MDedge Endocrinology

On World Brain Day (July 22, 2024), the German Society of Neurology (DGN) and the German Brain Foundation pointed out that too much sugar can harm the brain. The current results of the Global Burden of Diseases study shows that stroke and dementia are among the top 10 causes of death. A healthy, active lifestyle with sufficient exercise and sleep, along with the avoidance of harmful substances like alcohol, nicotine, or excessive sugar, protects the brain.

“Of course, the dose makes the poison as the brain, being the body’s powerhouse, needs glucose to function,” said Frank Erbguth, MD, PhD, president of the German Brain Foundation, in a press release from DGN and the German Brain Foundation. “However, with a permanent increase in blood sugar levels due to too many, too lavish meals and constant snacking on the side, we overload the system and fuel the development of neurologic diseases, particularly dementia and stroke.”

The per capita consumption of sugar was 33.2 kg in 2021/2022, which is almost twice the recommended amount. The German Nutrition Society recommends that no more than 10% of energy come from sugar. With a goal of 2000 kilocalories, that’s 50 g per day, or 18 kg per year. This total includes not only added sugar but also naturally occurring sugar, such as in fruits, honey, or juices.
 

What’s the Mechanism?

High blood sugar levels damage brain blood vessels and promote deposits on the vessel walls, thus reducing blood flow and nutrient supply to brain cells. This process can cause various limitations, as well as vascular dementia.

In Germany, around 250,000 people are diagnosed with dementia annually, and 15%-25% have vascular dementia. That proportion represents between 40,000 and 60,000 new cases each year.

In addition, glycosaminoglycans, which are complex sugar molecules, can directly impair cognition. They affect the function of synapses between nerve cells and, thus, affect neuronal plasticity. Experimental data presented at the 2023 American Chemical Society Congress have shown this phenomenon.

Twenty years ago, a study provided evidence that a diet high in fat and sugar disrupts neuronal plasticity and can impair the function of the hippocampus in the long term. A recent meta-analysis confirms these findings: Although mental performance improves at 2-12 hours after sugar consumption, sustained sugar intake can permanently damage cognitive function.

Diabetes mellitus can indirectly cause brain damage. Since the 1990s, it has been known that patients with type 2 diabetes have a significantly higher risk for dementia. It is suspected that glucose metabolism is also disrupted in neurons, thus contributing to the development of Alzheimer’s disease. Insulin also plays a role in the formation of Alzheimer’s plaques.

The Max Planck Institute for Metabolism Research demonstrated in 2023 that regular consumption of high-sugar and high-fat foods can change the brain. This leads to an increased craving for high-sugar and high-fat foods, which in turn promotes the development of obesity and type 2 diabetes.
 

Reduce Sugar Consumption

DGN and the German Brain Foundation advise minimizing sugar consumption. This process is often challenging, as even a small dose of sugar can trigger the gut to send signals to the brain via the vagus nerve, thus causing a strong craving for more sugar. “This could be the reason why some people quickly eat a whole chocolate bar after just one piece,” said Dr. Erbguth. In addition, dopamine, a “feel-good hormone,” is released in the brain when consuming sugar, thus leading to a desire for more.

“It is wise to break free from this cycle by largely avoiding sugar,” said Peter Berlit, MD, secretary general and spokesperson for DGN. “The effort is worth it, as 40% of all dementia cases and 90% of all strokes are preventable, with many of them linked to industrial sugar,” said Dr. Berlit. DGN and the German Brain Foundation support the call for a tax on particularly sugary beverages. They also pointed out that foods like yogurt or tomato ketchup contain sugar, and alcohol can also significantly raise blood sugar levels.

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

On World Brain Day (July 22, 2024), the German Society of Neurology (DGN) and the German Brain Foundation pointed out that too much sugar can harm the brain. The current results of the Global Burden of Diseases study shows that stroke and dementia are among the top 10 causes of death. A healthy, active lifestyle with sufficient exercise and sleep, along with the avoidance of harmful substances like alcohol, nicotine, or excessive sugar, protects the brain.

“Of course, the dose makes the poison as the brain, being the body’s powerhouse, needs glucose to function,” said Frank Erbguth, MD, PhD, president of the German Brain Foundation, in a press release from DGN and the German Brain Foundation. “However, with a permanent increase in blood sugar levels due to too many, too lavish meals and constant snacking on the side, we overload the system and fuel the development of neurologic diseases, particularly dementia and stroke.”

The per capita consumption of sugar was 33.2 kg in 2021/2022, which is almost twice the recommended amount. The German Nutrition Society recommends that no more than 10% of energy come from sugar. With a goal of 2000 kilocalories, that’s 50 g per day, or 18 kg per year. This total includes not only added sugar but also naturally occurring sugar, such as in fruits, honey, or juices.
 

What’s the Mechanism?

High blood sugar levels damage brain blood vessels and promote deposits on the vessel walls, thus reducing blood flow and nutrient supply to brain cells. This process can cause various limitations, as well as vascular dementia.

In Germany, around 250,000 people are diagnosed with dementia annually, and 15%-25% have vascular dementia. That proportion represents between 40,000 and 60,000 new cases each year.

In addition, glycosaminoglycans, which are complex sugar molecules, can directly impair cognition. They affect the function of synapses between nerve cells and, thus, affect neuronal plasticity. Experimental data presented at the 2023 American Chemical Society Congress have shown this phenomenon.

Twenty years ago, a study provided evidence that a diet high in fat and sugar disrupts neuronal plasticity and can impair the function of the hippocampus in the long term. A recent meta-analysis confirms these findings: Although mental performance improves at 2-12 hours after sugar consumption, sustained sugar intake can permanently damage cognitive function.

Diabetes mellitus can indirectly cause brain damage. Since the 1990s, it has been known that patients with type 2 diabetes have a significantly higher risk for dementia. It is suspected that glucose metabolism is also disrupted in neurons, thus contributing to the development of Alzheimer’s disease. Insulin also plays a role in the formation of Alzheimer’s plaques.

The Max Planck Institute for Metabolism Research demonstrated in 2023 that regular consumption of high-sugar and high-fat foods can change the brain. This leads to an increased craving for high-sugar and high-fat foods, which in turn promotes the development of obesity and type 2 diabetes.
 

Reduce Sugar Consumption

DGN and the German Brain Foundation advise minimizing sugar consumption. This process is often challenging, as even a small dose of sugar can trigger the gut to send signals to the brain via the vagus nerve, thus causing a strong craving for more sugar. “This could be the reason why some people quickly eat a whole chocolate bar after just one piece,” said Dr. Erbguth. In addition, dopamine, a “feel-good hormone,” is released in the brain when consuming sugar, thus leading to a desire for more.

“It is wise to break free from this cycle by largely avoiding sugar,” said Peter Berlit, MD, secretary general and spokesperson for DGN. “The effort is worth it, as 40% of all dementia cases and 90% of all strokes are preventable, with many of them linked to industrial sugar,” said Dr. Berlit. DGN and the German Brain Foundation support the call for a tax on particularly sugary beverages. They also pointed out that foods like yogurt or tomato ketchup contain sugar, and alcohol can also significantly raise blood sugar levels.

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

On World Brain Day (July 22, 2024), the German Society of Neurology (DGN) and the German Brain Foundation pointed out that too much sugar can harm the brain. The current results of the Global Burden of Diseases study shows that stroke and dementia are among the top 10 causes of death. A healthy, active lifestyle with sufficient exercise and sleep, along with the avoidance of harmful substances like alcohol, nicotine, or excessive sugar, protects the brain.

“Of course, the dose makes the poison as the brain, being the body’s powerhouse, needs glucose to function,” said Frank Erbguth, MD, PhD, president of the German Brain Foundation, in a press release from DGN and the German Brain Foundation. “However, with a permanent increase in blood sugar levels due to too many, too lavish meals and constant snacking on the side, we overload the system and fuel the development of neurologic diseases, particularly dementia and stroke.”

The per capita consumption of sugar was 33.2 kg in 2021/2022, which is almost twice the recommended amount. The German Nutrition Society recommends that no more than 10% of energy come from sugar. With a goal of 2000 kilocalories, that’s 50 g per day, or 18 kg per year. This total includes not only added sugar but also naturally occurring sugar, such as in fruits, honey, or juices.
 

What’s the Mechanism?

High blood sugar levels damage brain blood vessels and promote deposits on the vessel walls, thus reducing blood flow and nutrient supply to brain cells. This process can cause various limitations, as well as vascular dementia.

In Germany, around 250,000 people are diagnosed with dementia annually, and 15%-25% have vascular dementia. That proportion represents between 40,000 and 60,000 new cases each year.

In addition, glycosaminoglycans, which are complex sugar molecules, can directly impair cognition. They affect the function of synapses between nerve cells and, thus, affect neuronal plasticity. Experimental data presented at the 2023 American Chemical Society Congress have shown this phenomenon.

Twenty years ago, a study provided evidence that a diet high in fat and sugar disrupts neuronal plasticity and can impair the function of the hippocampus in the long term. A recent meta-analysis confirms these findings: Although mental performance improves at 2-12 hours after sugar consumption, sustained sugar intake can permanently damage cognitive function.

Diabetes mellitus can indirectly cause brain damage. Since the 1990s, it has been known that patients with type 2 diabetes have a significantly higher risk for dementia. It is suspected that glucose metabolism is also disrupted in neurons, thus contributing to the development of Alzheimer’s disease. Insulin also plays a role in the formation of Alzheimer’s plaques.

The Max Planck Institute for Metabolism Research demonstrated in 2023 that regular consumption of high-sugar and high-fat foods can change the brain. This leads to an increased craving for high-sugar and high-fat foods, which in turn promotes the development of obesity and type 2 diabetes.
 

Reduce Sugar Consumption

DGN and the German Brain Foundation advise minimizing sugar consumption. This process is often challenging, as even a small dose of sugar can trigger the gut to send signals to the brain via the vagus nerve, thus causing a strong craving for more sugar. “This could be the reason why some people quickly eat a whole chocolate bar after just one piece,” said Dr. Erbguth. In addition, dopamine, a “feel-good hormone,” is released in the brain when consuming sugar, thus leading to a desire for more.

“It is wise to break free from this cycle by largely avoiding sugar,” said Peter Berlit, MD, secretary general and spokesperson for DGN. “The effort is worth it, as 40% of all dementia cases and 90% of all strokes are preventable, with many of them linked to industrial sugar,” said Dr. Berlit. DGN and the German Brain Foundation support the call for a tax on particularly sugary beverages. They also pointed out that foods like yogurt or tomato ketchup contain sugar, and alcohol can also significantly raise blood sugar levels.

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

An intermittent fasting (IF) diet and a standard healthy living (HL) diet focused on healthy foods both lead to weight loss, reduced insulin resistance (IR), and slowed brain aging in older overweight adults with IR, new research showed. However, neither diet has an effect on Alzheimer’s disease (AD) biomarkers.

Although investigators found both diets were beneficial, some outcomes were more robust with the IF diet.

“The study provides a blueprint for assessing brain effects of dietary interventions and motivates further research on intermittent fasting and continuous diets for brain health optimization,” wrote the investigators, led by Dimitrios Kapogiannis, MD, chief, human neuroscience section, National Institute on Aging, and adjunct associate professor of neurology, the Johns Hopkins University School of Medicine.

The findings were published online in Cell Metabolism.
 

Cognitive Outcomes

The prevalence of IR — reduced cellular sensitivity to insulin that’s a hallmark of type 2 diabetes — increases with age and obesity, adding to an increased risk for accelerated brain aging as well as AD and related dementias (ADRD) in older adults who have overweight.

Studies reported healthy diets promote overall health, but it’s unclear whether, and to what extent, they improve brain health beyond general health enhancement.

Researchers used multiple brain and cognitive measures to assess dietary effects on brain health, including peripherally harvested neuron-derived extracellular vesicles (NDEVs) to probe neuronal insulin signaling; MRI to investigate the pace of brain aging; magnetic resonance spectroscopy (MRS) to measure brain glucose, metabolites, and neurotransmitters; and NDEVs and cerebrospinal fluid to derive biomarkers for AD/ADRD.

The study included 40 cognitively intact overweight participants with IR, mean age 63.2 years, 60% women, and 62.5% White. Their mean body weight was 97.1 kg and mean body mass index (BMI) was 34.4.

Participants were randomly assigned to 8 weeks of an IF diet or a HL diet that emphasizes fruits, vegetables, whole grains, lean proteins, and low-fat dairy and limits added sugars, saturated fats, and sodium.

The IF diet involved following the HL diet for 5 days per week and restricting calories to a quarter of the recommended daily intake for 2 consecutive days.

Both diets reduced neuronal IR and had comparable effects in improving insulin signaling biomarkers in NDEVs, reducing brain glucose on MRS, and improving blood biomarkers of carbohydrate and lipid metabolism.

Using MRI, researchers also assessed brain age, an indication of whether the brain appears older or younger than an individual’s chronological age. There was a decrease of 2.63 years with the IF diet (P = .05) and 2.42 years with the HL diet (P < .001) in the anterior cingulate and ventromedial prefrontal cortex.

Both diets improved executive function and memory, with those following the IF diet benefiting more in strategic planning, switching between two cognitively demanding tasks, cued recall, and other areas.
 

Hypothesis-Generating Research

AD biomarkers including amyloid beta 42 (Aß42), Aß40, and plasma phosphorylated-tau181 did not change with either diet, a finding that investigators speculated may be due to the short duration of the study. Light-chain neurofilaments increased across groups with no differences between the diets.

In other findings, BMI decreased by 1.41 with the IF diet and by 0.80 with the HL diet, and a similar pattern was observed for weight. Waist circumference decreased in both groups with no significant differences between diets.

An exploratory analysis showed executive function improved with the IF diet but not with the HL diet in women, whereas it improved with both diets in men. BMI and apolipoprotein E and SLC16A7 genotypes also modulated diet effects.

Both diets were well tolerated. The most frequent adverse events were gastrointestinal and occurred only with the IF diet.

The authors noted the findings are preliminary and results are hypothesis generating. Study limitations included the study’s short duration and its power to detect anything other than large to moderate effect size changes and differences between the diets. Researchers also didn’t acquire data on dietary intake, so lapses in adherence can’t be excluded. However, the large decreases in BMI, weight, and waist circumference with both diets indicated high adherence.

The study was supported by the National Institutes of Health’s National Institute on Aging. The authors reported no competing interests.
 

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

An intermittent fasting (IF) diet and a standard healthy living (HL) diet focused on healthy foods both lead to weight loss, reduced insulin resistance (IR), and slowed brain aging in older overweight adults with IR, new research showed. However, neither diet has an effect on Alzheimer’s disease (AD) biomarkers.

Although investigators found both diets were beneficial, some outcomes were more robust with the IF diet.

“The study provides a blueprint for assessing brain effects of dietary interventions and motivates further research on intermittent fasting and continuous diets for brain health optimization,” wrote the investigators, led by Dimitrios Kapogiannis, MD, chief, human neuroscience section, National Institute on Aging, and adjunct associate professor of neurology, the Johns Hopkins University School of Medicine.

The findings were published online in Cell Metabolism.
 

Cognitive Outcomes

The prevalence of IR — reduced cellular sensitivity to insulin that’s a hallmark of type 2 diabetes — increases with age and obesity, adding to an increased risk for accelerated brain aging as well as AD and related dementias (ADRD) in older adults who have overweight.

