Clinician Reviews

TOPLINE:

No significant association was found between the use of glucagon-like peptide 1 receptor agonists (GLP-1 RAs) and thyroid cancer over nearly 4 years.

METHODOLOGY:

• A cohort study using data from nationwide registers in Denmark, Norway, and Sweden between 2007 and 2021 included 145,410 patients who initiated GLP-1 RAs and 291,667 propensity score-matched patients initiating dipeptidyl peptidase 4 (DPP4) inhibitors as active comparators.
• Additional analysis included 111,744 who initiated GLP-1 RAs and 148,179 patients initiating sodium-glucose cotransporter 2 (SGLT2) inhibitors.
• Overall, mean follow-up time was 3.9 years, with 25% followed for more than 6 years.

TAKEAWAY:

• The most common individual GLP-1 RAs were liraglutide (57.3%) and semaglutide (32.9%).
• During follow-up, there were 76 incident thyroid cancer cases among GLP-1 RA users and 184 cases in DPP4 inhibitor users, giving incidence rates per 10,000 of 1.33 and 1.46, respectively, a nonsignificant difference (hazard ratio [HR], 0.93; 95% CI, 0.66-1.31).
• Papillary thyroid cancer was the most common thyroid cancer subtype, followed by follicular and medullary, with no significant increases in risk with GLP-1 RAs by cancer type, although the numbers were small.
• In the SGLT2 inhibitor comparison, there was also no significantly increased thyroid cancer risk for GLP-1 RAs (HR, 1.16; 95% CI, 0.65-2.05).

IN PRACTICE:

“Given the upper limit of the confidence interval, the findings are incompatible with more than a 31% increased relative risk of thyroid cancer. In absolute terms, this translates to no more than 0.36 excess cases per 10 000 person-years, a figure that should be interpreted against the background incidence of 1.46 per 10,000 person-years among the comparator group in the study populations.”

SOURCE:

This study was conducted by Björn Pasternak, MD, PhD, of the Karolinska Institutet, Stockholm, and colleagues. It was published online on April 10, 2024, in The BMJ.

LIMITATIONS:

Relatively short follow-up for cancer risk. Risk by individual GLP-1 RA not analyzed. Small event numbers. Observational, with potential for residual confounding and time-release bias.

DISCLOSURES:

The study was supported by grants from the Swedish Cancer Society and the Swedish Research Council. Dr. Pasternak was supported by a consolidator investigator grant from Karolinska Institutet. Some of the coauthors had industry disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

No significant association was found between the use of glucagon-like peptide 1 receptor agonists (GLP-1 RAs) and thyroid cancer over nearly 4 years.

METHODOLOGY:

• A cohort study using data from nationwide registers in Denmark, Norway, and Sweden between 2007 and 2021 included 145,410 patients who initiated GLP-1 RAs and 291,667 propensity score-matched patients initiating dipeptidyl peptidase 4 (DPP4) inhibitors as active comparators.
• Additional analysis included 111,744 who initiated GLP-1 RAs and 148,179 patients initiating sodium-glucose cotransporter 2 (SGLT2) inhibitors.
• Overall, mean follow-up time was 3.9 years, with 25% followed for more than 6 years.

TAKEAWAY:

• The most common individual GLP-1 RAs were liraglutide (57.3%) and semaglutide (32.9%).
• During follow-up, there were 76 incident thyroid cancer cases among GLP-1 RA users and 184 cases in DPP4 inhibitor users, giving incidence rates per 10,000 of 1.33 and 1.46, respectively, a nonsignificant difference (hazard ratio [HR], 0.93; 95% CI, 0.66-1.31).
• Papillary thyroid cancer was the most common thyroid cancer subtype, followed by follicular and medullary, with no significant increases in risk with GLP-1 RAs by cancer type, although the numbers were small.
• In the SGLT2 inhibitor comparison, there was also no significantly increased thyroid cancer risk for GLP-1 RAs (HR, 1.16; 95% CI, 0.65-2.05).

IN PRACTICE:

“Given the upper limit of the confidence interval, the findings are incompatible with more than a 31% increased relative risk of thyroid cancer. In absolute terms, this translates to no more than 0.36 excess cases per 10 000 person-years, a figure that should be interpreted against the background incidence of 1.46 per 10,000 person-years among the comparator group in the study populations.”

SOURCE:

This study was conducted by Björn Pasternak, MD, PhD, of the Karolinska Institutet, Stockholm, and colleagues. It was published online on April 10, 2024, in The BMJ.

LIMITATIONS:

Relatively short follow-up for cancer risk. Risk by individual GLP-1 RA not analyzed. Small event numbers. Observational, with potential for residual confounding and time-release bias.

DISCLOSURES:

The study was supported by grants from the Swedish Cancer Society and the Swedish Research Council. Dr. Pasternak was supported by a consolidator investigator grant from Karolinska Institutet. Some of the coauthors had industry disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

No significant association was found between the use of glucagon-like peptide 1 receptor agonists (GLP-1 RAs) and thyroid cancer over nearly 4 years.

METHODOLOGY:

• A cohort study using data from nationwide registers in Denmark, Norway, and Sweden between 2007 and 2021 included 145,410 patients who initiated GLP-1 RAs and 291,667 propensity score-matched patients initiating dipeptidyl peptidase 4 (DPP4) inhibitors as active comparators.
• Additional analysis included 111,744 who initiated GLP-1 RAs and 148,179 patients initiating sodium-glucose cotransporter 2 (SGLT2) inhibitors.
• Overall, mean follow-up time was 3.9 years, with 25% followed for more than 6 years.

TAKEAWAY:

• The most common individual GLP-1 RAs were liraglutide (57.3%) and semaglutide (32.9%).
• During follow-up, there were 76 incident thyroid cancer cases among GLP-1 RA users and 184 cases in DPP4 inhibitor users, giving incidence rates per 10,000 of 1.33 and 1.46, respectively, a nonsignificant difference (hazard ratio [HR], 0.93; 95% CI, 0.66-1.31).
• Papillary thyroid cancer was the most common thyroid cancer subtype, followed by follicular and medullary, with no significant increases in risk with GLP-1 RAs by cancer type, although the numbers were small.
• In the SGLT2 inhibitor comparison, there was also no significantly increased thyroid cancer risk for GLP-1 RAs (HR, 1.16; 95% CI, 0.65-2.05).

IN PRACTICE:

“Given the upper limit of the confidence interval, the findings are incompatible with more than a 31% increased relative risk of thyroid cancer. In absolute terms, this translates to no more than 0.36 excess cases per 10 000 person-years, a figure that should be interpreted against the background incidence of 1.46 per 10,000 person-years among the comparator group in the study populations.”

SOURCE:

This study was conducted by Björn Pasternak, MD, PhD, of the Karolinska Institutet, Stockholm, and colleagues. It was published online on April 10, 2024, in The BMJ.

LIMITATIONS:

Relatively short follow-up for cancer risk. Risk by individual GLP-1 RA not analyzed. Small event numbers. Observational, with potential for residual confounding and time-release bias.

DISCLOSURES:

The study was supported by grants from the Swedish Cancer Society and the Swedish Research Council. Dr. Pasternak was supported by a consolidator investigator grant from Karolinska Institutet. Some of the coauthors had industry disclosures.

A version of this article appeared on Medscape.com.

You are what you eat, as the adage goes. But a growing body of evidence indicates that it’s not just what and how much you eat that influence your health. How fast and when you eat also play a role.

Research now indicates that these two factors may affect the risk for gastrointestinal problems, obesity, and type 2 diabetes (T2D). Because meal timing and speed of consumption are modifiable, they present new opportunities to change patient behavior to help prevent and perhaps address these conditions.

Not So Fast

Most people are well acquainted with the short-term gastrointestinal effects of eating too quickly, which include indigestion, gas, bloating, and nausea. But regularly eating too fast can cause long-term consequences.

Obtaining a sense of fullness is key to staving off overeating and excess caloric intake. However, it takes approximately 20 minutes for the stomach to alert the brain to feelings of fullness. Eat too quickly and the fullness signaling might not set in until you’ve consumed more calories than intended. Research links this habit to excess body weight.

The practice also can lead to gastrointestinal diseases over the long term because overeating causes food to remain in the stomach longer, thus prolonging the time that the gastric mucosa is exposed to gastric acids.

A study of 10,893 adults in Korea reported that those with the fastest eating speed (< 5 min/meal) had a 1.7 times greater likelihood of endoscopic erosive gastritis than those with the slowest times (≥ 15 min/meal). Faster eating also was linked to increased risk for functional dyspepsia in a study involving 89 young-adult female military cadets in Korea with relatively controlled eating patterns.

On the extreme end of the spectrum, researchers who performed an assessment of a competitive speed eater speculated that the observed physiological accommodation required for the role (expanding the stomach to form a large flaccid sac) makes speed eaters vulnerable to morbid obesity, gastroparesis, intractable nausea and vomiting, and the need for gastrectomy.

The risk for metabolic changes and eventual development of T2D also appear to be linked to how quickly food is consumed.

Two clinical studies conducted in Japan — a cohort study of 2050 male factory workers and a nationwide study with 197,825 participants — identified a significant association between faster eating and T2D and insulin resistance. A case-control study involving 234 patients with new onset T2D and 468 controls from Lithuania linked faster eating to a greater than twofold risk for T2D. And a Chinese cross-sectional study of 7972 adults indicated that faster eating significantly increased the risk for metabolic syndrome, elevated blood pressure, and central obesity in adults.

Various hypotheses have been proposed to explain why fast eating may upset metabolic processes, including a delayed sense of fullness contributing to spiking postprandial glucose levels, lack of time for mastication causing higher glucose concentrations, and the triggering of specific cytokines (eg, interleukin-1 beta and interleukin-6) that lead to insulin resistance. It is also possible that the association is the result of people who eat quickly having relatively higher body weights, which translates to a higher risk for T2D.

However, there’s an opportunity in the association of rapid meal consumption with gastrointestinal and metabolic diseases, as people can slow the speed at which they eat so they feel full before they overeat.

A 2019 study in which 21 participants were instructed to eat a 600-kcal meal at a “normal” or “slow” pace (6 minutes or 24 minutes) found that the latter group reported feeling fuller while consuming fewer calories.

