal group (0.236 µg/dL, 6.5 µg/dL, and 64.2 µg/24 h, respectively). All differences between groups were highly statistically significant, at P < .0001, Dr. Carroll noted. 

Classic physical features of CS were present in 91% of people with pituitary CS and 100% of those ectopic CS but just 44% of individuals with adrenal CS. “We found that adrenal-dependent disease was the most common form of Cushing syndrome. It frequently presented without classic physical features that may be due to the milder biochemical presentation,” he concluded. 

Dr. Carroll reported consulting and investigator fees from Corcept Therapeutics. Dr. Wardlaw has no disclosures. 
 

A version of this article appeared on Medscape.com.