Studies reported healthy diets promote overall health, but it’s unclear whether, and to what extent, they improve brain health beyond general health enhancement.

Researchers used multiple brain and cognitive measures to assess dietary effects on brain health, including peripherally harvested neuron-derived extracellular vesicles (NDEVs) to probe neuronal insulin signaling; MRI to investigate the pace of brain aging; magnetic resonance spectroscopy (MRS) to measure brain glucose, metabolites, and neurotransmitters; and NDEVs and cerebrospinal fluid to derive biomarkers for AD/ADRD.

The study included 40 cognitively intact overweight participants with IR, mean age 63.2 years, 60% women, and 62.5% White. Their mean body weight was 97.1 kg and mean body mass index (BMI) was 34.4.

Participants were randomly assigned to 8 weeks of an IF diet or a HL diet that emphasizes fruits, vegetables, whole grains, lean proteins, and low-fat dairy and limits added sugars, saturated fats, and sodium.

The IF diet involved following the HL diet for 5 days per week and restricting calories to a quarter of the recommended daily intake for 2 consecutive days.

Both diets reduced neuronal IR and had comparable effects in improving insulin signaling biomarkers in NDEVs, reducing brain glucose on MRS, and improving blood biomarkers of carbohydrate and lipid metabolism.

Using MRI, researchers also assessed brain age, an indication of whether the brain appears older or younger than an individual’s chronological age. There was a decrease of 2.63 years with the IF diet (P = .05) and 2.42 years with the HL diet (P < .001) in the anterior cingulate and ventromedial prefrontal cortex.

Both diets improved executive function and memory, with those following the IF diet benefiting more in strategic planning, switching between two cognitively demanding tasks, cued recall, and other areas.
 

Hypothesis-Generating Research

AD biomarkers including amyloid beta 42 (Aß42), Aß40, and plasma phosphorylated-tau181 did not change with either diet, a finding that investigators speculated may be due to the short duration of the study. Light-chain neurofilaments increased across groups with no differences between the diets.

In other findings, BMI decreased by 1.41 with the IF diet and by 0.80 with the HL diet, and a similar pattern was observed for weight. Waist circumference decreased in both groups with no significant differences between diets.

An exploratory analysis showed executive function improved with the IF diet but not with the HL diet in women, whereas it improved with both diets in men. BMI and apolipoprotein E and SLC16A7 genotypes also modulated diet effects.

Both diets were well tolerated. The most frequent adverse events were gastrointestinal and occurred only with the IF diet.

The authors noted the findings are preliminary and results are hypothesis generating. Study limitations included the study’s short duration and its power to detect anything other than large to moderate effect size changes and differences between the diets. Researchers also didn’t acquire data on dietary intake, so lapses in adherence can’t be excluded. However, the large decreases in BMI, weight, and waist circumference with both diets indicated high adherence.

The study was supported by the National Institutes of Health’s National Institute on Aging. The authors reported no competing interests.
 

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

An intermittent fasting (IF) diet and a standard healthy living (HL) diet focused on healthy foods both lead to weight loss, reduced insulin resistance (IR), and slowed brain aging in older overweight adults with IR, new research showed. However, neither diet has an effect on Alzheimer’s disease (AD) biomarkers.

Although investigators found both diets were beneficial, some outcomes were more robust with the IF diet.

“The study provides a blueprint for assessing brain effects of dietary interventions and motivates further research on intermittent fasting and continuous diets for brain health optimization,” wrote the investigators, led by Dimitrios Kapogiannis, MD, chief, human neuroscience section, National Institute on Aging, and adjunct associate professor of neurology, the Johns Hopkins University School of Medicine.

The findings were published online in Cell Metabolism.
 

Cognitive Outcomes

The prevalence of IR — reduced cellular sensitivity to insulin that’s a hallmark of type 2 diabetes — increases with age and obesity, adding to an increased risk for accelerated brain aging as well as AD and related dementias (ADRD) in older adults who have overweight.

Studies reported healthy diets promote overall health, but it’s unclear whether, and to what extent, they improve brain health beyond general health enhancement.

Researchers used multiple brain and cognitive measures to assess dietary effects on brain health, including peripherally harvested neuron-derived extracellular vesicles (NDEVs) to probe neuronal insulin signaling; MRI to investigate the pace of brain aging; magnetic resonance spectroscopy (MRS) to measure brain glucose, metabolites, and neurotransmitters; and NDEVs and cerebrospinal fluid to derive biomarkers for AD/ADRD.

The study included 40 cognitively intact overweight participants with IR, mean age 63.2 years, 60% women, and 62.5% White. Their mean body weight was 97.1 kg and mean body mass index (BMI) was 34.4.

Participants were randomly assigned to 8 weeks of an IF diet or a HL diet that emphasizes fruits, vegetables, whole grains, lean proteins, and low-fat dairy and limits added sugars, saturated fats, and sodium.

The IF diet involved following the HL diet for 5 days per week and restricting calories to a quarter of the recommended daily intake for 2 consecutive days.

Both diets reduced neuronal IR and had comparable effects in improving insulin signaling biomarkers in NDEVs, reducing brain glucose on MRS, and improving blood biomarkers of carbohydrate and lipid metabolism.

Using MRI, researchers also assessed brain age, an indication of whether the brain appears older or younger than an individual’s chronological age. There was a decrease of 2.63 years with the IF diet (P = .05) and 2.42 years with the HL diet (P < .001) in the anterior cingulate and ventromedial prefrontal cortex.

Both diets improved executive function and memory, with those following the IF diet benefiting more in strategic planning, switching between two cognitively demanding tasks, cued recall, and other areas.
 

Hypothesis-Generating Research

AD biomarkers including amyloid beta 42 (Aß42), Aß40, and plasma phosphorylated-tau181 did not change with either diet, a finding that investigators speculated may be due to the short duration of the study. Light-chain neurofilaments increased across groups with no differences between the diets.

In other findings, BMI decreased by 1.41 with the IF diet and by 0.80 with the HL diet, and a similar pattern was observed for weight. Waist circumference decreased in both groups with no significant differences between diets.

An exploratory analysis showed executive function improved with the IF diet but not with the HL diet in women, whereas it improved with both diets in men. BMI and apolipoprotein E and SLC16A7 genotypes also modulated diet effects.

Both diets were well tolerated. The most frequent adverse events were gastrointestinal and occurred only with the IF diet.

The authors noted the findings are preliminary and results are hypothesis generating. Study limitations included the study’s short duration and its power to detect anything other than large to moderate effect size changes and differences between the diets. Researchers also didn’t acquire data on dietary intake, so lapses in adherence can’t be excluded. However, the large decreases in BMI, weight, and waist circumference with both diets indicated high adherence.

The study was supported by the National Institutes of Health’s National Institute on Aging. The authors reported no competing interests.
 

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

Do people who drink alcohol in moderation have a greater risk of early death than people who abstain? For years, a drink or two a day appeared to be linked to health benefits. But recently, scientists pointed out flaws in some of the studies that led to those conclusions, and public health warnings have escalated recently that there may be no safe level of alcohol consumption.

Now, yet another research analysis points toward that newer conclusion – that people who drink moderately do not necessarily live longer than people who abstain. The latest results are important because the researchers delved deep into data about people who previously drank but later quit, possibly due to health problems.

“That makes people who continue to drink look much healthier by comparison,” said Tim Stockwell, PhD, lead author of this latest analysis and a scientist with the Canadian Institute for Substance Use Research at the University of Victoria, in a statement.

The findings were published in the Journal of Studies on Alcohol and Drugs.

The key to their conclusion that drinking isn’t linked to longer life is based yet again on who moderate drinkers are compared to, Dr. Stockwell and his colleagues wrote.

For the study, researchers defined “low volume drinking” as having between one drink per week and up to two drinks per day. When researchers carefully excluded people who were former drinkers and only included data for people who were younger than 55 when they joined research studies, the abstainers and low-volume drinkers had similar risks of early death. But when the former drinkers were included in the abstainer group, the low-volume drinkers appeared to have a reduced risk of death.

When researchers define which people are included in a research analysis based on criteria that don’t reflect subtle but important population characteristics, the problem is called “selection bias.” 

“Studies with life-time selection biases may create misleading positive health associations. These biases pervade the field of alcohol epidemiology and can confuse communications about health risks,” the authors concluded.

They called for improvements in future research studies to better evaluate drinking levels that may influence health outcomes, and also noted one of their exploratory analyses suggested a need to delve deeper into the effects of other outside variables such as smoking and socioeconomic status. 
 

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

Do people who drink alcohol in moderation have a greater risk of early death than people who abstain? For years, a drink or two a day appeared to be linked to health benefits. But recently, scientists pointed out flaws in some of the studies that led to those conclusions, and public health warnings have escalated recently that there may be no safe level of alcohol consumption.

Now, yet another research analysis points toward that newer conclusion – that people who drink moderately do not necessarily live longer than people who abstain. The latest results are important because the researchers delved deep into data about people who previously drank but later quit, possibly due to health problems.

“That makes people who continue to drink look much healthier by comparison,” said Tim Stockwell, PhD, lead author of this latest analysis and a scientist with the Canadian Institute for Substance Use Research at the University of Victoria, in a statement.

The findings were published in the Journal of Studies on Alcohol and Drugs.

The key to their conclusion that drinking isn’t linked to longer life is based yet again on who moderate drinkers are compared to, Dr. Stockwell and his colleagues wrote.

For the study, researchers defined “low volume drinking” as having between one drink per week and up to two drinks per day. When researchers carefully excluded people who were former drinkers and only included data for people who were younger than 55 when they joined research studies, the abstainers and low-volume drinkers had similar risks of early death. But when the former drinkers were included in the abstainer group, the low-volume drinkers appeared to have a reduced risk of death.

When researchers define which people are included in a research analysis based on criteria that don’t reflect subtle but important population characteristics, the problem is called “selection bias.” 

“Studies with life-time selection biases may create misleading positive health associations. These biases pervade the field of alcohol epidemiology and can confuse communications about health risks,” the authors concluded.

They called for improvements in future research studies to better evaluate drinking levels that may influence health outcomes, and also noted one of their exploratory analyses suggested a need to delve deeper into the effects of other outside variables such as smoking and socioeconomic status. 
 

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

Do people who drink alcohol in moderation have a greater risk of early death than people who abstain? For years, a drink or two a day appeared to be linked to health benefits. But recently, scientists pointed out flaws in some of the studies that led to those conclusions, and public health warnings have escalated recently that there may be no safe level of alcohol consumption.

Now, yet another research analysis points toward that newer conclusion – that people who drink moderately do not necessarily live longer than people who abstain. The latest results are important because the researchers delved deep into data about people who previously drank but later quit, possibly due to health problems.

“That makes people who continue to drink look much healthier by comparison,” said Tim Stockwell, PhD, lead author of this latest analysis and a scientist with the Canadian Institute for Substance Use Research at the University of Victoria, in a statement.

The findings were published in the Journal of Studies on Alcohol and Drugs.

The key to their conclusion that drinking isn’t linked to longer life is based yet again on who moderate drinkers are compared to, Dr. Stockwell and his colleagues wrote.

For the study, researchers defined “low volume drinking” as having between one drink per week and up to two drinks per day. When researchers carefully excluded people who were former drinkers and only included data for people who were younger than 55 when they joined research studies, the abstainers and low-volume drinkers had similar risks of early death. But when the former drinkers were included in the abstainer group, the low-volume drinkers appeared to have a reduced risk of death.

When researchers define which people are included in a research analysis based on criteria that don’t reflect subtle but important population characteristics, the problem is called “selection bias.” 

“Studies with life-time selection biases may create misleading positive health associations. These biases pervade the field of alcohol epidemiology and can confuse communications about health risks,” the authors concluded.

They called for improvements in future research studies to better evaluate drinking levels that may influence health outcomes, and also noted one of their exploratory analyses suggested a need to delve deeper into the effects of other outside variables such as smoking and socioeconomic status. 
 

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

TOPLINE:

Mental health disorders increase the likelihood of developing chronic diabetic complications and vice versa across all age groups in patients with type 1 diabetes (T1D) or type 2 diabetes (T2D).

METHODOLOGY:

• Understanding the relative timing and association between chronic diabetic complications and mental health disorders may aid in improving diabetes screening and care.
• Researchers used a US national healthcare claims database (data obtained from 2001 to 2018) to analyze individuals with and without T1D and T2D, who had no prior mental health disorder or chronic diabetic complication.
• The onset and presence of chronic diabetic complications and mental health disorders were identified to determine their possible association.
• Individuals were stratified by age: 0-19, 20-39, 40-59, and ≥ 60 years.

TAKEAWAY:

• Researchers analyzed 44,735 patients with T1D (47.5% women) and 152,187 with T2D (46.0% women), who were matched with 356,630 individuals without diabetes (51.8% women).
• The presence of chronic diabetic complications increased the risk for a mental health disorder across all age groups, with the highest risk seen in patients aged ≥ 60 years (hazard ratio [HR], 2.9).
• Similarly, diagnosis of a mental health disorder increased the risk for chronic diabetic complications across all age groups, with the highest risk seen in patients aged 0-19 years (HR, 2.5).
• Patients with T2D had a significantly higher risk for a mental health disorder and a lower risk for chronic diabetic complications than those with T1D across all age groups, except those aged ≥ 60 years.
• The bidirectional association between mental health disorders and chronic diabetic complications was not affected by the diabetes type (P > .05 for all interactions).

IN PRACTICE:

“Clinicians and healthcare systems likely need to increase their focus on MHDs [mental health disorders], and innovative models of care are required to optimize care for both individuals with type 1 diabetes and those with type 2 diabetes,” the authors wrote.

SOURCE:

The study, led by Maya Watanabe, Department of Biostatistics, University of Michigan, Ann Arbor, Michigan, was published online in Diabetes Care.

LIMITATIONS:

The study relied on International Classification of Diseases 9th and 10th revision codes, which might have led to misclassification of mental health conditions, chronic diabetes complications, and diabetes type. The data did not capture the symptom onset and severity. The findings may not be generalizable to populations outside the United States.

DISCLOSURES:

The study was supported by the Juvenile Diabetes Research Foundation (now Breakthrough T1D). Some authors reported receiving speaker or expert testimony honoraria and research support, and some declared serving on medical or digital advisory boards or as consultants for various pharmaceutical and medical device companies.

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

TOPLINE:

Mental health disorders increase the likelihood of developing chronic diabetic complications and vice versa across all age groups in patients with type 1 diabetes (T1D) or type 2 diabetes (T2D).

METHODOLOGY:

• Understanding the relative timing and association between chronic diabetic complications and mental health disorders may aid in improving diabetes screening and care.
• Researchers used a US national healthcare claims database (data obtained from 2001 to 2018) to analyze individuals with and without T1D and T2D, who had no prior mental health disorder or chronic diabetic complication.
• The onset and presence of chronic diabetic complications and mental health disorders were identified to determine their possible association.
• Individuals were stratified by age: 0-19, 20-39, 40-59, and ≥ 60 years.