This approach may not work for all patients, however. There’s evidence to suggest that tactics to slow down eating may not limit the energy intake of those who are already overweight or obese.

Patients with obesity may physiologically differ in their processing of food, according to Michael Camilleri, MD, consultant in the Division of Gastroenterology and Hepatology at Mayo Clinic in Rochester, Minnesota.

“We have demonstrated that about 20%-25% of people with obesity actually have rapid gastric emptying,” he told this news organization. “As a result, they don’t feel full after they eat a meal and that might impact the total volume of food that they eat before they really feel full.”

The Ideal Time to Eat

It’s not only the speed at which individuals eat that may influence outcomes but when they take their meals. Research indicates that eating earlier in the day to align meals with the body’s circadian rhythms in metabolism offers health benefits.

“The focus would be to eat a meal that syncs during those daytime hours,” Collin Popp, PhD, MS, RD, a research scientist at the NYU Grossman School of Medicine in New York, told this news organization. “I typically suggest patients have their largest meal in the morning, whether that’s a large or medium-sized breakfast, or a big lunch.”

A recent cross-sectional study of 2050 participants found that having the largest meal at lunch protected against obesity (odds ratio [OR], 0.71), whereas having it at dinner increased the risk for obesity (OR, 1.67) and led to higher body mass index.

Consuming the majority of calories in meals earlier in the day may have metabolic health benefits, as well.

A 2015 randomized controlled trial involving 18 adults with obesity and T2D found that eating a high-energy breakfast and a low-energy dinner leads to reduced hyperglycemia throughout the day compared with eating a low-energy breakfast and a high-energy dinner.

Time-restricted eating (TRE), a form of intermittent fasting, also can improve metabolic health depending on the time of day.

A 2023 meta-analysis found that TRE was more effective at reducing fasting glucose levels in participants who were overweight and obese if done earlier rather than later in the day. Similarly, a 2022 study involving 82 healthy patients without diabetes or obesity found that early TRE was more effective than mid-day TRE at improving insulin sensitivity and that it improved fasting glucose and reduced total body mass and adiposity, while mid-day TRE did not.

A study that analyzed the effects of TRE in eight adult men with overweight and prediabetes found “better insulin resistance when the window of food consumption was earlier in the day,» noted endocrinologist Beverly Tchang, MD, an assistant professor of clinical medicine at Weill Cornell Medicine with a focus on obesity medication.

Patients May Benefit From Behavioral Interventions

Patients potentially negatively affected by eating too quickly or at late hours may benefit from adopting behavioral interventions to address these tendencies. To determine if a patient is a candidate for such interventions, Dr. Popp recommends starting with a simple conversation.

“When I first meet patients, I always ask them to describe to me a typical day for how they eat — when they’re eating, what they’re eating, the food quality, who are they with — to see if there’s social aspects to it. Then try and make the recommendations based on that,” said Dr. Popp, whose work focuses on biobehavioral interventions for the treatment and prevention of obesity, T2D, and other cardiometabolic outcomes.

Dr. Tchang said she encourages her patients to be mindful of hunger and fullness cues.

“Eat if you’re hungry; don’t force yourself to eat if you’re not hungry,” she said. “If you’re not sure whether you’re hungry or not, speak to a doctor because this points to an abnormality in your appetite-regulation system, which can be helped with GLP-1 [glucagon-like peptide 1] receptor agonists.”

Adjusting what patients eat can help them improve their meal timing.

“For example, we know that a high-fiber diet or a diet that has a large amount of fat in it tends to empty from the stomach slower,” Dr. Camilleri said. “That might give a sensation of fullness that lasts longer and that might prevent, for instance, the ingestion of the next meal.”

Those trying to eat more slowly are advised to seek out foods that are hard in texture and minimally processed.

A study involving 50 patients with healthy weights found that hard foods are consumed more slowly than soft foods and that energy intake is lowest with hard, minimally processed foods. Combining hard-textured foods with explicit instructions to reduce eating speed has also been shown to be an effective strategy. For those inclined to seek out technology-based solution, evidence suggests that a self-monitoring wearable device can slow the eating rate.

Although the evidence is mounting that the timing and duration of meals have an impact on certain chronic diseases, clinicians should remember that these two factors are far from the most important contributors, Dr. Popp said.

“We also have to consider total caloric intake, food quality, sleep, alcohol use, smoking, and physical activity,” he said. “Meal timing should be considered as under the umbrella of health that is important for a lot of folks.”

A version of this article appeared on Medscape.com.

You are what you eat, as the adage goes. But a growing body of evidence indicates that it’s not just what and how much you eat that influence your health. How fast and when you eat also play a role.

Research now indicates that these two factors may affect the risk for gastrointestinal problems, obesity, and type 2 diabetes (T2D). Because meal timing and speed of consumption are modifiable, they present new opportunities to change patient behavior to help prevent and perhaps address these conditions.

Not So Fast

Most people are well acquainted with the short-term gastrointestinal effects of eating too quickly, which include indigestion, gas, bloating, and nausea. But regularly eating too fast can cause long-term consequences.

Obtaining a sense of fullness is key to staving off overeating and excess caloric intake. However, it takes approximately 20 minutes for the stomach to alert the brain to feelings of fullness. Eat too quickly and the fullness signaling might not set in until you’ve consumed more calories than intended. Research links this habit to excess body weight.

The practice also can lead to gastrointestinal diseases over the long term because overeating causes food to remain in the stomach longer, thus prolonging the time that the gastric mucosa is exposed to gastric acids.

A study of 10,893 adults in Korea reported that those with the fastest eating speed (< 5 min/meal) had a 1.7 times greater likelihood of endoscopic erosive gastritis than those with the slowest times (≥ 15 min/meal). Faster eating also was linked to increased risk for functional dyspepsia in a study involving 89 young-adult female military cadets in Korea with relatively controlled eating patterns.

On the extreme end of the spectrum, researchers who performed an assessment of a competitive speed eater speculated that the observed physiological accommodation required for the role (expanding the stomach to form a large flaccid sac) makes speed eaters vulnerable to morbid obesity, gastroparesis, intractable nausea and vomiting, and the need for gastrectomy.

The risk for metabolic changes and eventual development of T2D also appear to be linked to how quickly food is consumed.

Two clinical studies conducted in Japan — a cohort study of 2050 male factory workers and a nationwide study with 197,825 participants — identified a significant association between faster eating and T2D and insulin resistance. A case-control study involving 234 patients with new onset T2D and 468 controls from Lithuania linked faster eating to a greater than twofold risk for T2D. And a Chinese cross-sectional study of 7972 adults indicated that faster eating significantly increased the risk for metabolic syndrome, elevated blood pressure, and central obesity in adults.

Various hypotheses have been proposed to explain why fast eating may upset metabolic processes, including a delayed sense of fullness contributing to spiking postprandial glucose levels, lack of time for mastication causing higher glucose concentrations, and the triggering of specific cytokines (eg, interleukin-1 beta and interleukin-6) that lead to insulin resistance. It is also possible that the association is the result of people who eat quickly having relatively higher body weights, which translates to a higher risk for T2D.

However, there’s an opportunity in the association of rapid meal consumption with gastrointestinal and metabolic diseases, as people can slow the speed at which they eat so they feel full before they overeat.

A 2019 study in which 21 participants were instructed to eat a 600-kcal meal at a “normal” or “slow” pace (6 minutes or 24 minutes) found that the latter group reported feeling fuller while consuming fewer calories.

This approach may not work for all patients, however. There’s evidence to suggest that tactics to slow down eating may not limit the energy intake of those who are already overweight or obese.

Patients with obesity may physiologically differ in their processing of food, according to Michael Camilleri, MD, consultant in the Division of Gastroenterology and Hepatology at Mayo Clinic in Rochester, Minnesota.

“We have demonstrated that about 20%-25% of people with obesity actually have rapid gastric emptying,” he told this news organization. “As a result, they don’t feel full after they eat a meal and that might impact the total volume of food that they eat before they really feel full.”

The Ideal Time to Eat

It’s not only the speed at which individuals eat that may influence outcomes but when they take their meals. Research indicates that eating earlier in the day to align meals with the body’s circadian rhythms in metabolism offers health benefits.

“The focus would be to eat a meal that syncs during those daytime hours,” Collin Popp, PhD, MS, RD, a research scientist at the NYU Grossman School of Medicine in New York, told this news organization. “I typically suggest patients have their largest meal in the morning, whether that’s a large or medium-sized breakfast, or a big lunch.”

A recent cross-sectional study of 2050 participants found that having the largest meal at lunch protected against obesity (odds ratio [OR], 0.71), whereas having it at dinner increased the risk for obesity (OR, 1.67) and led to higher body mass index.

Consuming the majority of calories in meals earlier in the day may have metabolic health benefits, as well.

A 2015 randomized controlled trial involving 18 adults with obesity and T2D found that eating a high-energy breakfast and a low-energy dinner leads to reduced hyperglycemia throughout the day compared with eating a low-energy breakfast and a high-energy dinner.

Time-restricted eating (TRE), a form of intermittent fasting, also can improve metabolic health depending on the time of day.

A 2023 meta-analysis found that TRE was more effective at reducing fasting glucose levels in participants who were overweight and obese if done earlier rather than later in the day. Similarly, a 2022 study involving 82 healthy patients without diabetes or obesity found that early TRE was more effective than mid-day TRE at improving insulin sensitivity and that it improved fasting glucose and reduced total body mass and adiposity, while mid-day TRE did not.

A study that analyzed the effects of TRE in eight adult men with overweight and prediabetes found “better insulin resistance when the window of food consumption was earlier in the day,» noted endocrinologist Beverly Tchang, MD, an assistant professor of clinical medicine at Weill Cornell Medicine with a focus on obesity medication.

Patients May Benefit From Behavioral Interventions

Patients potentially negatively affected by eating too quickly or at late hours may benefit from adopting behavioral interventions to address these tendencies. To determine if a patient is a candidate for such interventions, Dr. Popp recommends starting with a simple conversation.

“When I first meet patients, I always ask them to describe to me a typical day for how they eat — when they’re eating, what they’re eating, the food quality, who are they with — to see if there’s social aspects to it. Then try and make the recommendations based on that,” said Dr. Popp, whose work focuses on biobehavioral interventions for the treatment and prevention of obesity, T2D, and other cardiometabolic outcomes.

Dr. Tchang said she encourages her patients to be mindful of hunger and fullness cues.

“Eat if you’re hungry; don’t force yourself to eat if you’re not hungry,” she said. “If you’re not sure whether you’re hungry or not, speak to a doctor because this points to an abnormality in your appetite-regulation system, which can be helped with GLP-1 [glucagon-like peptide 1] receptor agonists.”

Adjusting what patients eat can help them improve their meal timing.

“For example, we know that a high-fiber diet or a diet that has a large amount of fat in it tends to empty from the stomach slower,” Dr. Camilleri said. “That might give a sensation of fullness that lasts longer and that might prevent, for instance, the ingestion of the next meal.”

Those trying to eat more slowly are advised to seek out foods that are hard in texture and minimally processed.

A study involving 50 patients with healthy weights found that hard foods are consumed more slowly than soft foods and that energy intake is lowest with hard, minimally processed foods. Combining hard-textured foods with explicit instructions to reduce eating speed has also been shown to be an effective strategy. For those inclined to seek out technology-based solution, evidence suggests that a self-monitoring wearable device can slow the eating rate.

Although the evidence is mounting that the timing and duration of meals have an impact on certain chronic diseases, clinicians should remember that these two factors are far from the most important contributors, Dr. Popp said.

“We also have to consider total caloric intake, food quality, sleep, alcohol use, smoking, and physical activity,” he said. “Meal timing should be considered as under the umbrella of health that is important for a lot of folks.”

A version of this article appeared on Medscape.com.

You are what you eat, as the adage goes. But a growing body of evidence indicates that it’s not just what and how much you eat that influence your health. How fast and when you eat also play a role.

Research now indicates that these two factors may affect the risk for gastrointestinal problems, obesity, and type 2 diabetes (T2D). Because meal timing and speed of consumption are modifiable, they present new opportunities to change patient behavior to help prevent and perhaps address these conditions.

Not So Fast

Most people are well acquainted with the short-term gastrointestinal effects of eating too quickly, which include indigestion, gas, bloating, and nausea. But regularly eating too fast can cause long-term consequences.

Obtaining a sense of fullness is key to staving off overeating and excess caloric intake. However, it takes approximately 20 minutes for the stomach to alert the brain to feelings of fullness. Eat too quickly and the fullness signaling might not set in until you’ve consumed more calories than intended. Research links this habit to excess body weight.

The practice also can lead to gastrointestinal diseases over the long term because overeating causes food to remain in the stomach longer, thus prolonging the time that the gastric mucosa is exposed to gastric acids.

A study of 10,893 adults in Korea reported that those with the fastest eating speed (< 5 min/meal) had a 1.7 times greater likelihood of endoscopic erosive gastritis than those with the slowest times (≥ 15 min/meal). Faster eating also was linked to increased risk for functional dyspepsia in a study involving 89 young-adult female military cadets in Korea with relatively controlled eating patterns.

On the extreme end of the spectrum, researchers who performed an assessment of a competitive speed eater speculated that the observed physiological accommodation required for the role (expanding the stomach to form a large flaccid sac) makes speed eaters vulnerable to morbid obesity, gastroparesis, intractable nausea and vomiting, and the need for gastrectomy.

The risk for metabolic changes and eventual development of T2D also appear to be linked to how quickly food is consumed.

Two clinical studies conducted in Japan — a cohort study of 2050 male factory workers and a nationwide study with 197,825 participants — identified a significant association between faster eating and T2D and insulin resistance. A case-control study involving 234 patients with new onset T2D and 468 controls from Lithuania linked faster eating to a greater than twofold risk for T2D. And a Chinese cross-sectional study of 7972 adults indicated that faster eating significantly increased the risk for metabolic syndrome, elevated blood pressure, and central obesity in adults.

Various hypotheses have been proposed to explain why fast eating may upset metabolic processes, including a delayed sense of fullness contributing to spiking postprandial glucose levels, lack of time for mastication causing higher glucose concentrations, and the triggering of specific cytokines (eg, interleukin-1 beta and interleukin-6) that lead to insulin resistance. It is also possible that the association is the result of people who eat quickly having relatively higher body weights, which translates to a higher risk for T2D.

However, there’s an opportunity in the association of rapid meal consumption with gastrointestinal and metabolic diseases, as people can slow the speed at which they eat so they feel full before they overeat.

A 2019 study in which 21 participants were instructed to eat a 600-kcal meal at a “normal” or “slow” pace (6 minutes or 24 minutes) found that the latter group reported feeling fuller while consuming fewer calories.

This approach may not work for all patients, however. There’s evidence to suggest that tactics to slow down eating may not limit the energy intake of those who are already overweight or obese.

Patients with obesity may physiologically differ in their processing of food, according to Michael Camilleri, MD, consultant in the Division of Gastroenterology and Hepatology at Mayo Clinic in Rochester, Minnesota.

“We have demonstrated that about 20%-25% of people with obesity actually have rapid gastric emptying,” he told this news organization. “As a result, they don’t feel full after they eat a meal and that might impact the total volume of food that they eat before they really feel full.”

The Ideal Time to Eat

It’s not only the speed at which individuals eat that may influence outcomes but when they take their meals. Research indicates that eating earlier in the day to align meals with the body’s circadian rhythms in metabolism offers health benefits.

“The focus would be to eat a meal that syncs during those daytime hours,” Collin Popp, PhD, MS, RD, a research scientist at the NYU Grossman School of Medicine in New York, told this news organization. “I typically suggest patients have their largest meal in the morning, whether that’s a large or medium-sized breakfast, or a big lunch.”

A recent cross-sectional study of 2050 participants found that having the largest meal at lunch protected against obesity (odds ratio [OR], 0.71), whereas having it at dinner increased the risk for obesity (OR, 1.67) and led to higher body mass index.

Consuming the majority of calories in meals earlier in the day may have metabolic health benefits, as well.

A 2015 randomized controlled trial involving 18 adults with obesity and T2D found that eating a high-energy breakfast and a low-energy dinner leads to reduced hyperglycemia throughout the day compared with eating a low-energy breakfast and a high-energy dinner.

Time-restricted eating (TRE), a form of intermittent fasting, also can improve metabolic health depending on the time of day.

A 2023 meta-analysis found that TRE was more effective at reducing fasting glucose levels in participants who were overweight and obese if done earlier rather than later in the day. Similarly, a 2022 study involving 82 healthy patients without diabetes or obesity found that early TRE was more effective than mid-day TRE at improving insulin sensitivity and that it improved fasting glucose and reduced total body mass and adiposity, while mid-day TRE did not.

A study that analyzed the effects of TRE in eight adult men with overweight and prediabetes found “better insulin resistance when the window of food consumption was earlier in the day,» noted endocrinologist Beverly Tchang, MD, an assistant professor of clinical medicine at Weill Cornell Medicine with a focus on obesity medication.

Patients May Benefit From Behavioral Interventions

Patients potentially negatively affected by eating too quickly or at late hours may benefit from adopting behavioral interventions to address these tendencies. To determine if a patient is a candidate for such interventions, Dr. Popp recommends starting with a simple conversation.

“When I first meet patients, I always ask them to describe to me a typical day for how they eat — when they’re eating, what they’re eating, the food quality, who are they with — to see if there’s social aspects to it. Then try and make the recommendations based on that,” said Dr. Popp, whose work focuses on biobehavioral interventions for the treatment and prevention of obesity, T2D, and other cardiometabolic outcomes.

Dr. Tchang said she encourages her patients to be mindful of hunger and fullness cues.

“Eat if you’re hungry; don’t force yourself to eat if you’re not hungry,” she said. “If you’re not sure whether you’re hungry or not, speak to a doctor because this points to an abnormality in your appetite-regulation system, which can be helped with GLP-1 [glucagon-like peptide 1] receptor agonists.”

Adjusting what patients eat can help them improve their meal timing.

“For example, we know that a high-fiber diet or a diet that has a large amount of fat in it tends to empty from the stomach slower,” Dr. Camilleri said. “That might give a sensation of fullness that lasts longer and that might prevent, for instance, the ingestion of the next meal.”

Those trying to eat more slowly are advised to seek out foods that are hard in texture and minimally processed.

A study involving 50 patients with healthy weights found that hard foods are consumed more slowly than soft foods and that energy intake is lowest with hard, minimally processed foods. Combining hard-textured foods with explicit instructions to reduce eating speed has also been shown to be an effective strategy. For those inclined to seek out technology-based solution, evidence suggests that a self-monitoring wearable device can slow the eating rate.

Although the evidence is mounting that the timing and duration of meals have an impact on certain chronic diseases, clinicians should remember that these two factors are far from the most important contributors, Dr. Popp said.

“We also have to consider total caloric intake, food quality, sleep, alcohol use, smoking, and physical activity,” he said. “Meal timing should be considered as under the umbrella of health that is important for a lot of folks.”

A version of this article appeared on Medscape.com.

SAN DIEGO — The number of solid organ transplant survivors is on the rise, a dermatologist told colleagues, and they face unique challenges from higher risks for skin cancer and skin infections because of their suppressed immune systems.

“There are over 450,000 people with a solid organ transplant living in the United States. If you do the math, that works out to about 40 organ transplant recipients for every dermatologist, so there’s a lot of them out there for us to take care of,” Sean Christensen, MD, PhD, associate professor of dermatology, Yale University, New Haven, Connecticut, said at the annual meeting of the American Academy of Dermatology (AAD). “If we expand that umbrella to include all types of immunosuppression, that’s over 4 million adults in the US.”

Dr. Christensen encouraged dermatologists to be aware of the varying risks for immunosuppressive drugs and best screening practices for these patients, and to take advantage of a validated skin cancer risk assessment tool for transplant patients.