TAKEAWAY:

• Researchers analyzed 44,735 patients with T1D (47.5% women) and 152,187 with T2D (46.0% women), who were matched with 356,630 individuals without diabetes (51.8% women).
• The presence of chronic diabetic complications increased the risk for a mental health disorder across all age groups, with the highest risk seen in patients aged ≥ 60 years (hazard ratio [HR], 2.9).
• Similarly, diagnosis of a mental health disorder increased the risk for chronic diabetic complications across all age groups, with the highest risk seen in patients aged 0-19 years (HR, 2.5).
• Patients with T2D had a significantly higher risk for a mental health disorder and a lower risk for chronic diabetic complications than those with T1D across all age groups, except those aged ≥ 60 years.
• The bidirectional association between mental health disorders and chronic diabetic complications was not affected by the diabetes type (P > .05 for all interactions).

IN PRACTICE:

“Clinicians and healthcare systems likely need to increase their focus on MHDs [mental health disorders], and innovative models of care are required to optimize care for both individuals with type 1 diabetes and those with type 2 diabetes,” the authors wrote.

SOURCE:

The study, led by Maya Watanabe, Department of Biostatistics, University of Michigan, Ann Arbor, Michigan, was published online in Diabetes Care.

LIMITATIONS:

The study relied on International Classification of Diseases 9th and 10th revision codes, which might have led to misclassification of mental health conditions, chronic diabetes complications, and diabetes type. The data did not capture the symptom onset and severity. The findings may not be generalizable to populations outside the United States.

DISCLOSURES:

The study was supported by the Juvenile Diabetes Research Foundation (now Breakthrough T1D). Some authors reported receiving speaker or expert testimony honoraria and research support, and some declared serving on medical or digital advisory boards or as consultants for various pharmaceutical and medical device companies.

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

TOPLINE:

Mental health disorders increase the likelihood of developing chronic diabetic complications and vice versa across all age groups in patients with type 1 diabetes (T1D) or type 2 diabetes (T2D).

METHODOLOGY:

• Understanding the relative timing and association between chronic diabetic complications and mental health disorders may aid in improving diabetes screening and care.
• Researchers used a US national healthcare claims database (data obtained from 2001 to 2018) to analyze individuals with and without T1D and T2D, who had no prior mental health disorder or chronic diabetic complication.
• The onset and presence of chronic diabetic complications and mental health disorders were identified to determine their possible association.
• Individuals were stratified by age: 0-19, 20-39, 40-59, and ≥ 60 years.

TAKEAWAY:

• Researchers analyzed 44,735 patients with T1D (47.5% women) and 152,187 with T2D (46.0% women), who were matched with 356,630 individuals without diabetes (51.8% women).
• The presence of chronic diabetic complications increased the risk for a mental health disorder across all age groups, with the highest risk seen in patients aged ≥ 60 years (hazard ratio [HR], 2.9).
• Similarly, diagnosis of a mental health disorder increased the risk for chronic diabetic complications across all age groups, with the highest risk seen in patients aged 0-19 years (HR, 2.5).
• Patients with T2D had a significantly higher risk for a mental health disorder and a lower risk for chronic diabetic complications than those with T1D across all age groups, except those aged ≥ 60 years.
• The bidirectional association between mental health disorders and chronic diabetic complications was not affected by the diabetes type (P > .05 for all interactions).

IN PRACTICE:

“Clinicians and healthcare systems likely need to increase their focus on MHDs [mental health disorders], and innovative models of care are required to optimize care for both individuals with type 1 diabetes and those with type 2 diabetes,” the authors wrote.

SOURCE:

The study, led by Maya Watanabe, Department of Biostatistics, University of Michigan, Ann Arbor, Michigan, was published online in Diabetes Care.

LIMITATIONS:

The study relied on International Classification of Diseases 9th and 10th revision codes, which might have led to misclassification of mental health conditions, chronic diabetes complications, and diabetes type. The data did not capture the symptom onset and severity. The findings may not be generalizable to populations outside the United States.

DISCLOSURES:

The study was supported by the Juvenile Diabetes Research Foundation (now Breakthrough T1D). Some authors reported receiving speaker or expert testimony honoraria and research support, and some declared serving on medical or digital advisory boards or as consultants for various pharmaceutical and medical device companies.

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

“We really aren’t taking care of records — we’re taking care of people.” — Dr. Lawrence Weed

What is the purpose of a progress note? Anyone? Yes, you there. “Insurance billing?” Yes, that’s a good one. Anyone else? “To remember what you did?” Excellent. Another? Yes, that’s right, for others to follow along in your care. These are all good reasons for a progress note to exist. But they aren’t the whole story. Let’s start at the beginning.

Charts were once a collection of paper sheets with handwritten notes. Sometimes illegible, sometimes beautiful, always efficient. A progress note back then could be just 10 characters, AK, LN2, X,X,X,X,X (with X’s marking nitrogen sprays). Then came the healthcare K-Pg event: the conversion to EMRs. Those doctors who survived evolved into computer programmers, creating blocks of text from a few keystrokes. But like toddler-sized Legos, the blocks made it impossible to build a note that is nuanced or precise. Worse yet, many notes consisting of blocks from one note added awkwardly to a new note, creating grotesque structures unrecognizable as anything that should exist in nature. Words and numbers, but no information.

Newtown grafitti / flickr / CC BY-2.0

Thanks to the eternity of EMR, these creations live on, hideous and useless. They waste not only the server’s energy but also our time. Few things are more maddening than scrolling to reach the bottom of another physician’s note only to find there is nothing there.

Whose fault is this? Anyone? Yes, that’s right, insurers. As there are probably no payers in this audience, let’s blame them. I agree, the crushing burden of documentation-to-get-reimbursed has forced us to create “notes” that add no value to us but add up points for us to get paid for them. CMS, payers, prior authorizations, and now even patients, it seems we are documenting for lots of people except for us. There isn’t time to satisfy all and this significant burden for every encounter is a proximate cause for doctors despair. Until now.

In 2024, came our story’s deus ex machina: the AI scribe. A tool that can listen to a doctor visit, then from the ether, generate a note. A fully formed, comprehensive, sometimes pretty note that satisfies all audiences. Dr. Larry Weed must be dancing in heaven. It was Dr. Weed who led us from the nicotine-stained logs of the 1950s to the powerful problem-based notes we use today, an innovation that rivals the stethoscope in its impact.

Professor Weed also predicted that computers would be important to capture and make sense of patient data, helping us make accurate diagnoses and efficient plans. Again, he was right. He would surely be advocating to take advantage of AI scribes’ marvelous ability to capture salient data and present it in the form of a problem-oriented medical record.

AI scribes will be ubiquitous soon; I’m fast and even for me they save time. They also allow, for the first time in a decade, to turn from the glow of a screen to actually face the patient – we no longer have to scribe and care simultaneously. Hallelujah. And yet, lest I disappoint you without a twist, it seems with AI scribes, like EMRs we lose a little something too.

Like self-driving cars or ChatGPT-generated letters, they remove cognitive loads. They are lovely when you have to multitask or are trying to recall a visit from hours (days) ago. Using them, you’ll feel faster, lighter, freer, happier. But what’s missing is the thinking. At the end, you have an exquisite note, but you didn’t write it. It has the salient points, but none of the mental work to create it. AI scribes subvert the valuable work of synthesis. That was the critical part of Dr. Weed’s discovery: writing problem-oriented notes helped us think better.

Kaiser Permanente

Writing allows for the friction that helps us process what is going on with a patient. It allows for the discovery of diagnoses and prompts plans. When I was an intern, one of my attendings would hand write notes, succinctly showing what he had observed and was thinking. He’d sketch diagrams in the chart, for example, to help illustrate how we’d work though the toxic, metabolic, and infectious etiologies of acute liver failure. Sublime.

The act of writing also helps remind us there is a person attached to these words. Like a handwritten sympathy card, it is intimate, human. Even using our EMR, I’d still often type sentences that help tell the patient’s story. “Her sister just died. Utterly devastated. I’ll forward chart to Bob (her PCP) to check in on her.” Or: “Scratch golfer wants to know why he is getting so many SCCs now. ‘Like bankruptcy, gradually then suddenly,’ I explained. I think I broke through.”

Since we’ve concluded the purpose of a note is mostly to capture data, AI scribes are a godsend. They do so with remarkable quality and efficiency. We’ll just have to remember if the diagnosis is unclear, then it might help to write the note out yourself. And even when done by the AI machine, we might add human touches now and again lest there be no art left in what we do.

“For sale. Sun hat. Never worn.”

Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on X. Write to him at [email protected].

“We really aren’t taking care of records — we’re taking care of people.” — Dr. Lawrence Weed

What is the purpose of a progress note? Anyone? Yes, you there. “Insurance billing?” Yes, that’s a good one. Anyone else? “To remember what you did?” Excellent. Another? Yes, that’s right, for others to follow along in your care. These are all good reasons for a progress note to exist. But they aren’t the whole story. Let’s start at the beginning.

Charts were once a collection of paper sheets with handwritten notes. Sometimes illegible, sometimes beautiful, always efficient. A progress note back then could be just 10 characters, AK, LN2, X,X,X,X,X (with X’s marking nitrogen sprays). Then came the healthcare K-Pg event: the conversion to EMRs. Those doctors who survived evolved into computer programmers, creating blocks of text from a few keystrokes. But like toddler-sized Legos, the blocks made it impossible to build a note that is nuanced or precise. Worse yet, many notes consisting of blocks from one note added awkwardly to a new note, creating grotesque structures unrecognizable as anything that should exist in nature. Words and numbers, but no information.

Newtown grafitti / flickr / CC BY-2.0

Thanks to the eternity of EMR, these creations live on, hideous and useless. They waste not only the server’s energy but also our time. Few things are more maddening than scrolling to reach the bottom of another physician’s note only to find there is nothing there.

Whose fault is this? Anyone? Yes, that’s right, insurers. As there are probably no payers in this audience, let’s blame them. I agree, the crushing burden of documentation-to-get-reimbursed has forced us to create “notes” that add no value to us but add up points for us to get paid for them. CMS, payers, prior authorizations, and now even patients, it seems we are documenting for lots of people except for us. There isn’t time to satisfy all and this significant burden for every encounter is a proximate cause for doctors despair. Until now.

In 2024, came our story’s deus ex machina: the AI scribe. A tool that can listen to a doctor visit, then from the ether, generate a note. A fully formed, comprehensive, sometimes pretty note that satisfies all audiences. Dr. Larry Weed must be dancing in heaven. It was Dr. Weed who led us from the nicotine-stained logs of the 1950s to the powerful problem-based notes we use today, an innovation that rivals the stethoscope in its impact.

Professor Weed also predicted that computers would be important to capture and make sense of patient data, helping us make accurate diagnoses and efficient plans. Again, he was right. He would surely be advocating to take advantage of AI scribes’ marvelous ability to capture salient data and present it in the form of a problem-oriented medical record.

AI scribes will be ubiquitous soon; I’m fast and even for me they save time. They also allow, for the first time in a decade, to turn from the glow of a screen to actually face the patient – we no longer have to scribe and care simultaneously. Hallelujah. And yet, lest I disappoint you without a twist, it seems with AI scribes, like EMRs we lose a little something too.

Like self-driving cars or ChatGPT-generated letters, they remove cognitive loads. They are lovely when you have to multitask or are trying to recall a visit from hours (days) ago. Using them, you’ll feel faster, lighter, freer, happier. But what’s missing is the thinking. At the end, you have an exquisite note, but you didn’t write it. It has the salient points, but none of the mental work to create it. AI scribes subvert the valuable work of synthesis. That was the critical part of Dr. Weed’s discovery: writing problem-oriented notes helped us think better.

Kaiser Permanente

Writing allows for the friction that helps us process what is going on with a patient. It allows for the discovery of diagnoses and prompts plans. When I was an intern, one of my attendings would hand write notes, succinctly showing what he had observed and was thinking. He’d sketch diagrams in the chart, for example, to help illustrate how we’d work though the toxic, metabolic, and infectious etiologies of acute liver failure. Sublime.

The act of writing also helps remind us there is a person attached to these words. Like a handwritten sympathy card, it is intimate, human. Even using our EMR, I’d still often type sentences that help tell the patient’s story. “Her sister just died. Utterly devastated. I’ll forward chart to Bob (her PCP) to check in on her.” Or: “Scratch golfer wants to know why he is getting so many SCCs now. ‘Like bankruptcy, gradually then suddenly,’ I explained. I think I broke through.”

Since we’ve concluded the purpose of a note is mostly to capture data, AI scribes are a godsend. They do so with remarkable quality and efficiency. We’ll just have to remember if the diagnosis is unclear, then it might help to write the note out yourself. And even when done by the AI machine, we might add human touches now and again lest there be no art left in what we do.

“For sale. Sun hat. Never worn.”

Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on X. Write to him at [email protected].

“We really aren’t taking care of records — we’re taking care of people.” — Dr. Lawrence Weed

What is the purpose of a progress note? Anyone? Yes, you there. “Insurance billing?” Yes, that’s a good one. Anyone else? “To remember what you did?” Excellent. Another? Yes, that’s right, for others to follow along in your care. These are all good reasons for a progress note to exist. But they aren’t the whole story. Let’s start at the beginning.

Charts were once a collection of paper sheets with handwritten notes. Sometimes illegible, sometimes beautiful, always efficient. A progress note back then could be just 10 characters, AK, LN2, X,X,X,X,X (with X’s marking nitrogen sprays). Then came the healthcare K-Pg event: the conversion to EMRs. Those doctors who survived evolved into computer programmers, creating blocks of text from a few keystrokes. But like toddler-sized Legos, the blocks made it impossible to build a note that is nuanced or precise. Worse yet, many notes consisting of blocks from one note added awkwardly to a new note, creating grotesque structures unrecognizable as anything that should exist in nature. Words and numbers, but no information.

Newtown grafitti / flickr / CC BY-2.0

Thanks to the eternity of EMR, these creations live on, hideous and useless. They waste not only the server’s energy but also our time. Few things are more maddening than scrolling to reach the bottom of another physician’s note only to find there is nothing there.

Whose fault is this? Anyone? Yes, that’s right, insurers. As there are probably no payers in this audience, let’s blame them. I agree, the crushing burden of documentation-to-get-reimbursed has forced us to create “notes” that add no value to us but add up points for us to get paid for them. CMS, payers, prior authorizations, and now even patients, it seems we are documenting for lots of people except for us. There isn’t time to satisfy all and this significant burden for every encounter is a proximate cause for doctors despair. Until now.

In 2024, came our story’s deus ex machina: the AI scribe. A tool that can listen to a doctor visit, then from the ether, generate a note. A fully formed, comprehensive, sometimes pretty note that satisfies all audiences. Dr. Larry Weed must be dancing in heaven. It was Dr. Weed who led us from the nicotine-stained logs of the 1950s to the powerful problem-based notes we use today, an innovation that rivals the stethoscope in its impact.

Professor Weed also predicted that computers would be important to capture and make sense of patient data, helping us make accurate diagnoses and efficient plans. Again, he was right. He would surely be advocating to take advantage of AI scribes’ marvelous ability to capture salient data and present it in the form of a problem-oriented medical record.

AI scribes will be ubiquitous soon; I’m fast and even for me they save time. They also allow, for the first time in a decade, to turn from the glow of a screen to actually face the patient – we no longer have to scribe and care simultaneously. Hallelujah. And yet, lest I disappoint you without a twist, it seems with AI scribes, like EMRs we lose a little something too.

Like self-driving cars or ChatGPT-generated letters, they remove cognitive loads. They are lovely when you have to multitask or are trying to recall a visit from hours (days) ago. Using them, you’ll feel faster, lighter, freer, happier. But what’s missing is the thinking. At the end, you have an exquisite note, but you didn’t write it. It has the salient points, but none of the mental work to create it. AI scribes subvert the valuable work of synthesis. That was the critical part of Dr. Weed’s discovery: writing problem-oriented notes helped us think better.