During his presentation, he highlighted five classes of immunosuppressive drugs and their associated skin cancer risks:

• Calcineurin inhibitors (tacrolimus or cyclosporine), which cause severe immune suppression and pose a severe skin cancer risk. They may also cause gingival hyperplasia and sebaceous hyperplasia.
• Antimetabolites (mycophenolate mofetil or azathioprine), which cause moderate to severe immune suppression and pose a severe skin cancer risk.
• Mammalian target of rapamycin inhibitors (sirolimus or everolimus), which cause severe immune suppression and pose a moderate skin cancer risk. They also impair wound healing.
• Corticosteroids (prednisone), which cause mild to severe immune suppression and pose a minimal skin cancer risk.
• A decoy receptor protein (belatacept), which causes severe immune suppression and poses a mild skin cancer risk.

“Most of our solid-organ transplant recipients will be on both a calcineurin inhibitor and an antimetabolite,” Dr. Christensen said. “In addition to the skin cancer risk associated with immunosuppression, there is an additive risk” that is a direct effect of these medications on the skin. “That means our transplant recipients have a severely and disproportionate increase in skin cancer,” he noted.

Up to half of solid-organ transplant recipients will develop skin cancer, Dr. Christensen said. These patients have a sixfold to 10-fold increased risk for basal cell carcinoma (BCC), a 35- to 65-fold increased risk for squamous cell carcinoma (SCC), a twofold to sevenfold increased risk for melanoma, and a 16- to 100-fold increased risk for Merkel cell carcinoma.

Transplant recipients with SCC, he said, have a twofold to threefold higher risk for metastasis (4%-8% nodal metastasis) and twofold to fivefold higher risk for death (2%-7% mortality) from SCC.

As for other kinds of immunosuppression, HIV positivity, treatment with 6-mercaptopurine or azathioprine (for inflammatory bowel disease and rheumatoid arthritis), and antitumor necrosis factor agents (for psoriasis, inflammatory bowel disease, and rheumatoid arthritis) have been linked in studies to a higher risk for nonmelanoma skin cancer.

Dr. Christensen also highlighted graft-versus-host disease (GVHD). “It does look like there is a disproportionate and increased risk of SCC of the oropharynx and of the skin in patients who have chronic GVHD. This is probably due to a combination of both the immunosuppressive medications that are required but also from chronic and ongoing inflammation in the skin.”

Chronic GVHD has been linked to a 5.3-fold increase in the risk for SCC and a twofold increase in the risk for BCC, he added.

Moreover, new medications for treating GVHD have been linked to an increased risk for SCC, including a 3.2-fold increased risk for SCC associated with ruxolitinib, a Janus kinase (JAK) 1 and JAK2 inhibitor, in a study of patients with polycythemia vera and myelofibrosis; and a case report of SCC in a patient treated with belumosudil, a rho-associated coiled-coil-containing protein kinase-2 kinase inhibitor, for chronic GVHD. Risk for SCC appears to increase based on duration of use with voriconazole, an antifungal, which, he said, is a potent photosynthesizer.

Dr. Christensen also noted the higher risk for infections in immunocompromised patients and added that these patients can develop inflammatory disease despite immunosuppression:

Staphylococcus, Streptococcus, and Dermatophytes are the most common skin pathogens in these patients. There’s a significantly increased risk for reactivation of herpes simplex, varicella-zoster viruses, and cytomegalovirus. Opportunistic and disseminated fungal infections, such as mycobacteria, Candida, histoplasma, cryptococcus, aspergillus, and mucormycosis, can also appear.

More than 80% of transplant recipients develop molluscum and verruca vulgaris/human papillomavirus infection. They may also develop noninfectious inflammatory dermatoses.

Risk Calculator

What can dermatologists do to help transplant patients? Dr. Christensen highlighted the Skin and UV Neoplasia Transplant Risk Assessment Calculator, which predicts skin cancer risk based on points given for race, gender, skin cancer history, age at transplant, and site of transplant.

The tool, validated in a 2023 study of transplant recipients in Europe, is available online and as an app. It makes recommendations to users about when patients should have initial skin screening exams. Those with the most risk — 45% at 5 years — should be screened within 6 months. “We can use [the tool] to triage these cases when we first meet them and get them plugged into the appropriate care,” Dr. Christensen said.

He recommended seeing high-risk patients at least annually. Patients with a prior SCC and a heavy burden of actinic keratosis should be followed more frequently, he said.

In regard to SCC, he highlighted a 2024 study of solid organ transplant recipients that found the risk for a second SCC after a first SCC was 74%, the risk for a third SCC after a second SCC was 83%, and the risk for another SCC after five SCCs was 92%.

Dr. Christensen disclosed relationships with Canfield Scientific Inc. (consulting), Inhibitor Therapeutics (advisory board), and Sol-Gel Technologies Ltd. (grants/research funding).

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

SAN DIEGO — The number of solid organ transplant survivors is on the rise, a dermatologist told colleagues, and they face unique challenges from higher risks for skin cancer and skin infections because of their suppressed immune systems.

“There are over 450,000 people with a solid organ transplant living in the United States. If you do the math, that works out to about 40 organ transplant recipients for every dermatologist, so there’s a lot of them out there for us to take care of,” Sean Christensen, MD, PhD, associate professor of dermatology, Yale University, New Haven, Connecticut, said at the annual meeting of the American Academy of Dermatology (AAD). “If we expand that umbrella to include all types of immunosuppression, that’s over 4 million adults in the US.”

Dr. Christensen encouraged dermatologists to be aware of the varying risks for immunosuppressive drugs and best screening practices for these patients, and to take advantage of a validated skin cancer risk assessment tool for transplant patients.

During his presentation, he highlighted five classes of immunosuppressive drugs and their associated skin cancer risks:

• Calcineurin inhibitors (tacrolimus or cyclosporine), which cause severe immune suppression and pose a severe skin cancer risk. They may also cause gingival hyperplasia and sebaceous hyperplasia.
• Antimetabolites (mycophenolate mofetil or azathioprine), which cause moderate to severe immune suppression and pose a severe skin cancer risk.
• Mammalian target of rapamycin inhibitors (sirolimus or everolimus), which cause severe immune suppression and pose a moderate skin cancer risk. They also impair wound healing.
• Corticosteroids (prednisone), which cause mild to severe immune suppression and pose a minimal skin cancer risk.
• A decoy receptor protein (belatacept), which causes severe immune suppression and poses a mild skin cancer risk.

“Most of our solid-organ transplant recipients will be on both a calcineurin inhibitor and an antimetabolite,” Dr. Christensen said. “In addition to the skin cancer risk associated with immunosuppression, there is an additive risk” that is a direct effect of these medications on the skin. “That means our transplant recipients have a severely and disproportionate increase in skin cancer,” he noted.

Up to half of solid-organ transplant recipients will develop skin cancer, Dr. Christensen said. These patients have a sixfold to 10-fold increased risk for basal cell carcinoma (BCC), a 35- to 65-fold increased risk for squamous cell carcinoma (SCC), a twofold to sevenfold increased risk for melanoma, and a 16- to 100-fold increased risk for Merkel cell carcinoma.

Transplant recipients with SCC, he said, have a twofold to threefold higher risk for metastasis (4%-8% nodal metastasis) and twofold to fivefold higher risk for death (2%-7% mortality) from SCC.

As for other kinds of immunosuppression, HIV positivity, treatment with 6-mercaptopurine or azathioprine (for inflammatory bowel disease and rheumatoid arthritis), and antitumor necrosis factor agents (for psoriasis, inflammatory bowel disease, and rheumatoid arthritis) have been linked in studies to a higher risk for nonmelanoma skin cancer.

Dr. Christensen also highlighted graft-versus-host disease (GVHD). “It does look like there is a disproportionate and increased risk of SCC of the oropharynx and of the skin in patients who have chronic GVHD. This is probably due to a combination of both the immunosuppressive medications that are required but also from chronic and ongoing inflammation in the skin.”

Chronic GVHD has been linked to a 5.3-fold increase in the risk for SCC and a twofold increase in the risk for BCC, he added.

Moreover, new medications for treating GVHD have been linked to an increased risk for SCC, including a 3.2-fold increased risk for SCC associated with ruxolitinib, a Janus kinase (JAK) 1 and JAK2 inhibitor, in a study of patients with polycythemia vera and myelofibrosis; and a case report of SCC in a patient treated with belumosudil, a rho-associated coiled-coil-containing protein kinase-2 kinase inhibitor, for chronic GVHD. Risk for SCC appears to increase based on duration of use with voriconazole, an antifungal, which, he said, is a potent photosynthesizer.

Dr. Christensen also noted the higher risk for infections in immunocompromised patients and added that these patients can develop inflammatory disease despite immunosuppression:

Staphylococcus, Streptococcus, and Dermatophytes are the most common skin pathogens in these patients. There’s a significantly increased risk for reactivation of herpes simplex, varicella-zoster viruses, and cytomegalovirus. Opportunistic and disseminated fungal infections, such as mycobacteria, Candida, histoplasma, cryptococcus, aspergillus, and mucormycosis, can also appear.

More than 80% of transplant recipients develop molluscum and verruca vulgaris/human papillomavirus infection. They may also develop noninfectious inflammatory dermatoses.

Risk Calculator

What can dermatologists do to help transplant patients? Dr. Christensen highlighted the Skin and UV Neoplasia Transplant Risk Assessment Calculator, which predicts skin cancer risk based on points given for race, gender, skin cancer history, age at transplant, and site of transplant.

The tool, validated in a 2023 study of transplant recipients in Europe, is available online and as an app. It makes recommendations to users about when patients should have initial skin screening exams. Those with the most risk — 45% at 5 years — should be screened within 6 months. “We can use [the tool] to triage these cases when we first meet them and get them plugged into the appropriate care,” Dr. Christensen said.

He recommended seeing high-risk patients at least annually. Patients with a prior SCC and a heavy burden of actinic keratosis should be followed more frequently, he said.

In regard to SCC, he highlighted a 2024 study of solid organ transplant recipients that found the risk for a second SCC after a first SCC was 74%, the risk for a third SCC after a second SCC was 83%, and the risk for another SCC after five SCCs was 92%.

Dr. Christensen disclosed relationships with Canfield Scientific Inc. (consulting), Inhibitor Therapeutics (advisory board), and Sol-Gel Technologies Ltd. (grants/research funding).

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

SAN DIEGO — The number of solid organ transplant survivors is on the rise, a dermatologist told colleagues, and they face unique challenges from higher risks for skin cancer and skin infections because of their suppressed immune systems.

“There are over 450,000 people with a solid organ transplant living in the United States. If you do the math, that works out to about 40 organ transplant recipients for every dermatologist, so there’s a lot of them out there for us to take care of,” Sean Christensen, MD, PhD, associate professor of dermatology, Yale University, New Haven, Connecticut, said at the annual meeting of the American Academy of Dermatology (AAD). “If we expand that umbrella to include all types of immunosuppression, that’s over 4 million adults in the US.”

Dr. Christensen encouraged dermatologists to be aware of the varying risks for immunosuppressive drugs and best screening practices for these patients, and to take advantage of a validated skin cancer risk assessment tool for transplant patients.

During his presentation, he highlighted five classes of immunosuppressive drugs and their associated skin cancer risks:

• Calcineurin inhibitors (tacrolimus or cyclosporine), which cause severe immune suppression and pose a severe skin cancer risk. They may also cause gingival hyperplasia and sebaceous hyperplasia.
• Antimetabolites (mycophenolate mofetil or azathioprine), which cause moderate to severe immune suppression and pose a severe skin cancer risk.
• Mammalian target of rapamycin inhibitors (sirolimus or everolimus), which cause severe immune suppression and pose a moderate skin cancer risk. They also impair wound healing.
• Corticosteroids (prednisone), which cause mild to severe immune suppression and pose a minimal skin cancer risk.
• A decoy receptor protein (belatacept), which causes severe immune suppression and poses a mild skin cancer risk.

“Most of our solid-organ transplant recipients will be on both a calcineurin inhibitor and an antimetabolite,” Dr. Christensen said. “In addition to the skin cancer risk associated with immunosuppression, there is an additive risk” that is a direct effect of these medications on the skin. “That means our transplant recipients have a severely and disproportionate increase in skin cancer,” he noted.

Up to half of solid-organ transplant recipients will develop skin cancer, Dr. Christensen said. These patients have a sixfold to 10-fold increased risk for basal cell carcinoma (BCC), a 35- to 65-fold increased risk for squamous cell carcinoma (SCC), a twofold to sevenfold increased risk for melanoma, and a 16- to 100-fold increased risk for Merkel cell carcinoma.

Transplant recipients with SCC, he said, have a twofold to threefold higher risk for metastasis (4%-8% nodal metastasis) and twofold to fivefold higher risk for death (2%-7% mortality) from SCC.

As for other kinds of immunosuppression, HIV positivity, treatment with 6-mercaptopurine or azathioprine (for inflammatory bowel disease and rheumatoid arthritis), and antitumor necrosis factor agents (for psoriasis, inflammatory bowel disease, and rheumatoid arthritis) have been linked in studies to a higher risk for nonmelanoma skin cancer.

Dr. Christensen also highlighted graft-versus-host disease (GVHD). “It does look like there is a disproportionate and increased risk of SCC of the oropharynx and of the skin in patients who have chronic GVHD. This is probably due to a combination of both the immunosuppressive medications that are required but also from chronic and ongoing inflammation in the skin.”

Chronic GVHD has been linked to a 5.3-fold increase in the risk for SCC and a twofold increase in the risk for BCC, he added.

Moreover, new medications for treating GVHD have been linked to an increased risk for SCC, including a 3.2-fold increased risk for SCC associated with ruxolitinib, a Janus kinase (JAK) 1 and JAK2 inhibitor, in a study of patients with polycythemia vera and myelofibrosis; and a case report of SCC in a patient treated with belumosudil, a rho-associated coiled-coil-containing protein kinase-2 kinase inhibitor, for chronic GVHD. Risk for SCC appears to increase based on duration of use with voriconazole, an antifungal, which, he said, is a potent photosynthesizer.

Dr. Christensen also noted the higher risk for infections in immunocompromised patients and added that these patients can develop inflammatory disease despite immunosuppression:

Staphylococcus, Streptococcus, and Dermatophytes are the most common skin pathogens in these patients. There’s a significantly increased risk for reactivation of herpes simplex, varicella-zoster viruses, and cytomegalovirus. Opportunistic and disseminated fungal infections, such as mycobacteria, Candida, histoplasma, cryptococcus, aspergillus, and mucormycosis, can also appear.

More than 80% of transplant recipients develop molluscum and verruca vulgaris/human papillomavirus infection. They may also develop noninfectious inflammatory dermatoses.

Risk Calculator

What can dermatologists do to help transplant patients? Dr. Christensen highlighted the Skin and UV Neoplasia Transplant Risk Assessment Calculator, which predicts skin cancer risk based on points given for race, gender, skin cancer history, age at transplant, and site of transplant.

The tool, validated in a 2023 study of transplant recipients in Europe, is available online and as an app. It makes recommendations to users about when patients should have initial skin screening exams. Those with the most risk — 45% at 5 years — should be screened within 6 months. “We can use [the tool] to triage these cases when we first meet them and get them plugged into the appropriate care,” Dr. Christensen said.

He recommended seeing high-risk patients at least annually. Patients with a prior SCC and a heavy burden of actinic keratosis should be followed more frequently, he said.

In regard to SCC, he highlighted a 2024 study of solid organ transplant recipients that found the risk for a second SCC after a first SCC was 74%, the risk for a third SCC after a second SCC was 83%, and the risk for another SCC after five SCCs was 92%.

Dr. Christensen disclosed relationships with Canfield Scientific Inc. (consulting), Inhibitor Therapeutics (advisory board), and Sol-Gel Technologies Ltd. (grants/research funding).

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

TOPLINE:

Trimethylamine N-oxide (TMAO) is a gut microbiota-derived metabolite generated by metabolism of dietary L-carnitine, primarily from red meat, and choline, from a variety of animal source foods. TMAO has been shown to cause kidney injury and tubulointerstitial fibrosis in experimental models.

In this study, TMAO was independently associated with higher risks for incident chronic kidney disease (CKD) and faster kidney function decline in humans.

The findings suggest that TMAO may be a novel risk factor and intervention target for CKD prevention and treatment.

METHODOLOGY:

• Study population was 10,564 participants from two community-based, prospective cohorts without baseline CKD (estimated glomerular filtration rate [eGFR] ≥ 60 mL/min/1.73 m²).
• Incident CKD was defined as eGFR decline ≥ 30% from baseline, resulting in eGFR < 60 mL/min/1.73 m².

TAKEAWAY:

• During a median 9.4 years, 979 incident CKD events occurred.
• Correlation between baseline TMAO and total meat intake was small but statistically significant (P = .08).
• After adjustments for sociodemographic, lifestyle, diet, and cardiovascular risk factors, higher plasma TMAO was associated with more than doubled CKD incidence (hazard ratio, 2.24 for top vs bottom quintile).
• Higher TMAO levels were also associated with greater annual eGFR decline (top vs bottom quintile eGFR change = −0.43 mL/min/1.73 m² per year.
• Compared with other major CKD risk factors, the association for the top vs bottom TMAO quintile (−0.43 mL/min/1.73 m² per year) was similar to that seen per 10 years of older age (−0.43) and presence of diabetes (−0.51), and larger than that seen comparing Black vs non-Black race (−0.28) and per 10 mm Hg systolic blood pressure (−0.16).

IN PRACTICE:

“TMAO levels are highly modifiable by both lifestyle-like diet and pharmacologic interventions. Besides using novel drugs to lower TMAO in patients, using dietary interventions to lower TMAO in the general population could be a cost-efficient and low-risk preventive strategy for chronic kidney disease development. ... These findings support future studies to investigate whether lifestyle and pharmacologic interventions to lower TMAO may prevent CKD development and progression.”

SOURCE:

The study was conducted by Meng Wang, PhD, of Tufts University, Boston, and colleagues and published online in the Journal of the American Society of Nephrology.

LIMITATIONS:

Observational design, can’t exclude residual confounding.

Inter-assay variability.

Use of International Classification of Diseases codes for hospitalization-based CKD, subject to reporting errors.

DISCLOSURES:

The study was supported by grants from the National Institutes of Health and an American Heart Association Postdoctoral Fellowship. Dr. Wang had no disclosures but several coauthors have patents on various diagnostics and/or industry disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

Trimethylamine N-oxide (TMAO) is a gut microbiota-derived metabolite generated by metabolism of dietary L-carnitine, primarily from red meat, and choline, from a variety of animal source foods. TMAO has been shown to cause kidney injury and tubulointerstitial fibrosis in experimental models.

In this study, TMAO was independently associated with higher risks for incident chronic kidney disease (CKD) and faster kidney function decline in humans.

The findings suggest that TMAO may be a novel risk factor and intervention target for CKD prevention and treatment.

METHODOLOGY:

• Study population was 10,564 participants from two community-based, prospective cohorts without baseline CKD (estimated glomerular filtration rate [eGFR] ≥ 60 mL/min/1.73 m²).
• Incident CKD was defined as eGFR decline ≥ 30% from baseline, resulting in eGFR < 60 mL/min/1.73 m².

TAKEAWAY:

• During a median 9.4 years, 979 incident CKD events occurred.
• Correlation between baseline TMAO and total meat intake was small but statistically significant (P = .08).
• After adjustments for sociodemographic, lifestyle, diet, and cardiovascular risk factors, higher plasma TMAO was associated with more than doubled CKD incidence (hazard ratio, 2.24 for top vs bottom quintile).
• Higher TMAO levels were also associated with greater annual eGFR decline (top vs bottom quintile eGFR change = −0.43 mL/min/1.73 m² per year.
• Compared with other major CKD risk factors, the association for the top vs bottom TMAO quintile (−0.43 mL/min/1.73 m² per year) was similar to that seen per 10 years of older age (−0.43) and presence of diabetes (−0.51), and larger than that seen comparing Black vs non-Black race (−0.28) and per 10 mm Hg systolic blood pressure (−0.16).

IN PRACTICE:

“TMAO levels are highly modifiable by both lifestyle-like diet and pharmacologic interventions. Besides using novel drugs to lower TMAO in patients, using dietary interventions to lower TMAO in the general population could be a cost-efficient and low-risk preventive strategy for chronic kidney disease development. ... These findings support future studies to investigate whether lifestyle and pharmacologic interventions to lower TMAO may prevent CKD development and progression.”