Kaiser Permanente

Writing allows for the friction that helps us process what is going on with a patient. It allows for the discovery of diagnoses and prompts plans. When I was an intern, one of my attendings would hand write notes, succinctly showing what he had observed and was thinking. He’d sketch diagrams in the chart, for example, to help illustrate how we’d work though the toxic, metabolic, and infectious etiologies of acute liver failure. Sublime.

The act of writing also helps remind us there is a person attached to these words. Like a handwritten sympathy card, it is intimate, human. Even using our EMR, I’d still often type sentences that help tell the patient’s story. “Her sister just died. Utterly devastated. I’ll forward chart to Bob (her PCP) to check in on her.” Or: “Scratch golfer wants to know why he is getting so many SCCs now. ‘Like bankruptcy, gradually then suddenly,’ I explained. I think I broke through.”

Since we’ve concluded the purpose of a note is mostly to capture data, AI scribes are a godsend. They do so with remarkable quality and efficiency. We’ll just have to remember if the diagnosis is unclear, then it might help to write the note out yourself. And even when done by the AI machine, we might add human touches now and again lest there be no art left in what we do.

“For sale. Sun hat. Never worn.”

Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on X. Write to him at [email protected].

The health consequences of excess visceral fat tissue are well known. But there is another type of fat accumulation in the body that increases the risk for type 2 diabetes and cardiovascular diseases. In Molecular Aspects of Medicine, researchers warned that the dangers arising from intramuscular fat tissue are often underestimated.

“Everyone knows the dangers of abdominal fat or that the deposition of fat in the coronary arteries can cause a heart attack,” said lead author Osvaldo Contreras, PhD, from the School of Clinical Medicine at the University of New South Wales in Sydney, Australia. “But hardly anyone has ever heard of fat accumulation in skeletal muscles, even though they are associated with a whole range of life-threatening diseases.” 

“The work emphasizes that muscles are not only good for standing, walking, or lifting a box. They are metabolically active, produce hormones, communicate in the body, and can positively or negatively affect a person’s health,” Yurdagül Zopf, MD, PhD, professor of integrative medicine specializing in nutritional medicine and director of the Hector Center for Nutrition, Exercise, and Sports at the University Hospital Erlangen, Erlangen, Germany, said in an interview.
 

Associated With Diseases

Increased intramuscular fat is found in various conditions where muscle mass is increasingly lost and replaced by fat and connective tissue. Intramuscular fat has been observed, for example, in patients with chronic muscle diseases, sarcopenia, hormonal disorders, and metabolic diseases such as insulin resistance and type 2 diabetes, as well as in patients with cardiovascular problems such as hypertension and heart failure.

Fat accumulation in the muscles, like all fat deposits in the body, can result from an unhealthy lifestyle with excessive calorie intake and, especially, lack of exercise. “If the body has more energy available than it can use, it will initially store it as subcutaneous fat,” said Dr. Zopf. “Once these storage capacities are depleted, more and more visceral fat is deposited, and then more and more fat is stored in the organs and the muscles.”

Movement plays a particularly important role in intramuscular fat. “We know that the less physically active someone is, the higher the risk that fat will be stored in the muscles,” said Dr. Zopf.
 

Arising From Injuries

Unlike other fat tissues in the body, intramuscular fat can also accumulate in higher amounts when there are injuries to the muscles. The group led by Dr. Contreras and lead author Marcelo Flores-Opazo from the Universidad de O’Higgins in Rancagua, Chile, emphasized the role of fibroadipogenic progenitor (FAP) cells in their review. “FAPs play a crucial role in preserving and repairing muscle tissue injuries. They can differentiate into fibroblasts and adipocytes and are responsible for depositing fat and connective tissue in response to muscle injuries.”

Studies suggest that exercise can prevent FAPs from differentiating into fat and connective tissue cells. Metformin can achieve a similar effect in vitro. Dr. Contreras and colleagues hope that drug-based ways to reduce muscle fat will emerge in the future.

But how do you determine whether a patient has too much intramuscular fat? Although MRI and CT can be used for quantification, these are not routine examinations. There is currently no simple way to determine the fat content in muscles, according to the authors. The study authors hope that advances in molecular testing, imaging, and biopsies will improve diagnostic capabilities in the future.
 

Training Crucial

Until then, Dr. Contreras and colleagues advise close monitoring of one’s body weight and the maintenance of a healthy lifestyle. Excessive fat accumulation in the muscles can be prevented and reversed through adequate exercise and healthy nutrition, they emphasized. 

The important message is that these measures are possible. “With healthy nutrition and exercise, excess fat can be reduced. We have observed a reduction in muscle fat in obese individuals with just two sessions of 15-minute high-intensity workouts per week,” Dr. Zopf reported, citing her own research. The more obese a person is and the higher the inflammation in the body, the more likely additional medication may be needed.

Dr. Zopf also pointed out a peculiarity of intramuscular fat tissue. “Muscle fat can only be trained off.” A fatty liver or too much fat under the skin can be combated well with a diet, but muscles are different. “For that, you have to exercise to counteract the inflammatory cascade in the muscles.”

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

The health consequences of excess visceral fat tissue are well known. But there is another type of fat accumulation in the body that increases the risk for type 2 diabetes and cardiovascular diseases. In Molecular Aspects of Medicine, researchers warned that the dangers arising from intramuscular fat tissue are often underestimated.

“Everyone knows the dangers of abdominal fat or that the deposition of fat in the coronary arteries can cause a heart attack,” said lead author Osvaldo Contreras, PhD, from the School of Clinical Medicine at the University of New South Wales in Sydney, Australia. “But hardly anyone has ever heard of fat accumulation in skeletal muscles, even though they are associated with a whole range of life-threatening diseases.” 

“The work emphasizes that muscles are not only good for standing, walking, or lifting a box. They are metabolically active, produce hormones, communicate in the body, and can positively or negatively affect a person’s health,” Yurdagül Zopf, MD, PhD, professor of integrative medicine specializing in nutritional medicine and director of the Hector Center for Nutrition, Exercise, and Sports at the University Hospital Erlangen, Erlangen, Germany, said in an interview.
 

Associated With Diseases

Increased intramuscular fat is found in various conditions where muscle mass is increasingly lost and replaced by fat and connective tissue. Intramuscular fat has been observed, for example, in patients with chronic muscle diseases, sarcopenia, hormonal disorders, and metabolic diseases such as insulin resistance and type 2 diabetes, as well as in patients with cardiovascular problems such as hypertension and heart failure.

Fat accumulation in the muscles, like all fat deposits in the body, can result from an unhealthy lifestyle with excessive calorie intake and, especially, lack of exercise. “If the body has more energy available than it can use, it will initially store it as subcutaneous fat,” said Dr. Zopf. “Once these storage capacities are depleted, more and more visceral fat is deposited, and then more and more fat is stored in the organs and the muscles.”

Movement plays a particularly important role in intramuscular fat. “We know that the less physically active someone is, the higher the risk that fat will be stored in the muscles,” said Dr. Zopf.
 

Arising From Injuries

Unlike other fat tissues in the body, intramuscular fat can also accumulate in higher amounts when there are injuries to the muscles. The group led by Dr. Contreras and lead author Marcelo Flores-Opazo from the Universidad de O’Higgins in Rancagua, Chile, emphasized the role of fibroadipogenic progenitor (FAP) cells in their review. “FAPs play a crucial role in preserving and repairing muscle tissue injuries. They can differentiate into fibroblasts and adipocytes and are responsible for depositing fat and connective tissue in response to muscle injuries.”

Studies suggest that exercise can prevent FAPs from differentiating into fat and connective tissue cells. Metformin can achieve a similar effect in vitro. Dr. Contreras and colleagues hope that drug-based ways to reduce muscle fat will emerge in the future.

But how do you determine whether a patient has too much intramuscular fat? Although MRI and CT can be used for quantification, these are not routine examinations. There is currently no simple way to determine the fat content in muscles, according to the authors. The study authors hope that advances in molecular testing, imaging, and biopsies will improve diagnostic capabilities in the future.
 

Training Crucial

Until then, Dr. Contreras and colleagues advise close monitoring of one’s body weight and the maintenance of a healthy lifestyle. Excessive fat accumulation in the muscles can be prevented and reversed through adequate exercise and healthy nutrition, they emphasized. 

The important message is that these measures are possible. “With healthy nutrition and exercise, excess fat can be reduced. We have observed a reduction in muscle fat in obese individuals with just two sessions of 15-minute high-intensity workouts per week,” Dr. Zopf reported, citing her own research. The more obese a person is and the higher the inflammation in the body, the more likely additional medication may be needed.

Dr. Zopf also pointed out a peculiarity of intramuscular fat tissue. “Muscle fat can only be trained off.” A fatty liver or too much fat under the skin can be combated well with a diet, but muscles are different. “For that, you have to exercise to counteract the inflammatory cascade in the muscles.”

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

The health consequences of excess visceral fat tissue are well known. But there is another type of fat accumulation in the body that increases the risk for type 2 diabetes and cardiovascular diseases. In Molecular Aspects of Medicine, researchers warned that the dangers arising from intramuscular fat tissue are often underestimated.

“Everyone knows the dangers of abdominal fat or that the deposition of fat in the coronary arteries can cause a heart attack,” said lead author Osvaldo Contreras, PhD, from the School of Clinical Medicine at the University of New South Wales in Sydney, Australia. “But hardly anyone has ever heard of fat accumulation in skeletal muscles, even though they are associated with a whole range of life-threatening diseases.” 

“The work emphasizes that muscles are not only good for standing, walking, or lifting a box. They are metabolically active, produce hormones, communicate in the body, and can positively or negatively affect a person’s health,” Yurdagül Zopf, MD, PhD, professor of integrative medicine specializing in nutritional medicine and director of the Hector Center for Nutrition, Exercise, and Sports at the University Hospital Erlangen, Erlangen, Germany, said in an interview.
 

Associated With Diseases

Increased intramuscular fat is found in various conditions where muscle mass is increasingly lost and replaced by fat and connective tissue. Intramuscular fat has been observed, for example, in patients with chronic muscle diseases, sarcopenia, hormonal disorders, and metabolic diseases such as insulin resistance and type 2 diabetes, as well as in patients with cardiovascular problems such as hypertension and heart failure.

Fat accumulation in the muscles, like all fat deposits in the body, can result from an unhealthy lifestyle with excessive calorie intake and, especially, lack of exercise. “If the body has more energy available than it can use, it will initially store it as subcutaneous fat,” said Dr. Zopf. “Once these storage capacities are depleted, more and more visceral fat is deposited, and then more and more fat is stored in the organs and the muscles.”

Movement plays a particularly important role in intramuscular fat. “We know that the less physically active someone is, the higher the risk that fat will be stored in the muscles,” said Dr. Zopf.
 

Arising From Injuries

Unlike other fat tissues in the body, intramuscular fat can also accumulate in higher amounts when there are injuries to the muscles. The group led by Dr. Contreras and lead author Marcelo Flores-Opazo from the Universidad de O’Higgins in Rancagua, Chile, emphasized the role of fibroadipogenic progenitor (FAP) cells in their review. “FAPs play a crucial role in preserving and repairing muscle tissue injuries. They can differentiate into fibroblasts and adipocytes and are responsible for depositing fat and connective tissue in response to muscle injuries.”

Studies suggest that exercise can prevent FAPs from differentiating into fat and connective tissue cells. Metformin can achieve a similar effect in vitro. Dr. Contreras and colleagues hope that drug-based ways to reduce muscle fat will emerge in the future.

But how do you determine whether a patient has too much intramuscular fat? Although MRI and CT can be used for quantification, these are not routine examinations. There is currently no simple way to determine the fat content in muscles, according to the authors. The study authors hope that advances in molecular testing, imaging, and biopsies will improve diagnostic capabilities in the future.
 

Training Crucial

Until then, Dr. Contreras and colleagues advise close monitoring of one’s body weight and the maintenance of a healthy lifestyle. Excessive fat accumulation in the muscles can be prevented and reversed through adequate exercise and healthy nutrition, they emphasized. 

The important message is that these measures are possible. “With healthy nutrition and exercise, excess fat can be reduced. We have observed a reduction in muscle fat in obese individuals with just two sessions of 15-minute high-intensity workouts per week,” Dr. Zopf reported, citing her own research. The more obese a person is and the higher the inflammation in the body, the more likely additional medication may be needed.

Dr. Zopf also pointed out a peculiarity of intramuscular fat tissue. “Muscle fat can only be trained off.” A fatty liver or too much fat under the skin can be combated well with a diet, but muscles are different. “For that, you have to exercise to counteract the inflammatory cascade in the muscles.”

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

TORONTO — With rates of childhood obesity increasing to the point of becoming a public health concern, related skin conditions are also on the rise in the pediatric population, results of new research show.

The retrospective cohort study found markedly higher rates of skin infections, atopic dermatitis (AD), and acanthosis nigricans among children with overweight, compared with children with average weight.

“Many conditions associated with obesity are strong predictors of cardiovascular mortality as these children age, so doctors can play a key role in advocating for weight loss strategies in this population,” lead study author Samantha Epstein, third-year medical student at Case Western Reserve University, Cleveland, Ohio, said in an interview. The findings were presented at the annual meeting of the Society for Pediatric Dermatology.

Previous research has linked obesity, a chronic inflammatory condition, to psoriasis, AD, hidradenitis suppurativa (HS), acne vulgaris, infections, and rosacea in adults. However, there’s scant research exploring the connection between obesity and cutaneous conditions in children.

According to the Cleveland Clinic, childhood obesity is defined as a body mass index, which is weight in kg divided by the square of height in m², at or above the 95th percentile for age and sex in children aged 2 years or older.

For the study, Ms. Epstein and coauthor Sonal D. Shah, MD, associate professor, Department of Dermatology, Case Western Reserve University, and a board-certified pediatric dermatologist accessed a large national research database and used diagnostic codes to identify over 1 million children (mean age, 8.5 years). Most (about 44%) were White; about one-quarter were Black. The groups were propensity matched, so there were about equal numbers of youngsters with and without obesity and of boys and girls.

They collected data on AD, HS, rosacea, psoriasis, and acanthosis nigricans (a thickened purplish discoloration typically found in body folds around the armpits, groin, and neck). They also gathered information on comorbidities.

Acanthosis nigricans, which is linked to metabolic syndrome, type 2 diabetes, and insulin resistance , was more prevalent among children with obesity (20,885 cases in the with-obesity group and 336 in the without-obesity group, for a relative risk [RR] of 62.16 and an odds ratio [OR] of 64.38).

Skin and subcutaneous tissue infections were also more common among those with obesity (14,795 cases) vs 4720 cases among those without obesity (RR, 3.14; OR, 3.2). As for AD, there were 11,892 cases in the with-obesity group and 2983 in the without-obesity group (RR, 3.99; OR, 4.06). There were 1166 cases of psoriasis among those with obesity and 408 among those without obesity (RR, 2.86; OR, 2.88).

HS (587 cases in the with-obesity group and 70 in the without-obesity group; RR, 8.39; OR, 8.39) and rosacea (351 in the with-obesity group and 138 in the without-obesity group; RR, 2.54; OR, 2.55) were the least common skin conditions.