SOURCE:

The study was conducted by Meng Wang, PhD, of Tufts University, Boston, and colleagues and published online in the Journal of the American Society of Nephrology.

LIMITATIONS:

Observational design, can’t exclude residual confounding.

Inter-assay variability.

Use of International Classification of Diseases codes for hospitalization-based CKD, subject to reporting errors.

DISCLOSURES:

The study was supported by grants from the National Institutes of Health and an American Heart Association Postdoctoral Fellowship. Dr. Wang had no disclosures but several coauthors have patents on various diagnostics and/or industry disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

Trimethylamine N-oxide (TMAO) is a gut microbiota-derived metabolite generated by metabolism of dietary L-carnitine, primarily from red meat, and choline, from a variety of animal source foods. TMAO has been shown to cause kidney injury and tubulointerstitial fibrosis in experimental models.

In this study, TMAO was independently associated with higher risks for incident chronic kidney disease (CKD) and faster kidney function decline in humans.

The findings suggest that TMAO may be a novel risk factor and intervention target for CKD prevention and treatment.

METHODOLOGY:

• Study population was 10,564 participants from two community-based, prospective cohorts without baseline CKD (estimated glomerular filtration rate [eGFR] ≥ 60 mL/min/1.73 m²).
• Incident CKD was defined as eGFR decline ≥ 30% from baseline, resulting in eGFR < 60 mL/min/1.73 m².

TAKEAWAY:

• During a median 9.4 years, 979 incident CKD events occurred.
• Correlation between baseline TMAO and total meat intake was small but statistically significant (P = .08).
• After adjustments for sociodemographic, lifestyle, diet, and cardiovascular risk factors, higher plasma TMAO was associated with more than doubled CKD incidence (hazard ratio, 2.24 for top vs bottom quintile).
• Higher TMAO levels were also associated with greater annual eGFR decline (top vs bottom quintile eGFR change = −0.43 mL/min/1.73 m² per year.
• Compared with other major CKD risk factors, the association for the top vs bottom TMAO quintile (−0.43 mL/min/1.73 m² per year) was similar to that seen per 10 years of older age (−0.43) and presence of diabetes (−0.51), and larger than that seen comparing Black vs non-Black race (−0.28) and per 10 mm Hg systolic blood pressure (−0.16).

IN PRACTICE:

“TMAO levels are highly modifiable by both lifestyle-like diet and pharmacologic interventions. Besides using novel drugs to lower TMAO in patients, using dietary interventions to lower TMAO in the general population could be a cost-efficient and low-risk preventive strategy for chronic kidney disease development. ... These findings support future studies to investigate whether lifestyle and pharmacologic interventions to lower TMAO may prevent CKD development and progression.”

SOURCE:

The study was conducted by Meng Wang, PhD, of Tufts University, Boston, and colleagues and published online in the Journal of the American Society of Nephrology.

LIMITATIONS:

Observational design, can’t exclude residual confounding.

Inter-assay variability.

Use of International Classification of Diseases codes for hospitalization-based CKD, subject to reporting errors.

DISCLOSURES:

The study was supported by grants from the National Institutes of Health and an American Heart Association Postdoctoral Fellowship. Dr. Wang had no disclosures but several coauthors have patents on various diagnostics and/or industry disclosures.

A version of this article appeared on Medscape.com.

Dermatologists are well aware of guidelines limiting long-term antibiotic use for acne to 3-4 months, but a perceived lack of supporting data, along with in-office realities unaddressed by guidelines, hinder clinicians’ ability and willingness to follow them, according to the authors of a recently published study.

“This study explored why dermatologists still prescribe a good number of long-term antibiotics for people with acne,” the study’s senior author Howa Yeung, MD, MSc, assistant professor of dermatology at Emory University, Atlanta, said in an interview. “And we found a lot of reasons.” The study was published online in JAMA Dermatology.

Dr. Yeung

Using online surveys and semi-structured video interviews of 30 dermatologists, infectious disease physicians with expertise in antimicrobial stewardship, dermatology residents, and nonphysician clinicians, the investigators assessed respondents’ knowledge and attitudes regarding long-term antibiotics in acne. Salient themes impacting long-term antibiotic prescriptions included the following:

• A perceived dearth of evidence to justify changes in practice.
• Difficulties with iPLEDGE, the Risk Evaluation and Mitigation Strategy (REMS) for managing the teratogenic risks associated with isotretinoin, and with discussing oral contraceptives.
• “Navigating” discussions with about tapering-off of antibiotics.
• Challenging patient demands.
• A lack of effective tools for monitoring progress in antibiotic stewardship.

“It’s surprising there are so many barriers that make it difficult for dermatologists to stick with the guidelines even if they want to,” said Dr. Yeung, a coauthor of the recently released updated American Academy of Dermatology (AAD) acne management guidelines.

A dermatologist who wants to stop systemic antibiotics within 3 months may not know how to do so, he explained, or high demand for appointments may prevent timely follow-ups.

A major reason why dermatologists struggle to limit long-term antibiotic use is that there are very few substitutes that are perceived to work as well, said David J. Margolis, MD, PhD, who was not involved with the study and was asked to comment on the results. He is professor of epidemiology and dermatology at the University of Pennsylvania, Philadelphia.

Dr. Margolis

“Part of the reason antibiotics are being used to treat acne is that they’re effective, and effective for severe disease,” he said. The alternatives, which are mostly topicals, said Dr. Margolis, do not work as well for moderate to severe disease or, with isotretinoin, involve time-consuming hurdles. Dr. Margolis said that he often hears such concerns from individual dermatologists. “But it’s helpful to see these in a well-organized, well-reported qualitative study.”

Infectious disease specialists surveyed considered limiting long-term antibiotic use as extremely important, while several dermatologists “argued that other specialties ‘underestimate the impact acne has on people’s lives,’ ” the authors wrote. Other respondents prioritized making the right choice for the patient at hand.

Although guidelines were never meant to be black and white, Dr. Yeung said, it is crucial to target the goal of tapering off after about 3-4 months — a cutoff with which guidelines from groups including the AAD, the Japanese Dermatological Association in guidelines from 2016, and 2017, respectively, and others concur.

He added, “Some folks believe that if the oral antibiotic is working, why stop? We need to develop evidence to show that reducing oral antibiotic use is important to our patients, not just to a theoretical problem of antibiotic resistance in society.” For example, in a study published in The Lancet in 2004, patients who used strictly topical regimens achieved efficacy similar to that of those who used only oral antibiotics.

In addition, some clinicians worried that limiting antibiotics could reduce patient satisfaction, spurring switches to other providers. However, he and the other authors of the JAMA Dermatology study noted that in a survey of patients with acne published in the Journal of Clinical and Aesthetic Dermatology in 2019, 76.9% said they would be “very or extremely likely” to use effective antibiotic-free treatments if offered.

Because most respondents were highly aware of the importance of antibiotic stewardship, Dr. Yeung said, additional passive education is not necessarily the answer. “It will take a concerted effort by our national societies to come up with resources and solutions for individual dermatologists to overcome some of these larger barriers.” Such solutions could range from training in communication and shared decision-making to implementing systems that provide individualized feedback to support antibiotic stewardship.

Many ongoing studies are examining antibiotic stewardship, Dr. Margolis said in the interview. However, he added, dermatologists’ idea of long-term use is 3 months, versus 1 month or less in other specialties. “Moreover, dermatology patients tend to be much healthier individuals and are rarely hospitalized, so there may be some issues comparing the ongoing studies to individuals with acne.” Future research will need to account for such differences, he said.

The study was funded by an American Acne & Rosacea Society Clinical Research Award. Dr. Yeung is associate editor of JAMA Dermatology. Dr. Margolis has received a National Institutes of Health grant to study doxycycline versus spironolactone in acne.

Dermatologists are well aware of guidelines limiting long-term antibiotic use for acne to 3-4 months, but a perceived lack of supporting data, along with in-office realities unaddressed by guidelines, hinder clinicians’ ability and willingness to follow them, according to the authors of a recently published study.

“This study explored why dermatologists still prescribe a good number of long-term antibiotics for people with acne,” the study’s senior author Howa Yeung, MD, MSc, assistant professor of dermatology at Emory University, Atlanta, said in an interview. “And we found a lot of reasons.” The study was published online in JAMA Dermatology.

Dr. Yeung

Using online surveys and semi-structured video interviews of 30 dermatologists, infectious disease physicians with expertise in antimicrobial stewardship, dermatology residents, and nonphysician clinicians, the investigators assessed respondents’ knowledge and attitudes regarding long-term antibiotics in acne. Salient themes impacting long-term antibiotic prescriptions included the following:

• A perceived dearth of evidence to justify changes in practice.
• Difficulties with iPLEDGE, the Risk Evaluation and Mitigation Strategy (REMS) for managing the teratogenic risks associated with isotretinoin, and with discussing oral contraceptives.
• “Navigating” discussions with about tapering-off of antibiotics.
• Challenging patient demands.
• A lack of effective tools for monitoring progress in antibiotic stewardship.

“It’s surprising there are so many barriers that make it difficult for dermatologists to stick with the guidelines even if they want to,” said Dr. Yeung, a coauthor of the recently released updated American Academy of Dermatology (AAD) acne management guidelines.

A dermatologist who wants to stop systemic antibiotics within 3 months may not know how to do so, he explained, or high demand for appointments may prevent timely follow-ups.

A major reason why dermatologists struggle to limit long-term antibiotic use is that there are very few substitutes that are perceived to work as well, said David J. Margolis, MD, PhD, who was not involved with the study and was asked to comment on the results. He is professor of epidemiology and dermatology at the University of Pennsylvania, Philadelphia.

Dr. Margolis

“Part of the reason antibiotics are being used to treat acne is that they’re effective, and effective for severe disease,” he said. The alternatives, which are mostly topicals, said Dr. Margolis, do not work as well for moderate to severe disease or, with isotretinoin, involve time-consuming hurdles. Dr. Margolis said that he often hears such concerns from individual dermatologists. “But it’s helpful to see these in a well-organized, well-reported qualitative study.”