Higher Comorbidity Rates

Compared with their average-weight counterparts, the children with obesity had higher rates of comorbidities, including type 2 diabetes. Ms. Epstein noted that children with diabetes and obesity had increased risks for every skin condition except for infections of the skin and subcutaneous tissue when compared with children without obesity. 

Such infections were the most common skin conditions among children without obesity. “This was expected just due to the fact that children are outside, they’re playing in the grass and the dirt, and they get infected,” said Ms. Epstein. Still, these infections were three times more common in youngsters with obesity.

Although acanthosis nigricans is “highly correlated” with type 2 diabetes, “not as many children as we would expect in this population have developed type 2 diabetes,” said Ms. Epstein. This might make some sense, though, because these children are still quite young. “When dermatologists recognize this skin condition, they can advocate for weight loss management to try to prevent it.”

Other conditions seen more often in the overweight children with overweight included: hypertension, hyperlipidemia, obstructive sleep apnea, polycystic ovarian syndrome, attention-deficit/hyperactivity disorder, major depressive disorder, depressive episodes, and anxiety (all P < .001).

Commenting on the results, Sonia Havele, MD, a pediatrician and dermatology resident at Children’s Mercy Hospital, Kansas City, Missouri, said in an interview that the study reflects trends that she and her colleagues see in clinic: There are more common skin conditions in their patients with obesity.

She agreed that it offers an opening for education. “The results of this study highlight the opportunity we have as pediatric dermatologists to provide additional counseling on obesity and offer referrals to our colleagues in endocrinology, gastroenterology, and nutrition if needed.”

No conflicts of interest were reported.

TORONTO — With rates of childhood obesity increasing to the point of becoming a public health concern, related skin conditions are also on the rise in the pediatric population, results of new research show.

The retrospective cohort study found markedly higher rates of skin infections, atopic dermatitis (AD), and acanthosis nigricans among children with overweight, compared with children with average weight.

“Many conditions associated with obesity are strong predictors of cardiovascular mortality as these children age, so doctors can play a key role in advocating for weight loss strategies in this population,” lead study author Samantha Epstein, third-year medical student at Case Western Reserve University, Cleveland, Ohio, said in an interview. The findings were presented at the annual meeting of the Society for Pediatric Dermatology.

Previous research has linked obesity, a chronic inflammatory condition, to psoriasis, AD, hidradenitis suppurativa (HS), acne vulgaris, infections, and rosacea in adults. However, there’s scant research exploring the connection between obesity and cutaneous conditions in children.

According to the Cleveland Clinic, childhood obesity is defined as a body mass index, which is weight in kg divided by the square of height in m², at or above the 95th percentile for age and sex in children aged 2 years or older.

For the study, Ms. Epstein and coauthor Sonal D. Shah, MD, associate professor, Department of Dermatology, Case Western Reserve University, and a board-certified pediatric dermatologist accessed a large national research database and used diagnostic codes to identify over 1 million children (mean age, 8.5 years). Most (about 44%) were White; about one-quarter were Black. The groups were propensity matched, so there were about equal numbers of youngsters with and without obesity and of boys and girls.

They collected data on AD, HS, rosacea, psoriasis, and acanthosis nigricans (a thickened purplish discoloration typically found in body folds around the armpits, groin, and neck). They also gathered information on comorbidities.

Acanthosis nigricans, which is linked to metabolic syndrome, type 2 diabetes, and insulin resistance , was more prevalent among children with obesity (20,885 cases in the with-obesity group and 336 in the without-obesity group, for a relative risk [RR] of 62.16 and an odds ratio [OR] of 64.38).

Skin and subcutaneous tissue infections were also more common among those with obesity (14,795 cases) vs 4720 cases among those without obesity (RR, 3.14; OR, 3.2). As for AD, there were 11,892 cases in the with-obesity group and 2983 in the without-obesity group (RR, 3.99; OR, 4.06). There were 1166 cases of psoriasis among those with obesity and 408 among those without obesity (RR, 2.86; OR, 2.88).

HS (587 cases in the with-obesity group and 70 in the without-obesity group; RR, 8.39; OR, 8.39) and rosacea (351 in the with-obesity group and 138 in the without-obesity group; RR, 2.54; OR, 2.55) were the least common skin conditions.

Higher Comorbidity Rates

Compared with their average-weight counterparts, the children with obesity had higher rates of comorbidities, including type 2 diabetes. Ms. Epstein noted that children with diabetes and obesity had increased risks for every skin condition except for infections of the skin and subcutaneous tissue when compared with children without obesity. 

Such infections were the most common skin conditions among children without obesity. “This was expected just due to the fact that children are outside, they’re playing in the grass and the dirt, and they get infected,” said Ms. Epstein. Still, these infections were three times more common in youngsters with obesity.

Although acanthosis nigricans is “highly correlated” with type 2 diabetes, “not as many children as we would expect in this population have developed type 2 diabetes,” said Ms. Epstein. This might make some sense, though, because these children are still quite young. “When dermatologists recognize this skin condition, they can advocate for weight loss management to try to prevent it.”

Other conditions seen more often in the overweight children with overweight included: hypertension, hyperlipidemia, obstructive sleep apnea, polycystic ovarian syndrome, attention-deficit/hyperactivity disorder, major depressive disorder, depressive episodes, and anxiety (all P < .001).

Commenting on the results, Sonia Havele, MD, a pediatrician and dermatology resident at Children’s Mercy Hospital, Kansas City, Missouri, said in an interview that the study reflects trends that she and her colleagues see in clinic: There are more common skin conditions in their patients with obesity.

She agreed that it offers an opening for education. “The results of this study highlight the opportunity we have as pediatric dermatologists to provide additional counseling on obesity and offer referrals to our colleagues in endocrinology, gastroenterology, and nutrition if needed.”

No conflicts of interest were reported.

TORONTO — With rates of childhood obesity increasing to the point of becoming a public health concern, related skin conditions are also on the rise in the pediatric population, results of new research show.

The retrospective cohort study found markedly higher rates of skin infections, atopic dermatitis (AD), and acanthosis nigricans among children with overweight, compared with children with average weight.

“Many conditions associated with obesity are strong predictors of cardiovascular mortality as these children age, so doctors can play a key role in advocating for weight loss strategies in this population,” lead study author Samantha Epstein, third-year medical student at Case Western Reserve University, Cleveland, Ohio, said in an interview. The findings were presented at the annual meeting of the Society for Pediatric Dermatology.

Previous research has linked obesity, a chronic inflammatory condition, to psoriasis, AD, hidradenitis suppurativa (HS), acne vulgaris, infections, and rosacea in adults. However, there’s scant research exploring the connection between obesity and cutaneous conditions in children.

According to the Cleveland Clinic, childhood obesity is defined as a body mass index, which is weight in kg divided by the square of height in m², at or above the 95th percentile for age and sex in children aged 2 years or older.

For the study, Ms. Epstein and coauthor Sonal D. Shah, MD, associate professor, Department of Dermatology, Case Western Reserve University, and a board-certified pediatric dermatologist accessed a large national research database and used diagnostic codes to identify over 1 million children (mean age, 8.5 years). Most (about 44%) were White; about one-quarter were Black. The groups were propensity matched, so there were about equal numbers of youngsters with and without obesity and of boys and girls.

They collected data on AD, HS, rosacea, psoriasis, and acanthosis nigricans (a thickened purplish discoloration typically found in body folds around the armpits, groin, and neck). They also gathered information on comorbidities.

Acanthosis nigricans, which is linked to metabolic syndrome, type 2 diabetes, and insulin resistance , was more prevalent among children with obesity (20,885 cases in the with-obesity group and 336 in the without-obesity group, for a relative risk [RR] of 62.16 and an odds ratio [OR] of 64.38).

Skin and subcutaneous tissue infections were also more common among those with obesity (14,795 cases) vs 4720 cases among those without obesity (RR, 3.14; OR, 3.2). As for AD, there were 11,892 cases in the with-obesity group and 2983 in the without-obesity group (RR, 3.99; OR, 4.06). There were 1166 cases of psoriasis among those with obesity and 408 among those without obesity (RR, 2.86; OR, 2.88).

HS (587 cases in the with-obesity group and 70 in the without-obesity group; RR, 8.39; OR, 8.39) and rosacea (351 in the with-obesity group and 138 in the without-obesity group; RR, 2.54; OR, 2.55) were the least common skin conditions.

Higher Comorbidity Rates

Compared with their average-weight counterparts, the children with obesity had higher rates of comorbidities, including type 2 diabetes. Ms. Epstein noted that children with diabetes and obesity had increased risks for every skin condition except for infections of the skin and subcutaneous tissue when compared with children without obesity. 

Such infections were the most common skin conditions among children without obesity. “This was expected just due to the fact that children are outside, they’re playing in the grass and the dirt, and they get infected,” said Ms. Epstein. Still, these infections were three times more common in youngsters with obesity.

Although acanthosis nigricans is “highly correlated” with type 2 diabetes, “not as many children as we would expect in this population have developed type 2 diabetes,” said Ms. Epstein. This might make some sense, though, because these children are still quite young. “When dermatologists recognize this skin condition, they can advocate for weight loss management to try to prevent it.”

Other conditions seen more often in the overweight children with overweight included: hypertension, hyperlipidemia, obstructive sleep apnea, polycystic ovarian syndrome, attention-deficit/hyperactivity disorder, major depressive disorder, depressive episodes, and anxiety (all P < .001).

Commenting on the results, Sonia Havele, MD, a pediatrician and dermatology resident at Children’s Mercy Hospital, Kansas City, Missouri, said in an interview that the study reflects trends that she and her colleagues see in clinic: There are more common skin conditions in their patients with obesity.

She agreed that it offers an opening for education. “The results of this study highlight the opportunity we have as pediatric dermatologists to provide additional counseling on obesity and offer referrals to our colleagues in endocrinology, gastroenterology, and nutrition if needed.”

No conflicts of interest were reported.

Pharmacist Mark Mikhael has lost 50 pounds over the past 12 months. He no longer has diabetes and finds himself “at my ideal body weight,” with his cholesterol below 200 for the first time in 20 years. “I feel fantastic,” he said.

Like millions of others, Mr. Mikhael credits the new class of weight loss drugs. But he isn’t using brand-name Wegovy or Zepbound. Mr. Mikhael, CEO of Orlando, Florida–based Olympia Pharmaceuticals, has been getting by with his own supply: injecting himself with copies of the drugs formulated by his company.

He’s far from alone. Mr. Mikhael and other industry officials estimate that several large compounding pharmacies like his are provisioning up to 2 million American patients with regular doses of semaglutide, the scientific name for Novo Nordisk’s Wegovy, Ozempic, and Rybelsus formulations, or tirzepatide, the active ingredient in Eli Lilly’s Zepbound and Mounjaro.

The drug-making behemoths fiercely oppose that compounding business. Novo Nordisk and Lilly lump the compounders together with Internet cowboys and unregulated medical spas peddling bogus semaglutide, and have high-powered legal teams trying to stop them. Novo Nordisk has filed at least 21 lawsuits nationwide against companies making purported copies of its drugs, said Brianna Kelley, a spokesperson for the company, and urges doctors to avoid them. The Food and Drug Administration (FDA), too, has cautioned about the potential danger of the compounds, and leading obesity medicine groups starkly warn patients against their use.

But this isn’t an illegal black market, though it has shades of gray.

The FDA allows and even encourages compounding pharmacies to produce and sell copycats when a drug is in short supply, and the wildly popular glucagon-like peptide 1 (GLP-1) drugs have enduring shortages — first reported in March 2022 for semaglutide and in December 2022 for tirzepatide. The drugs have registered unprecedented success in weight loss. They are also showing promise against heart, kidney, and liver diseases and are being tested against conditions as diverse as Alzheimer’s disease and drug addiction.

In recent years, the US health care system has come to depend on compounding pharmacies, many of which are run as nonprofits, to plug supply holes of crucial drugs like cancer medicines cisplatin, methotrexate, and 5-fluorouracil.

Most compounded drugs are old, cheap generics. Semaglutide and tirzepatide, on the other hand, are under patent and earn Novo Nordisk and Lilly billions of dollars a year. Sales of the diabetes and weight loss drugs in 2024 made Novo Nordisk Europe’s most valuable company and Lilly the world’s biggest pharmaceutical company.

While the companies can’t keep up with demand, they heatedly dispute the right of compounders to make and sell copies. Lilly spokesperson Kristiane Silva Bello said her company was “deeply concerned” about “serious health risks” from compounded drugs that “should not be on the market.”

Yet marketed they are. Even Hims & Hers Health — the telemedicine prescriber that got its start with erectile dysfunction drugs — is now peddling compounded semaglutide. It ran ads for the drugs during NBA playoff games. (According to a Hunterbrook Media report, Hims & Hers’ semaglutide supplier has faced legal scrutiny.)

The compounded forms are significantly cheaper than the branded drugs. Patients pay about $100-$450 a month, compared with list prices of roughly $1,000-$1,400 for Lilly and Novo Nordisk products.

Five compounders and distributors interviewed for this article said they conduct due diligence on every lot of semaglutide or tirzepatide they buy or produce, upholding standards of purity, sterility, and consistency similar to those practiced in the commercial drug industry. Compounders operate under strict federal and state standards, they noted.

However, the raw materials used in the compounded forms may differ from those produced for Novo Nordisk and Lilly, said GLP-1 coinventor Jens Juul Holst, of the University of Copenhagen, adding that care must be taken in drug production lest it cause potentially harmful immune reactions.

To date, according to FDA spokespeople, reports of side effects from taking compounded versions haven’t raised major alarms. But everyone with knowledge of the industry, including the compounders themselves, worry that a single batch of a poorly made drug could kill or maim people and destroy confidence in their business.

“I liken the compounding industry to the airline industry,” Mr. Mikhael said. “When you have an airline crash, it hurts everybody.”
 

Warnings From the Past

The industry endured just such a catastrophe in 2012, when the New England Compounding Center released a contaminated injectable steroid that killed at least 64 people and harmed hundreds more.

In response, Congress and the FDA had strengthened oversight. Mr. Mikhael’s company is an outsourcing facility, or 503B compounding pharmacy — so-named for a section of the 2013 law that set new requirements for drug compounders. The companies are licensed to make slightly different versions of FDA-approved drugs in response to shortages or a patient’s special needs.

The law created two classes of compounding pharmacies: The FDA regulates the larger 503B compounders with standards like commercial drug companies, while 503A pharmacies make smaller lots of drugs and are largely overseen by state boards of pharmacy.

The 503A facilities also are producing compounded semaglutide and tirzepatide for hundreds of thousands of patients. Like the 503Bs, these operations take the active ingredient, produced as a powder in FDA-registered factories, mostly in China, then reconstitute it with sterile water and an antimicrobial in small glass vials.

Together, the compounding pharmacies may account for up to 30% of the semaglutide sold in the United States, Mr. Mikhael said, although he cautions that is a “wild ballpark figure” since no one, including the FDA, is tracking sales in the industry.

The compounders say the companies should increase production if they’re worried about competition. Like the dozens of other drugs they produce for hospitals and medical practices, the compounders say, the two diet drugs are essential products.

“If you don’t want a 503B facility to make a copy, it’s pretty simple: Don’t go short,” said Lee Rosebush, chair of a trade association for 503B pharmacies. “FDA created this system because these are necessary drugs.”

Novo Nordisk hasn’t specified why it can’t keep up with demand, but the bottleneck apparently lies in the company’s inability to fill and sterilize enough of its special drug auto-injectors, said Evan Seigerman, a managing director at BMO Capital Markets.

The company announced June 24 that it was investing $4.1 billion in new production lines at its Clayton, North Carolina, site. In 2023, the FDA issued a warning over procedural violations at the site and separate cautions at an Indiana facility that Novo Nordisk took over recently.
 

Compounding for Dummies

At least 28 companies, mostly in China, are registered with the FDA to produce or distribute semaglutide. At least half the companies have entered the market in the past 12 months, driving the raw material’s price down by 35%, according to Scott Welch, who runs a 503A pharmacy in Arlington, Virginia.

Compounders can buy powdered semaglutide from some US distributors for less than $4,000 a gram, said Matthew Johnson, president and CEO of distributor Pharma Source Direct. That comes out to as little as $10 per weekly 2.5-microgram dose – not including overhead and other costs.

While Ozempic or Wegovy patients use a Novo Nordisk device to inject the drug, patients using compounded products draw them from a vial with a small needle, like the device diabetics use for insulin.

Some medical practices provide the compounded drug to patients as part of a weight loss package, with markups. In July 2023, Tabitha Ries, a single mother of six who works as a home health care aide in Garfield, Washington, found an online clinic that charged her $1,000 for 3 months of semaglutide along with counseling. She has lost 35 pounds.

She gets the drug from Mindful Weight Loss, a mostly telehealth-based operation led by physician Vivek Gupta, MD, of Manhattan Beach, California. Dr. Gupta said he’s prescribed the weight loss drugs to 1,500 patients, with about 60% using compounded versions from a 503A pharmacy.

He hasn’t seen any essential difference in patients using the branded and compounded forms, although “some people say the compounding is a little less effective,” Dr. Gupta said.

There’s some risk in using the non–FDA-approved product, he acknowledged, and he requires patients to sign an informed consent waiver.

“Nothing in life is without risk, but I would also argue that the status quo is not safe for people who need the medicine and can’t get it,” he said. “They’re constantly triggered by all this food that’s causing their weight to go up and their sugar to go high, increasing their insulin resistance and affecting their limbs and eyes.”

Compounding semaglutide is a helpful sideline for pharmacists like him, Mr. Welch said, especially given the pinch on drug sale revenue that has led many independents to close in recent years. He figures he earns 95% of his revenue from compounding drugs, rather than traditional prescriptions.

It’s important to distinguish compounded semaglutide from unregulated powders sold as “generic Ozempic” and the like, which may be contaminated or counterfeit, said FDA spokesperson Amanda Hils. But since compounded forms of the drug are not FDA approved, those who make, prescribe, or use them also should have “an increased level of responsibility or awareness,” she said.
 

Corporate Battles

Novo Nordisk and Lilly, in lawsuits each company has filed against competitors, say their own testing has found bacteria and other impurities in products made by compounding pharmacies. The companies also report patent infringement, but compounders, pointing to the FDA loophole for drugs in shortage, appear to have defeated that argument for now.

When the FDA removes the drugs from the shortage list, 503B compounders must immediately stop selling them. Smaller compounders may be able to produce their products for a reduced number of patients, said Scott Brunner, CEO of the Alliance for Pharmacy Compounding, which represents 503A compounders.

The evaporation of the compounded drug supply could come as a shock to patients.

“I dread it,” said David Wertheimer, an internist in Franklin Lakes, New Jersey, who prescribes compounded semaglutide to some patients. “People are not going to be able to plunk down a grand every month. A lot of people will go off the drug, and that’s a shame.”

KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.

Pharmacist Mark Mikhael has lost 50 pounds over the past 12 months. He no longer has diabetes and finds himself “at my ideal body weight,” with his cholesterol below 200 for the first time in 20 years. “I feel fantastic,” he said.

Like millions of others, Mr. Mikhael credits the new class of weight loss drugs. But he isn’t using brand-name Wegovy or Zepbound. Mr. Mikhael, CEO of Orlando, Florida–based Olympia Pharmaceuticals, has been getting by with his own supply: injecting himself with copies of the drugs formulated by his company.

He’s far from alone. Mr. Mikhael and other industry officials estimate that several large compounding pharmacies like his are provisioning up to 2 million American patients with regular doses of semaglutide, the scientific name for Novo Nordisk’s Wegovy, Ozempic, and Rybelsus formulations, or tirzepatide, the active ingredient in Eli Lilly’s Zepbound and Mounjaro.

The drug-making behemoths fiercely oppose that compounding business. Novo Nordisk and Lilly lump the compounders together with Internet cowboys and unregulated medical spas peddling bogus semaglutide, and have high-powered legal teams trying to stop them. Novo Nordisk has filed at least 21 lawsuits nationwide against companies making purported copies of its drugs, said Brianna Kelley, a spokesperson for the company, and urges doctors to avoid them. The Food and Drug Administration (FDA), too, has cautioned about the potential danger of the compounds, and leading obesity medicine groups starkly warn patients against their use.

But this isn’t an illegal black market, though it has shades of gray.

The FDA allows and even encourages compounding pharmacies to produce and sell copycats when a drug is in short supply, and the wildly popular glucagon-like peptide 1 (GLP-1) drugs have enduring shortages — first reported in March 2022 for semaglutide and in December 2022 for tirzepatide. The drugs have registered unprecedented success in weight loss. They are also showing promise against heart, kidney, and liver diseases and are being tested against conditions as diverse as Alzheimer’s disease and drug addiction.

In recent years, the US health care system has come to depend on compounding pharmacies, many of which are run as nonprofits, to plug supply holes of crucial drugs like cancer medicines cisplatin, methotrexate, and 5-fluorouracil.

Most compounded drugs are old, cheap generics. Semaglutide and tirzepatide, on the other hand, are under patent and earn Novo Nordisk and Lilly billions of dollars a year. Sales of the diabetes and weight loss drugs in 2024 made Novo Nordisk Europe’s most valuable company and Lilly the world’s biggest pharmaceutical company.

While the companies can’t keep up with demand, they heatedly dispute the right of compounders to make and sell copies. Lilly spokesperson Kristiane Silva Bello said her company was “deeply concerned” about “serious health risks” from compounded drugs that “should not be on the market.”

Yet marketed they are. Even Hims & Hers Health — the telemedicine prescriber that got its start with erectile dysfunction drugs — is now peddling compounded semaglutide. It ran ads for the drugs during NBA playoff games. (According to a Hunterbrook Media report, Hims & Hers’ semaglutide supplier has faced legal scrutiny.)

The compounded forms are significantly cheaper than the branded drugs. Patients pay about $100-$450 a month, compared with list prices of roughly $1,000-$1,400 for Lilly and Novo Nordisk products.

Five compounders and distributors interviewed for this article said they conduct due diligence on every lot of semaglutide or tirzepatide they buy or produce, upholding standards of purity, sterility, and consistency similar to those practiced in the commercial drug industry. Compounders operate under strict federal and state standards, they noted.

However, the raw materials used in the compounded forms may differ from those produced for Novo Nordisk and Lilly, said GLP-1 coinventor Jens Juul Holst, of the University of Copenhagen, adding that care must be taken in drug production lest it cause potentially harmful immune reactions.

To date, according to FDA spokespeople, reports of side effects from taking compounded versions haven’t raised major alarms. But everyone with knowledge of the industry, including the compounders themselves, worry that a single batch of a poorly made drug could kill or maim people and destroy confidence in their business.

“I liken the compounding industry to the airline industry,” Mr. Mikhael said. “When you have an airline crash, it hurts everybody.”
 

Warnings From the Past

The industry endured just such a catastrophe in 2012, when the New England Compounding Center released a contaminated injectable steroid that killed at least 64 people and harmed hundreds more.

In response, Congress and the FDA had strengthened oversight. Mr. Mikhael’s company is an outsourcing facility, or 503B compounding pharmacy — so-named for a section of the 2013 law that set new requirements for drug compounders. The companies are licensed to make slightly different versions of FDA-approved drugs in response to shortages or a patient’s special needs.

The law created two classes of compounding pharmacies: The FDA regulates the larger 503B compounders with standards like commercial drug companies, while 503A pharmacies make smaller lots of drugs and are largely overseen by state boards of pharmacy.

The 503A facilities also are producing compounded semaglutide and tirzepatide for hundreds of thousands of patients. Like the 503Bs, these operations take the active ingredient, produced as a powder in FDA-registered factories, mostly in China, then reconstitute it with sterile water and an antimicrobial in small glass vials.

Together, the compounding pharmacies may account for up to 30% of the semaglutide sold in the United States, Mr. Mikhael said, although he cautions that is a “wild ballpark figure” since no one, including the FDA, is tracking sales in the industry.

The compounders say the companies should increase production if they’re worried about competition. Like the dozens of other drugs they produce for hospitals and medical practices, the compounders say, the two diet drugs are essential products.

“If you don’t want a 503B facility to make a copy, it’s pretty simple: Don’t go short,” said Lee Rosebush, chair of a trade association for 503B pharmacies. “FDA created this system because these are necessary drugs.”

Novo Nordisk hasn’t specified why it can’t keep up with demand, but the bottleneck apparently lies in the company’s inability to fill and sterilize enough of its special drug auto-injectors, said Evan Seigerman, a managing director at BMO Capital Markets.

The company announced June 24 that it was investing $4.1 billion in new production lines at its Clayton, North Carolina, site. In 2023, the FDA issued a warning over procedural violations at the site and separate cautions at an Indiana facility that Novo Nordisk took over recently.
 

Compounding for Dummies

At least 28 companies, mostly in China, are registered with the FDA to produce or distribute semaglutide. At least half the companies have entered the market in the past 12 months, driving the raw material’s price down by 35%, according to Scott Welch, who runs a 503A pharmacy in Arlington, Virginia.

Compounders can buy powdered semaglutide from some US distributors for less than $4,000 a gram, said Matthew Johnson, president and CEO of distributor Pharma Source Direct. That comes out to as little as $10 per weekly 2.5-microgram dose – not including overhead and other costs.

While Ozempic or Wegovy patients use a Novo Nordisk device to inject the drug, patients using compounded products draw them from a vial with a small needle, like the device diabetics use for insulin.

Some medical practices provide the compounded drug to patients as part of a weight loss package, with markups. In July 2023, Tabitha Ries, a single mother of six who works as a home health care aide in Garfield, Washington, found an online clinic that charged her $1,000 for 3 months of semaglutide along with counseling. She has lost 35 pounds.

She gets the drug from Mindful Weight Loss, a mostly telehealth-based operation led by physician Vivek Gupta, MD, of Manhattan Beach, California. Dr. Gupta said he’s prescribed the weight loss drugs to 1,500 patients, with about 60% using compounded versions from a 503A pharmacy.

He hasn’t seen any essential difference in patients using the branded and compounded forms, although “some people say the compounding is a little less effective,” Dr. Gupta said.

There’s some risk in using the non–FDA-approved product, he acknowledged, and he requires patients to sign an informed consent waiver.

“Nothing in life is without risk, but I would also argue that the status quo is not safe for people who need the medicine and can’t get it,” he said. “They’re constantly triggered by all this food that’s causing their weight to go up and their sugar to go high, increasing their insulin resistance and affecting their limbs and eyes.”

Compounding semaglutide is a helpful sideline for pharmacists like him, Mr. Welch said, especially given the pinch on drug sale revenue that has led many independents to close in recent years. He figures he earns 95% of his revenue from compounding drugs, rather than traditional prescriptions.

It’s important to distinguish compounded semaglutide from unregulated powders sold as “generic Ozempic” and the like, which may be contaminated or counterfeit, said FDA spokesperson Amanda Hils. But since compounded forms of the drug are not FDA approved, those who make, prescribe, or use them also should have “an increased level of responsibility or awareness,” she said.
 

Corporate Battles

Novo Nordisk and Lilly, in lawsuits each company has filed against competitors, say their own testing has found bacteria and other impurities in products made by compounding pharmacies. The companies also report patent infringement, but compounders, pointing to the FDA loophole for drugs in shortage, appear to have defeated that argument for now.

When the FDA removes the drugs from the shortage list, 503B compounders must immediately stop selling them. Smaller compounders may be able to produce their products for a reduced number of patients, said Scott Brunner, CEO of the Alliance for Pharmacy Compounding, which represents 503A compounders.

The evaporation of the compounded drug supply could come as a shock to patients.

“I dread it,” said David Wertheimer, an internist in Franklin Lakes, New Jersey, who prescribes compounded semaglutide to some patients. “People are not going to be able to plunk down a grand every month. A lot of people will go off the drug, and that’s a shame.”

KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.

Pharmacist Mark Mikhael has lost 50 pounds over the past 12 months. He no longer has diabetes and finds himself “at my ideal body weight,” with his cholesterol below 200 for the first time in 20 years. “I feel fantastic,” he said.

Like millions of others, Mr. Mikhael credits the new class of weight loss drugs. But he isn’t using brand-name Wegovy or Zepbound. Mr. Mikhael, CEO of Orlando, Florida–based Olympia Pharmaceuticals, has been getting by with his own supply: injecting himself with copies of the drugs formulated by his company.

He’s far from alone. Mr. Mikhael and other industry officials estimate that several large compounding pharmacies like his are provisioning up to 2 million American patients with regular doses of semaglutide, the scientific name for Novo Nordisk’s Wegovy, Ozempic, and Rybelsus formulations, or tirzepatide, the active ingredient in Eli Lilly’s Zepbound and Mounjaro.

The drug-making behemoths fiercely oppose that compounding business. Novo Nordisk and Lilly lump the compounders together with Internet cowboys and unregulated medical spas peddling bogus semaglutide, and have high-powered legal teams trying to stop them. Novo Nordisk has filed at least 21 lawsuits nationwide against companies making purported copies of its drugs, said Brianna Kelley, a spokesperson for the company, and urges doctors to avoid them. The Food and Drug Administration (FDA), too, has cautioned about the potential danger of the compounds, and leading obesity medicine groups starkly warn patients against their use.

But this isn’t an illegal black market, though it has shades of gray.

The FDA allows and even encourages compounding pharmacies to produce and sell copycats when a drug is in short supply, and the wildly popular glucagon-like peptide 1 (GLP-1) drugs have enduring shortages — first reported in March 2022 for semaglutide and in December 2022 for tirzepatide. The drugs have registered unprecedented success in weight loss. They are also showing promise against heart, kidney, and liver diseases and are being tested against conditions as diverse as Alzheimer’s disease and drug addiction.

In recent years, the US health care system has come to depend on compounding pharmacies, many of which are run as nonprofits, to plug supply holes of crucial drugs like cancer medicines cisplatin, methotrexate, and 5-fluorouracil.

Most compounded drugs are old, cheap generics. Semaglutide and tirzepatide, on the other hand, are under patent and earn Novo Nordisk and Lilly billions of dollars a year. Sales of the diabetes and weight loss drugs in 2024 made Novo Nordisk Europe’s most valuable company and Lilly the world’s biggest pharmaceutical company.

While the companies can’t keep up with demand, they heatedly dispute the right of compounders to make and sell copies. Lilly spokesperson Kristiane Silva Bello said her company was “deeply concerned” about “serious health risks” from compounded drugs that “should not be on the market.”