Infectious disease specialists surveyed considered limiting long-term antibiotic use as extremely important, while several dermatologists “argued that other specialties ‘underestimate the impact acne has on people’s lives,’ ” the authors wrote. Other respondents prioritized making the right choice for the patient at hand.

Although guidelines were never meant to be black and white, Dr. Yeung said, it is crucial to target the goal of tapering off after about 3-4 months — a cutoff with which guidelines from groups including the AAD, the Japanese Dermatological Association in guidelines from 2016, and 2017, respectively, and others concur.

He added, “Some folks believe that if the oral antibiotic is working, why stop? We need to develop evidence to show that reducing oral antibiotic use is important to our patients, not just to a theoretical problem of antibiotic resistance in society.” For example, in a study published in The Lancet in 2004, patients who used strictly topical regimens achieved efficacy similar to that of those who used only oral antibiotics.

In addition, some clinicians worried that limiting antibiotics could reduce patient satisfaction, spurring switches to other providers. However, he and the other authors of the JAMA Dermatology study noted that in a survey of patients with acne published in the Journal of Clinical and Aesthetic Dermatology in 2019, 76.9% said they would be “very or extremely likely” to use effective antibiotic-free treatments if offered.

Because most respondents were highly aware of the importance of antibiotic stewardship, Dr. Yeung said, additional passive education is not necessarily the answer. “It will take a concerted effort by our national societies to come up with resources and solutions for individual dermatologists to overcome some of these larger barriers.” Such solutions could range from training in communication and shared decision-making to implementing systems that provide individualized feedback to support antibiotic stewardship.

Many ongoing studies are examining antibiotic stewardship, Dr. Margolis said in the interview. However, he added, dermatologists’ idea of long-term use is 3 months, versus 1 month or less in other specialties. “Moreover, dermatology patients tend to be much healthier individuals and are rarely hospitalized, so there may be some issues comparing the ongoing studies to individuals with acne.” Future research will need to account for such differences, he said.

The study was funded by an American Acne & Rosacea Society Clinical Research Award. Dr. Yeung is associate editor of JAMA Dermatology. Dr. Margolis has received a National Institutes of Health grant to study doxycycline versus spironolactone in acne.

Dermatologists are well aware of guidelines limiting long-term antibiotic use for acne to 3-4 months, but a perceived lack of supporting data, along with in-office realities unaddressed by guidelines, hinder clinicians’ ability and willingness to follow them, according to the authors of a recently published study.

“This study explored why dermatologists still prescribe a good number of long-term antibiotics for people with acne,” the study’s senior author Howa Yeung, MD, MSc, assistant professor of dermatology at Emory University, Atlanta, said in an interview. “And we found a lot of reasons.” The study was published online in JAMA Dermatology.

Dr. Yeung

Using online surveys and semi-structured video interviews of 30 dermatologists, infectious disease physicians with expertise in antimicrobial stewardship, dermatology residents, and nonphysician clinicians, the investigators assessed respondents’ knowledge and attitudes regarding long-term antibiotics in acne. Salient themes impacting long-term antibiotic prescriptions included the following:

• A perceived dearth of evidence to justify changes in practice.
• Difficulties with iPLEDGE, the Risk Evaluation and Mitigation Strategy (REMS) for managing the teratogenic risks associated with isotretinoin, and with discussing oral contraceptives.
• “Navigating” discussions with about tapering-off of antibiotics.
• Challenging patient demands.
• A lack of effective tools for monitoring progress in antibiotic stewardship.

“It’s surprising there are so many barriers that make it difficult for dermatologists to stick with the guidelines even if they want to,” said Dr. Yeung, a coauthor of the recently released updated American Academy of Dermatology (AAD) acne management guidelines.

A dermatologist who wants to stop systemic antibiotics within 3 months may not know how to do so, he explained, or high demand for appointments may prevent timely follow-ups.

A major reason why dermatologists struggle to limit long-term antibiotic use is that there are very few substitutes that are perceived to work as well, said David J. Margolis, MD, PhD, who was not involved with the study and was asked to comment on the results. He is professor of epidemiology and dermatology at the University of Pennsylvania, Philadelphia.

Dr. Margolis

“Part of the reason antibiotics are being used to treat acne is that they’re effective, and effective for severe disease,” he said. The alternatives, which are mostly topicals, said Dr. Margolis, do not work as well for moderate to severe disease or, with isotretinoin, involve time-consuming hurdles. Dr. Margolis said that he often hears such concerns from individual dermatologists. “But it’s helpful to see these in a well-organized, well-reported qualitative study.”

Infectious disease specialists surveyed considered limiting long-term antibiotic use as extremely important, while several dermatologists “argued that other specialties ‘underestimate the impact acne has on people’s lives,’ ” the authors wrote. Other respondents prioritized making the right choice for the patient at hand.

Although guidelines were never meant to be black and white, Dr. Yeung said, it is crucial to target the goal of tapering off after about 3-4 months — a cutoff with which guidelines from groups including the AAD, the Japanese Dermatological Association in guidelines from 2016, and 2017, respectively, and others concur.

He added, “Some folks believe that if the oral antibiotic is working, why stop? We need to develop evidence to show that reducing oral antibiotic use is important to our patients, not just to a theoretical problem of antibiotic resistance in society.” For example, in a study published in The Lancet in 2004, patients who used strictly topical regimens achieved efficacy similar to that of those who used only oral antibiotics.

In addition, some clinicians worried that limiting antibiotics could reduce patient satisfaction, spurring switches to other providers. However, he and the other authors of the JAMA Dermatology study noted that in a survey of patients with acne published in the Journal of Clinical and Aesthetic Dermatology in 2019, 76.9% said they would be “very or extremely likely” to use effective antibiotic-free treatments if offered.

Because most respondents were highly aware of the importance of antibiotic stewardship, Dr. Yeung said, additional passive education is not necessarily the answer. “It will take a concerted effort by our national societies to come up with resources and solutions for individual dermatologists to overcome some of these larger barriers.” Such solutions could range from training in communication and shared decision-making to implementing systems that provide individualized feedback to support antibiotic stewardship.

Many ongoing studies are examining antibiotic stewardship, Dr. Margolis said in the interview. However, he added, dermatologists’ idea of long-term use is 3 months, versus 1 month or less in other specialties. “Moreover, dermatology patients tend to be much healthier individuals and are rarely hospitalized, so there may be some issues comparing the ongoing studies to individuals with acne.” Future research will need to account for such differences, he said.

The study was funded by an American Acne & Rosacea Society Clinical Research Award. Dr. Yeung is associate editor of JAMA Dermatology. Dr. Margolis has received a National Institutes of Health grant to study doxycycline versus spironolactone in acne.

A rigorously conducted trial in men with androgenetic alopecia found that low-dose oral minoxidil was as effective in promoting hair growth as was topical minoxidil.

Oral minoxidil, 5 mg once a day, “did not demonstrate superiority” over topical minoxidil, 5%, applied twice a day, after 24 weeks, reported Mariana Alvares Penha, MD, of the department of dermatology at São Paulo State University, in Botucatu, Brazil, and coauthors. Their randomized, controlled, double-blind study was published online in JAMA Dermatology.

Topical minoxidil is approved by the US Food and Drug Administration (FDA) for androgenetic alopecia (AGA), but there has been increasing interest worldwide in the use of low-dose oral minoxidil, a vasodilator approved as an antihypertensive, as an alternative treatment.

The trial “is important information that’s never been elucidated before,” Adam Friedman, MD, professor and chair of dermatology at George Washington University, Washington, said in an interview. The data, he added, can be used to reassure patients who do not want to take the oral form of the drug that a topical is just as effective.

“This study does let us counsel patients better and really give them the evidence,” said Shari Lipner, MD, PhD, associate professor of clinical dermatology at Weill Cornell Medicine, New York, who was also asked to comment on the results.

Both Dr. Lipner and Dr. Friedman said the study was well-designed.

The investigators enrolled 90 men aged 18-55; 68 completed the trial. Most had mild to moderate AGA. Men were excluded if they had received treatment for alopecia in the previous 6 months, a history of hair transplant, cardiopathy, nephropathy, dermatoses involving the scalp, any clinical conditions causing hair loss, or hypersensitivity to minoxidil.

They were randomized to receive either 5 mg of oral minoxidil a day, plus a placebo solution to apply to the scalp, or topical minoxidil solution (5%) applied twice a day plus placebo capsules. They were told to take a capsule at bedtime and to apply 1 mL of the solution to dry hair in the morning and at night.

The final analysis included 35 men in the topical group and 33 in the oral group (mean age, 36.6 years). Seven people in the topical group and 11 in the oral group were not able to attend the final appointment at 24 weeks. Three additional patients in the topical group dropped out for insomnia, hair shedding, and scalp eczema, while one dropped out of the oral group because of headache.

At 24 weeks, the percentage increase in terminal hair density in the oral minoxidil group was 27% higher (P = .005) in the vertex and 13% higher (P = .15) in the frontal scalp, compared with the topical-treated group.

Total hair density increased by 2% in the oral group compared with topical treatment in the vertex and decreased by 0.2% in the frontal area compared with topical treatment. None of these differences were statistically significant.

Three dermatologists blinded to the treatments, who analyzed photographs, determined that 60% of the men in the oral group and 48% in the topical group had clinical improvement in the frontal area, which was not statistically significant. More orally-treated patients had improvement in the vertex area: 70% compared with 46% of those on topical treatment (P = .04).

Hypertrichosis, Headache

Of the original 90 patients in the trial, more men taking oral minoxidil had hypertrichosis: 49% compared with 25% in the topical formulation group. Headache was also more common among those on oral minoxidil: six cases (14%) vs. one case (2%) among those on topical minoxidil. There was no difference in mean arterial blood pressure or resting heart rate between the two groups. Transient hair loss was more common with topical treatment, but it was not significant.

Dr. Friedman said that the study results would not change how he practices, but that it would give him data to use to inform patients who do not want to take oral minoxidil. He generally prescribes the oral form, unless patients do not want to take it or there is a medical contraindication, which he said is rare.

“I personally think oral is superior to topical,” mainly “because the patient’s actually using it,” said Dr. Friedman. “They’re more likely to take a pill a day versus apply something topically twice a day,” he added.