Yet marketed they are. Even Hims & Hers Health — the telemedicine prescriber that got its start with erectile dysfunction drugs — is now peddling compounded semaglutide. It ran ads for the drugs during NBA playoff games. (According to a Hunterbrook Media report, Hims & Hers’ semaglutide supplier has faced legal scrutiny.)

The compounded forms are significantly cheaper than the branded drugs. Patients pay about $100-$450 a month, compared with list prices of roughly $1,000-$1,400 for Lilly and Novo Nordisk products.

Five compounders and distributors interviewed for this article said they conduct due diligence on every lot of semaglutide or tirzepatide they buy or produce, upholding standards of purity, sterility, and consistency similar to those practiced in the commercial drug industry. Compounders operate under strict federal and state standards, they noted.

However, the raw materials used in the compounded forms may differ from those produced for Novo Nordisk and Lilly, said GLP-1 coinventor Jens Juul Holst, of the University of Copenhagen, adding that care must be taken in drug production lest it cause potentially harmful immune reactions.

To date, according to FDA spokespeople, reports of side effects from taking compounded versions haven’t raised major alarms. But everyone with knowledge of the industry, including the compounders themselves, worry that a single batch of a poorly made drug could kill or maim people and destroy confidence in their business.

“I liken the compounding industry to the airline industry,” Mr. Mikhael said. “When you have an airline crash, it hurts everybody.”
 

Warnings From the Past

The industry endured just such a catastrophe in 2012, when the New England Compounding Center released a contaminated injectable steroid that killed at least 64 people and harmed hundreds more.

In response, Congress and the FDA had strengthened oversight. Mr. Mikhael’s company is an outsourcing facility, or 503B compounding pharmacy — so-named for a section of the 2013 law that set new requirements for drug compounders. The companies are licensed to make slightly different versions of FDA-approved drugs in response to shortages or a patient’s special needs.

The law created two classes of compounding pharmacies: The FDA regulates the larger 503B compounders with standards like commercial drug companies, while 503A pharmacies make smaller lots of drugs and are largely overseen by state boards of pharmacy.

The 503A facilities also are producing compounded semaglutide and tirzepatide for hundreds of thousands of patients. Like the 503Bs, these operations take the active ingredient, produced as a powder in FDA-registered factories, mostly in China, then reconstitute it with sterile water and an antimicrobial in small glass vials.

Together, the compounding pharmacies may account for up to 30% of the semaglutide sold in the United States, Mr. Mikhael said, although he cautions that is a “wild ballpark figure” since no one, including the FDA, is tracking sales in the industry.

The compounders say the companies should increase production if they’re worried about competition. Like the dozens of other drugs they produce for hospitals and medical practices, the compounders say, the two diet drugs are essential products.

“If you don’t want a 503B facility to make a copy, it’s pretty simple: Don’t go short,” said Lee Rosebush, chair of a trade association for 503B pharmacies. “FDA created this system because these are necessary drugs.”

Novo Nordisk hasn’t specified why it can’t keep up with demand, but the bottleneck apparently lies in the company’s inability to fill and sterilize enough of its special drug auto-injectors, said Evan Seigerman, a managing director at BMO Capital Markets.

The company announced June 24 that it was investing $4.1 billion in new production lines at its Clayton, North Carolina, site. In 2023, the FDA issued a warning over procedural violations at the site and separate cautions at an Indiana facility that Novo Nordisk took over recently.
 

Compounding for Dummies

At least 28 companies, mostly in China, are registered with the FDA to produce or distribute semaglutide. At least half the companies have entered the market in the past 12 months, driving the raw material’s price down by 35%, according to Scott Welch, who runs a 503A pharmacy in Arlington, Virginia.

Compounders can buy powdered semaglutide from some US distributors for less than $4,000 a gram, said Matthew Johnson, president and CEO of distributor Pharma Source Direct. That comes out to as little as $10 per weekly 2.5-microgram dose – not including overhead and other costs.

While Ozempic or Wegovy patients use a Novo Nordisk device to inject the drug, patients using compounded products draw them from a vial with a small needle, like the device diabetics use for insulin.

Some medical practices provide the compounded drug to patients as part of a weight loss package, with markups. In July 2023, Tabitha Ries, a single mother of six who works as a home health care aide in Garfield, Washington, found an online clinic that charged her $1,000 for 3 months of semaglutide along with counseling. She has lost 35 pounds.

She gets the drug from Mindful Weight Loss, a mostly telehealth-based operation led by physician Vivek Gupta, MD, of Manhattan Beach, California. Dr. Gupta said he’s prescribed the weight loss drugs to 1,500 patients, with about 60% using compounded versions from a 503A pharmacy.

He hasn’t seen any essential difference in patients using the branded and compounded forms, although “some people say the compounding is a little less effective,” Dr. Gupta said.

There’s some risk in using the non–FDA-approved product, he acknowledged, and he requires patients to sign an informed consent waiver.

“Nothing in life is without risk, but I would also argue that the status quo is not safe for people who need the medicine and can’t get it,” he said. “They’re constantly triggered by all this food that’s causing their weight to go up and their sugar to go high, increasing their insulin resistance and affecting their limbs and eyes.”

Compounding semaglutide is a helpful sideline for pharmacists like him, Mr. Welch said, especially given the pinch on drug sale revenue that has led many independents to close in recent years. He figures he earns 95% of his revenue from compounding drugs, rather than traditional prescriptions.

It’s important to distinguish compounded semaglutide from unregulated powders sold as “generic Ozempic” and the like, which may be contaminated or counterfeit, said FDA spokesperson Amanda Hils. But since compounded forms of the drug are not FDA approved, those who make, prescribe, or use them also should have “an increased level of responsibility or awareness,” she said.
 

Corporate Battles

Novo Nordisk and Lilly, in lawsuits each company has filed against competitors, say their own testing has found bacteria and other impurities in products made by compounding pharmacies. The companies also report patent infringement, but compounders, pointing to the FDA loophole for drugs in shortage, appear to have defeated that argument for now.

When the FDA removes the drugs from the shortage list, 503B compounders must immediately stop selling them. Smaller compounders may be able to produce their products for a reduced number of patients, said Scott Brunner, CEO of the Alliance for Pharmacy Compounding, which represents 503A compounders.

The evaporation of the compounded drug supply could come as a shock to patients.

“I dread it,” said David Wertheimer, an internist in Franklin Lakes, New Jersey, who prescribes compounded semaglutide to some patients. “People are not going to be able to plunk down a grand every month. A lot of people will go off the drug, and that’s a shame.”

KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.

This transcript has been edited for clarity.

On today’s edition of Beyond BMI, I’ll be discussing weight plateaus. This is something that our patients are very familiar with. Sometimes, they’re happy with their weight when they plateau; sometimes, they’re not. A weight plateau is simply a state of equilibrium.

There’s a common adage that the last 5 pounds are the hardest. When people decrease their calorie intake and increase their activity — as we instruct our patients to do to lose weight — the body starts to fight back because it believes this is a famine state. Our bodies feel that we are running around the jungle looking for food to help us survive a perceived famine state.

The body does a few things to help us keep weight on, and this is what leads to the frustration of not being able to lose those last 5 pounds. The first thing that happens in this process, which is called metabolic adaptation, is that when someone loses weight, the body naturally increases appetite signals from the brain, so the person becomes hungrier. Satiety signals from the stomach also decrease, so they feel more hungry and less full. And finally, stable fat cells form to allow the person to seek out more food without losing weight. This eventually leads the patient to regain weight, or they may plateau at a weight they’re not happy with.

I’m sure you’ve seen many studies looking at weight plateaus and the amount of weight loss people are able to achieve with diet, exercise, and behavior change alone vs the same lifestyle modifications plus medication. Studies show that patients who are taking anti-obesity medications achieve far more weight loss than do those who are not taking medications. The reason is related to the different mechanisms of action of the anti-obesity medications. Patients taking these medications are able to tolerate a lower caloric intake for a longer period of time, thus they’re able to burn more fat cells and lose more weight. Some medications perform this by decreasing appetite signals, so patients can continue to eat a small number of calories. Some medications affect the stability of fat cells. Some medications also increase satiety signals, so patients can move beyond that degree of metabolic adaptation and get beyond their previous plateau.

What can we do for patients who are frustrated with their weight plateau? I recommend taking a dive into their daily routine. Find out how many calories they are eating. Find out how much exercise they are doing and see whether there’s any room to reorganize the day or change their meals to create a caloric deficit. Are they eating things that are not filling enough, so they can’t get to the next meal without having a snack in between? We are looking at the quality of the meals as well and making sure there’s an adequate amount of protein and fiber in their meals to help with those increased appetite signals. We should also make sure these patients are getting adequate fluid intake.

These are all strategies that can help our patients try to get beyond their weight plateaus.

If the patient meets criteria for anti-obesity medication, which means a body mass index (BMI) of 27-29 with a weight-related comorbidity or BMI ≥ 30 with or without a comorbidity, you may want to consider anti-obesity medication to help that patient get beyond the plateau.

Plateaus will occur as a natural process because of the appetite signaling and hormonal changes that occur when patients lose weight from any modality. It’s important that we work with our patients to determine whether their weight plateau is due to metabolic adaptation. If they aren’t meeting their goals and they have weight-related comorbidities, we can use other available modalities to help those patients continue to lose weight. Of course, whenever we are prescribing a medication, we need to make sure that it is safe for the patient and the patient is on board with the potential side effects and risks. And we should always make sure our patients know we are their advocates in their weight journey.

Holly Lofton, clinical associate professor of surgery and medicine, NYU Langone Health, New York, NY, has disclosed no relevant financial relationships.

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

This transcript has been edited for clarity.

On today’s edition of Beyond BMI, I’ll be discussing weight plateaus. This is something that our patients are very familiar with. Sometimes, they’re happy with their weight when they plateau; sometimes, they’re not. A weight plateau is simply a state of equilibrium.

There’s a common adage that the last 5 pounds are the hardest. When people decrease their calorie intake and increase their activity — as we instruct our patients to do to lose weight — the body starts to fight back because it believes this is a famine state. Our bodies feel that we are running around the jungle looking for food to help us survive a perceived famine state.

The body does a few things to help us keep weight on, and this is what leads to the frustration of not being able to lose those last 5 pounds. The first thing that happens in this process, which is called metabolic adaptation, is that when someone loses weight, the body naturally increases appetite signals from the brain, so the person becomes hungrier. Satiety signals from the stomach also decrease, so they feel more hungry and less full. And finally, stable fat cells form to allow the person to seek out more food without losing weight. This eventually leads the patient to regain weight, or they may plateau at a weight they’re not happy with.

I’m sure you’ve seen many studies looking at weight plateaus and the amount of weight loss people are able to achieve with diet, exercise, and behavior change alone vs the same lifestyle modifications plus medication. Studies show that patients who are taking anti-obesity medications achieve far more weight loss than do those who are not taking medications. The reason is related to the different mechanisms of action of the anti-obesity medications. Patients taking these medications are able to tolerate a lower caloric intake for a longer period of time, thus they’re able to burn more fat cells and lose more weight. Some medications perform this by decreasing appetite signals, so patients can continue to eat a small number of calories. Some medications affect the stability of fat cells. Some medications also increase satiety signals, so patients can move beyond that degree of metabolic adaptation and get beyond their previous plateau.

What can we do for patients who are frustrated with their weight plateau? I recommend taking a dive into their daily routine. Find out how many calories they are eating. Find out how much exercise they are doing and see whether there’s any room to reorganize the day or change their meals to create a caloric deficit. Are they eating things that are not filling enough, so they can’t get to the next meal without having a snack in between? We are looking at the quality of the meals as well and making sure there’s an adequate amount of protein and fiber in their meals to help with those increased appetite signals. We should also make sure these patients are getting adequate fluid intake.

These are all strategies that can help our patients try to get beyond their weight plateaus.

If the patient meets criteria for anti-obesity medication, which means a body mass index (BMI) of 27-29 with a weight-related comorbidity or BMI ≥ 30 with or without a comorbidity, you may want to consider anti-obesity medication to help that patient get beyond the plateau.

Plateaus will occur as a natural process because of the appetite signaling and hormonal changes that occur when patients lose weight from any modality. It’s important that we work with our patients to determine whether their weight plateau is due to metabolic adaptation. If they aren’t meeting their goals and they have weight-related comorbidities, we can use other available modalities to help those patients continue to lose weight. Of course, whenever we are prescribing a medication, we need to make sure that it is safe for the patient and the patient is on board with the potential side effects and risks. And we should always make sure our patients know we are their advocates in their weight journey.

Holly Lofton, clinical associate professor of surgery and medicine, NYU Langone Health, New York, NY, has disclosed no relevant financial relationships.

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

This transcript has been edited for clarity.

On today’s edition of Beyond BMI, I’ll be discussing weight plateaus. This is something that our patients are very familiar with. Sometimes, they’re happy with their weight when they plateau; sometimes, they’re not. A weight plateau is simply a state of equilibrium.

There’s a common adage that the last 5 pounds are the hardest. When people decrease their calorie intake and increase their activity — as we instruct our patients to do to lose weight — the body starts to fight back because it believes this is a famine state. Our bodies feel that we are running around the jungle looking for food to help us survive a perceived famine state.

The body does a few things to help us keep weight on, and this is what leads to the frustration of not being able to lose those last 5 pounds. The first thing that happens in this process, which is called metabolic adaptation, is that when someone loses weight, the body naturally increases appetite signals from the brain, so the person becomes hungrier. Satiety signals from the stomach also decrease, so they feel more hungry and less full. And finally, stable fat cells form to allow the person to seek out more food without losing weight. This eventually leads the patient to regain weight, or they may plateau at a weight they’re not happy with.

I’m sure you’ve seen many studies looking at weight plateaus and the amount of weight loss people are able to achieve with diet, exercise, and behavior change alone vs the same lifestyle modifications plus medication. Studies show that patients who are taking anti-obesity medications achieve far more weight loss than do those who are not taking medications. The reason is related to the different mechanisms of action of the anti-obesity medications. Patients taking these medications are able to tolerate a lower caloric intake for a longer period of time, thus they’re able to burn more fat cells and lose more weight. Some medications perform this by decreasing appetite signals, so patients can continue to eat a small number of calories. Some medications affect the stability of fat cells. Some medications also increase satiety signals, so patients can move beyond that degree of metabolic adaptation and get beyond their previous plateau.

What can we do for patients who are frustrated with their weight plateau? I recommend taking a dive into their daily routine. Find out how many calories they are eating. Find out how much exercise they are doing and see whether there’s any room to reorganize the day or change their meals to create a caloric deficit. Are they eating things that are not filling enough, so they can’t get to the next meal without having a snack in between? We are looking at the quality of the meals as well and making sure there’s an adequate amount of protein and fiber in their meals to help with those increased appetite signals. We should also make sure these patients are getting adequate fluid intake.

These are all strategies that can help our patients try to get beyond their weight plateaus.

If the patient meets criteria for anti-obesity medication, which means a body mass index (BMI) of 27-29 with a weight-related comorbidity or BMI ≥ 30 with or without a comorbidity, you may want to consider anti-obesity medication to help that patient get beyond the plateau.

Plateaus will occur as a natural process because of the appetite signaling and hormonal changes that occur when patients lose weight from any modality. It’s important that we work with our patients to determine whether their weight plateau is due to metabolic adaptation. If they aren’t meeting their goals and they have weight-related comorbidities, we can use other available modalities to help those patients continue to lose weight. Of course, whenever we are prescribing a medication, we need to make sure that it is safe for the patient and the patient is on board with the potential side effects and risks. And we should always make sure our patients know we are their advocates in their weight journey.

Holly Lofton, clinical associate professor of surgery and medicine, NYU Langone Health, New York, NY, has disclosed no relevant financial relationships.

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

Irregular sleep duration was associated with a higher risk for diabetes in middle-aged to older adults in a new UK Biobank study.

The analysis of more than 84,000 participants with 7-day accelerometry data suggested that individuals with the most irregular sleep duration patterns had a 34% higher risk for diabetes compared with their peers who had more consistent sleep patterns.

“It’s recommended to have 7-9 hours of nightly sleep, but what is not considered much in policy guidelines or at the clinical level is how regularly that’s needed,” Sina Kianersi, PhD, of Brigham and Women’s Hospital in Boston, Massachusetts, said in an interview. “What our study added is that it’s not just the duration but keeping it consistent. Patients can reduce their risk of diabetes by maintaining their 7-9 hours of sleep, not just for 1 night but throughout life.”

The study was published online in Diabetes Care.
 

Modifiable Lifestyle Factor

Researchers analyzed data from 84,421 UK Biobank participants who were free of diabetes when they provided accelerometer data in 2013-2015 and who were followed for a median of 7.5 years (622,080 person-years).

Participants had an average age of 62 years, 57% were women, 97% were White individuals, and 50% were employed in non–shift work jobs.

Sleep duration variability was quantified by the within-person standard deviation (SD) of 7-night accelerometer-measured sleep duration.

Participants with higher sleep duration SD were younger and more likely to be women, shift workers, or current smokers; those who reported definite “evening” chronotype (natural preference of the body to sleep at a certain time); those having lower socioeconomic status, higher body mass index, and shorter mean sleep duration; and were less likely to be White individuals.

In addition, a family history of diabetes and of depression was more prevalent among these participants.

A total of 2058 incident diabetes cases occurred during follow-up.

After adjustment for age, sex, and race, compared with a sleep duration SD ≤ 30 minutes, the hazard ratio (HR) was 1.15 for 31-45 minutes, 1.28 for 46-60 minutes, 1.54 for 61-90 minutes, and 1.59 for ≥ 91 minutes.

After the initial adjustment, individuals with a sleep duration SD of > 60 vs ≤ 60 minutes had a 34% higher diabetes risk. However, further adjustment for lifestyle, comorbidities, environmental factors, and adiposity attenuated the association — ie, the HR comparing sleep duration SD of > 60 vs ≤ 60 minutes was 1.11.

Furthermore, researchers found that the association between sleep duration and diabetes was stronger among individuals with lower diabetes polygenic risk score. 

“One possible explanation for this finding is that the impact of sleep irregularity on diabetes risk may be less noticeable in individuals with a high genetic predisposition, where genetic factors dominate,” Dr. Kianersi said. “However, it is important to note that these sleep-gene interaction effects were not consistently observed across different measures and gene-related variables. This is something that remains to be further studied.”

Nevertheless, he added, “I want to emphasize that the association between irregular sleep duration and increased diabetes risk was evident across all levels of diabetes polygenic risk scores.”

The association also was stronger with longer sleep duration. The authors suggested that longer sleep duration “might reduce daylight exposure, which could, in turn, give rise to circadian disruption.”

Overall, Dr. Kianersi said, “Our study identified a modifiable lifestyle factor that can help lower the risk of developing type 2 diabetes.”

The study had several limitations. There was a time lag of a median of 5 years between sleep duration measurements and covariate assessments, which might bias lifestyle behaviors that may vary over time. In addition, a single 7-day sleep duration measurement may not capture long-term sleep patterns. A constrained random sampling approach was used to select participants, raising the potential of selection bias.
 

Regular Sleep Routine Best

Ana Krieger, MD, MPH, director of the Center for Sleep Medicine at Weill Cornell Medicine in New York City, commented on the study for this news organization. “This is a very interesting study, as it adds to the literature,” she said. “Previous research studies have shown metabolic abnormalities with variations in sleep time and duration.”

“This particular study evaluated a large sample of patients in the UK which were mostly White middle-aged and may not be representative of the general population,” she noted. “A similar study in a Hispanic/Latino group failed to demonstrate any significant association between sleep timing variability and incidence of diabetes. It would be desirable to see if prospective studies are able to demonstrate a reduction in diabetes risk by implementing a more regular sleep routine.”

The importance of the body’s natural circadian rhythm in regulating and anchoring many physiological processes was highlighted by the 2017 Nobel Prize of Medicine, which was awarded to three researchers in circadian biology, she pointed out.

“Alterations in the circadian rhythm are known to affect mood regulation, gastrointestinal function, and alertness, among other factors,” she said. “Keeping a regular sleep routine will help to improve our circadian rhythm and better regulate many processes, including our metabolism and appetite-controlling hormones.”

Notably, a study published online in Diabetologia in a racially and economically diverse US population also found that adults with persistent suboptimal sleep durations (< 7 or > 9 hours nightly over a mean of 5 years) were more likely to develop incident diabetes. The strongest association was found among participants reporting extreme changes and higher variability in their sleep durations.

This study was supported by the National Institutes of Health (grant number R01HL155395) and the UKB project 85501. Dr. Kianersi was supported by the American Heart Association Postdoctoral Fellowship. Dr. Kianersi and Dr. Krieger reported no conflicts of interest.

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

Irregular sleep duration was associated with a higher risk for diabetes in middle-aged to older adults in a new UK Biobank study.

The analysis of more than 84,000 participants with 7-day accelerometry data suggested that individuals with the most irregular sleep duration patterns had a 34% higher risk for diabetes compared with their peers who had more consistent sleep patterns.

“It’s recommended to have 7-9 hours of nightly sleep, but what is not considered much in policy guidelines or at the clinical level is how regularly that’s needed,” Sina Kianersi, PhD, of Brigham and Women’s Hospital in Boston, Massachusetts, said in an interview. “What our study added is that it’s not just the duration but keeping it consistent. Patients can reduce their risk of diabetes by maintaining their 7-9 hours of sleep, not just for 1 night but throughout life.”

The study was published online in Diabetes Care.
 

Modifiable Lifestyle Factor

Researchers analyzed data from 84,421 UK Biobank participants who were free of diabetes when they provided accelerometer data in 2013-2015 and who were followed for a median of 7.5 years (622,080 person-years).

Participants had an average age of 62 years, 57% were women, 97% were White individuals, and 50% were employed in non–shift work jobs.

Sleep duration variability was quantified by the within-person standard deviation (SD) of 7-night accelerometer-measured sleep duration.

Participants with higher sleep duration SD were younger and more likely to be women, shift workers, or current smokers; those who reported definite “evening” chronotype (natural preference of the body to sleep at a certain time); those having lower socioeconomic status, higher body mass index, and shorter mean sleep duration; and were less likely to be White individuals.

In addition, a family history of diabetes and of depression was more prevalent among these participants.

A total of 2058 incident diabetes cases occurred during follow-up.

After adjustment for age, sex, and race, compared with a sleep duration SD ≤ 30 minutes, the hazard ratio (HR) was 1.15 for 31-45 minutes, 1.28 for 46-60 minutes, 1.54 for 61-90 minutes, and 1.59 for ≥ 91 minutes.

After the initial adjustment, individuals with a sleep duration SD of > 60 vs ≤ 60 minutes had a 34% higher diabetes risk. However, further adjustment for lifestyle, comorbidities, environmental factors, and adiposity attenuated the association — ie, the HR comparing sleep duration SD of > 60 vs ≤ 60 minutes was 1.11.

Furthermore, researchers found that the association between sleep duration and diabetes was stronger among individuals with lower diabetes polygenic risk score. 

“One possible explanation for this finding is that the impact of sleep irregularity on diabetes risk may be less noticeable in individuals with a high genetic predisposition, where genetic factors dominate,” Dr. Kianersi said. “However, it is important to note that these sleep-gene interaction effects were not consistently observed across different measures and gene-related variables. This is something that remains to be further studied.”

Nevertheless, he added, “I want to emphasize that the association between irregular sleep duration and increased diabetes risk was evident across all levels of diabetes polygenic risk scores.”

The association also was stronger with longer sleep duration. The authors suggested that longer sleep duration “might reduce daylight exposure, which could, in turn, give rise to circadian disruption.”

Overall, Dr. Kianersi said, “Our study identified a modifiable lifestyle factor that can help lower the risk of developing type 2 diabetes.”

The study had several limitations. There was a time lag of a median of 5 years between sleep duration measurements and covariate assessments, which might bias lifestyle behaviors that may vary over time. In addition, a single 7-day sleep duration measurement may not capture long-term sleep patterns. A constrained random sampling approach was used to select participants, raising the potential of selection bias.
 

Regular Sleep Routine Best

Ana Krieger, MD, MPH, director of the Center for Sleep Medicine at Weill Cornell Medicine in New York City, commented on the study for this news organization. “This is a very interesting study, as it adds to the literature,” she said. “Previous research studies have shown metabolic abnormalities with variations in sleep time and duration.”

“This particular study evaluated a large sample of patients in the UK which were mostly White middle-aged and may not be representative of the general population,” she noted. “A similar study in a Hispanic/Latino group failed to demonstrate any significant association between sleep timing variability and incidence of diabetes. It would be desirable to see if prospective studies are able to demonstrate a reduction in diabetes risk by implementing a more regular sleep routine.”

The importance of the body’s natural circadian rhythm in regulating and anchoring many physiological processes was highlighted by the 2017 Nobel Prize of Medicine, which was awarded to three researchers in circadian biology, she pointed out.

“Alterations in the circadian rhythm are known to affect mood regulation, gastrointestinal function, and alertness, among other factors,” she said. “Keeping a regular sleep routine will help to improve our circadian rhythm and better regulate many processes, including our metabolism and appetite-controlling hormones.”

Notably, a study published online in Diabetologia in a racially and economically diverse US population also found that adults with persistent suboptimal sleep durations (< 7 or > 9 hours nightly over a mean of 5 years) were more likely to develop incident diabetes. The strongest association was found among participants reporting extreme changes and higher variability in their sleep durations.

This study was supported by the National Institutes of Health (grant number R01HL155395) and the UKB project 85501. Dr. Kianersi was supported by the American Heart Association Postdoctoral Fellowship. Dr. Kianersi and Dr. Krieger reported no conflicts of interest.

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

Irregular sleep duration was associated with a higher risk for diabetes in middle-aged to older adults in a new UK Biobank study.

The analysis of more than 84,000 participants with 7-day accelerometry data suggested that individuals with the most irregular sleep duration patterns had a 34% higher risk for diabetes compared with their peers who had more consistent sleep patterns.

“It’s recommended to have 7-9 hours of nightly sleep, but what is not considered much in policy guidelines or at the clinical level is how regularly that’s needed,” Sina Kianersi, PhD, of Brigham and Women’s Hospital in Boston, Massachusetts, said in an interview. “What our study added is that it’s not just the duration but keeping it consistent. Patients can reduce their risk of diabetes by maintaining their 7-9 hours of sleep, not just for 1 night but throughout life.”

The study was published online in Diabetes Care.
 

Modifiable Lifestyle Factor

Researchers analyzed data from 84,421 UK Biobank participants who were free of diabetes when they provided accelerometer data in 2013-2015 and who were followed for a median of 7.5 years (622,080 person-years).

Participants had an average age of 62 years, 57% were women, 97% were White individuals, and 50% were employed in non–shift work jobs.

Sleep duration variability was quantified by the within-person standard deviation (SD) of 7-night accelerometer-measured sleep duration.

Participants with higher sleep duration SD were younger and more likely to be women, shift workers, or current smokers; those who reported definite “evening” chronotype (natural preference of the body to sleep at a certain time); those having lower socioeconomic status, higher body mass index, and shorter mean sleep duration; and were less likely to be White individuals.

In addition, a family history of diabetes and of depression was more prevalent among these participants.

A total of 2058 incident diabetes cases occurred during follow-up.

After adjustment for age, sex, and race, compared with a sleep duration SD ≤ 30 minutes, the hazard ratio (HR) was 1.15 for 31-45 minutes, 1.28 for 46-60 minutes, 1.54 for 61-90 minutes, and 1.59 for ≥ 91 minutes.

After the initial adjustment, individuals with a sleep duration SD of > 60 vs ≤ 60 minutes had a 34% higher diabetes risk. However, further adjustment for lifestyle, comorbidities, environmental factors, and adiposity attenuated the association — ie, the HR comparing sleep duration SD of > 60 vs ≤ 60 minutes was 1.11.

Furthermore, researchers found that the association between sleep duration and diabetes was stronger among individuals with lower diabetes polygenic risk score. 

“One possible explanation for this finding is that the impact of sleep irregularity on diabetes risk may be less noticeable in individuals with a high genetic predisposition, where genetic factors dominate,” Dr. Kianersi said. “However, it is important to note that these sleep-gene interaction effects were not consistently observed across different measures and gene-related variables. This is something that remains to be further studied.”

Nevertheless, he added, “I want to emphasize that the association between irregular sleep duration and increased diabetes risk was evident across all levels of diabetes polygenic risk scores.”

The association also was stronger with longer sleep duration. The authors suggested that longer sleep duration “might reduce daylight exposure, which could, in turn, give rise to circadian disruption.”

Overall, Dr. Kianersi said, “Our study identified a modifiable lifestyle factor that can help lower the risk of developing type 2 diabetes.”

The study had several limitations. There was a time lag of a median of 5 years between sleep duration measurements and covariate assessments, which might bias lifestyle behaviors that may vary over time. In addition, a single 7-day sleep duration measurement may not capture long-term sleep patterns. A constrained random sampling approach was used to select participants, raising the potential of selection bias.
 

Regular Sleep Routine Best

Ana Krieger, MD, MPH, director of the Center for Sleep Medicine at Weill Cornell Medicine in New York City, commented on the study for this news organization. “This is a very interesting study, as it adds to the literature,” she said. “Previous research studies have shown metabolic abnormalities with variations in sleep time and duration.”

“This particular study evaluated a large sample of patients in the UK which were mostly White middle-aged and may not be representative of the general population,” she noted. “A similar study in a Hispanic/Latino group failed to demonstrate any significant association between sleep timing variability and incidence of diabetes. It would be desirable to see if prospective studies are able to demonstrate a reduction in diabetes risk by implementing a more regular sleep routine.”

The importance of the body’s natural circadian rhythm in regulating and anchoring many physiological processes was highlighted by the 2017 Nobel Prize of Medicine, which was awarded to three researchers in circadian biology, she pointed out.

“Alterations in the circadian rhythm are known to affect mood regulation, gastrointestinal function, and alertness, among other factors,” she said. “Keeping a regular sleep routine will help to improve our circadian rhythm and better regulate many processes, including our metabolism and appetite-controlling hormones.”

Notably, a study published online in Diabetologia in a racially and economically diverse US population also found that adults with persistent suboptimal sleep durations (< 7 or > 9 hours nightly over a mean of 5 years) were more likely to develop incident diabetes. The strongest association was found among participants reporting extreme changes and higher variability in their sleep durations.

This study was supported by the National Institutes of Health (grant number R01HL155395) and the UKB project 85501. Dr. Kianersi was supported by the American Heart Association Postdoctoral Fellowship. Dr. Kianersi and Dr. Krieger reported no conflicts of interest.

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