Both Dr. Lipner and Dr. Friedman said that they doubted that individuals could — or would want to — follow the twice-daily topical regimen used in the trial.

“In real life, not in the clinical trial scenario, it may be very hard for patients to comply with putting on the topical minoxidil twice a day or even once a day,” Dr. Lipner said.

However, she continues to prescribe more topical minoxidil than oral, because she believes “there’s less potential for side effects.” For patients who can adhere to the topical regimen, the study shows that they will get results, said Dr. Lipner.

Dr. Friedman, however, said that for patients who are looking at a lifetime of medication, “an oral will always win out on a topical to the scalp from an adherence perspective.”

The study was supported by the Brazilian Dermatology Society Support Fund. Dr. Penha reported receiving grants from the fund; no other disclosures were reported. Dr. Friedman and Dr. Lipner reported no conflicts related to minoxidil.

A rigorously conducted trial in men with androgenetic alopecia found that low-dose oral minoxidil was as effective in promoting hair growth as was topical minoxidil.

Oral minoxidil, 5 mg once a day, “did not demonstrate superiority” over topical minoxidil, 5%, applied twice a day, after 24 weeks, reported Mariana Alvares Penha, MD, of the department of dermatology at São Paulo State University, in Botucatu, Brazil, and coauthors. Their randomized, controlled, double-blind study was published online in JAMA Dermatology.

Topical minoxidil is approved by the US Food and Drug Administration (FDA) for androgenetic alopecia (AGA), but there has been increasing interest worldwide in the use of low-dose oral minoxidil, a vasodilator approved as an antihypertensive, as an alternative treatment.

The trial “is important information that’s never been elucidated before,” Adam Friedman, MD, professor and chair of dermatology at George Washington University, Washington, said in an interview. The data, he added, can be used to reassure patients who do not want to take the oral form of the drug that a topical is just as effective.

“This study does let us counsel patients better and really give them the evidence,” said Shari Lipner, MD, PhD, associate professor of clinical dermatology at Weill Cornell Medicine, New York, who was also asked to comment on the results.

Both Dr. Lipner and Dr. Friedman said the study was well-designed.

The investigators enrolled 90 men aged 18-55; 68 completed the trial. Most had mild to moderate AGA. Men were excluded if they had received treatment for alopecia in the previous 6 months, a history of hair transplant, cardiopathy, nephropathy, dermatoses involving the scalp, any clinical conditions causing hair loss, or hypersensitivity to minoxidil.

They were randomized to receive either 5 mg of oral minoxidil a day, plus a placebo solution to apply to the scalp, or topical minoxidil solution (5%) applied twice a day plus placebo capsules. They were told to take a capsule at bedtime and to apply 1 mL of the solution to dry hair in the morning and at night.

The final analysis included 35 men in the topical group and 33 in the oral group (mean age, 36.6 years). Seven people in the topical group and 11 in the oral group were not able to attend the final appointment at 24 weeks. Three additional patients in the topical group dropped out for insomnia, hair shedding, and scalp eczema, while one dropped out of the oral group because of headache.

At 24 weeks, the percentage increase in terminal hair density in the oral minoxidil group was 27% higher (P = .005) in the vertex and 13% higher (P = .15) in the frontal scalp, compared with the topical-treated group.

Total hair density increased by 2% in the oral group compared with topical treatment in the vertex and decreased by 0.2% in the frontal area compared with topical treatment. None of these differences were statistically significant.

Three dermatologists blinded to the treatments, who analyzed photographs, determined that 60% of the men in the oral group and 48% in the topical group had clinical improvement in the frontal area, which was not statistically significant. More orally-treated patients had improvement in the vertex area: 70% compared with 46% of those on topical treatment (P = .04).

Hypertrichosis, Headache

Of the original 90 patients in the trial, more men taking oral minoxidil had hypertrichosis: 49% compared with 25% in the topical formulation group. Headache was also more common among those on oral minoxidil: six cases (14%) vs. one case (2%) among those on topical minoxidil. There was no difference in mean arterial blood pressure or resting heart rate between the two groups. Transient hair loss was more common with topical treatment, but it was not significant.

Dr. Friedman said that the study results would not change how he practices, but that it would give him data to use to inform patients who do not want to take oral minoxidil. He generally prescribes the oral form, unless patients do not want to take it or there is a medical contraindication, which he said is rare.

“I personally think oral is superior to topical,” mainly “because the patient’s actually using it,” said Dr. Friedman. “They’re more likely to take a pill a day versus apply something topically twice a day,” he added.

Both Dr. Lipner and Dr. Friedman said that they doubted that individuals could — or would want to — follow the twice-daily topical regimen used in the trial.

“In real life, not in the clinical trial scenario, it may be very hard for patients to comply with putting on the topical minoxidil twice a day or even once a day,” Dr. Lipner said.

However, she continues to prescribe more topical minoxidil than oral, because she believes “there’s less potential for side effects.” For patients who can adhere to the topical regimen, the study shows that they will get results, said Dr. Lipner.

Dr. Friedman, however, said that for patients who are looking at a lifetime of medication, “an oral will always win out on a topical to the scalp from an adherence perspective.”

The study was supported by the Brazilian Dermatology Society Support Fund. Dr. Penha reported receiving grants from the fund; no other disclosures were reported. Dr. Friedman and Dr. Lipner reported no conflicts related to minoxidil.

A rigorously conducted trial in men with androgenetic alopecia found that low-dose oral minoxidil was as effective in promoting hair growth as was topical minoxidil.

Oral minoxidil, 5 mg once a day, “did not demonstrate superiority” over topical minoxidil, 5%, applied twice a day, after 24 weeks, reported Mariana Alvares Penha, MD, of the department of dermatology at São Paulo State University, in Botucatu, Brazil, and coauthors. Their randomized, controlled, double-blind study was published online in JAMA Dermatology.

Topical minoxidil is approved by the US Food and Drug Administration (FDA) for androgenetic alopecia (AGA), but there has been increasing interest worldwide in the use of low-dose oral minoxidil, a vasodilator approved as an antihypertensive, as an alternative treatment.

The trial “is important information that’s never been elucidated before,” Adam Friedman, MD, professor and chair of dermatology at George Washington University, Washington, said in an interview. The data, he added, can be used to reassure patients who do not want to take the oral form of the drug that a topical is just as effective.

“This study does let us counsel patients better and really give them the evidence,” said Shari Lipner, MD, PhD, associate professor of clinical dermatology at Weill Cornell Medicine, New York, who was also asked to comment on the results.

Both Dr. Lipner and Dr. Friedman said the study was well-designed.

The investigators enrolled 90 men aged 18-55; 68 completed the trial. Most had mild to moderate AGA. Men were excluded if they had received treatment for alopecia in the previous 6 months, a history of hair transplant, cardiopathy, nephropathy, dermatoses involving the scalp, any clinical conditions causing hair loss, or hypersensitivity to minoxidil.

They were randomized to receive either 5 mg of oral minoxidil a day, plus a placebo solution to apply to the scalp, or topical minoxidil solution (5%) applied twice a day plus placebo capsules. They were told to take a capsule at bedtime and to apply 1 mL of the solution to dry hair in the morning and at night.

The final analysis included 35 men in the topical group and 33 in the oral group (mean age, 36.6 years). Seven people in the topical group and 11 in the oral group were not able to attend the final appointment at 24 weeks. Three additional patients in the topical group dropped out for insomnia, hair shedding, and scalp eczema, while one dropped out of the oral group because of headache.

At 24 weeks, the percentage increase in terminal hair density in the oral minoxidil group was 27% higher (P = .005) in the vertex and 13% higher (P = .15) in the frontal scalp, compared with the topical-treated group.

Total hair density increased by 2% in the oral group compared with topical treatment in the vertex and decreased by 0.2% in the frontal area compared with topical treatment. None of these differences were statistically significant.

Three dermatologists blinded to the treatments, who analyzed photographs, determined that 60% of the men in the oral group and 48% in the topical group had clinical improvement in the frontal area, which was not statistically significant. More orally-treated patients had improvement in the vertex area: 70% compared with 46% of those on topical treatment (P = .04).

Hypertrichosis, Headache

Of the original 90 patients in the trial, more men taking oral minoxidil had hypertrichosis: 49% compared with 25% in the topical formulation group. Headache was also more common among those on oral minoxidil: six cases (14%) vs. one case (2%) among those on topical minoxidil. There was no difference in mean arterial blood pressure or resting heart rate between the two groups. Transient hair loss was more common with topical treatment, but it was not significant.

Dr. Friedman said that the study results would not change how he practices, but that it would give him data to use to inform patients who do not want to take oral minoxidil. He generally prescribes the oral form, unless patients do not want to take it or there is a medical contraindication, which he said is rare.

“I personally think oral is superior to topical,” mainly “because the patient’s actually using it,” said Dr. Friedman. “They’re more likely to take a pill a day versus apply something topically twice a day,” he added.

Both Dr. Lipner and Dr. Friedman said that they doubted that individuals could — or would want to — follow the twice-daily topical regimen used in the trial.

“In real life, not in the clinical trial scenario, it may be very hard for patients to comply with putting on the topical minoxidil twice a day or even once a day,” Dr. Lipner said.

However, she continues to prescribe more topical minoxidil than oral, because she believes “there’s less potential for side effects.” For patients who can adhere to the topical regimen, the study shows that they will get results, said Dr. Lipner.

Dr. Friedman, however, said that for patients who are looking at a lifetime of medication, “an oral will always win out on a topical to the scalp from an adherence perspective.”

The study was supported by the Brazilian Dermatology Society Support Fund. Dr. Penha reported receiving grants from the fund; no other disclosures were reported. Dr. Friedman and Dr. Lipner reported no conflicts related to minoxidil.

On April 4, 2024, the US Food and Drug Administration (FDA) accepted a supplemental Biologics License Application (sBLA) to review bimekizumab-bkzx, an interleukin (IL)-17A and IL-17F inhibitor, for the treatment of adults with moderate to severe hidradenitis suppurativa (HS).

The agency also accepted a second sBLA for a bimekizumab-bkzx 2-mL device.

The developments were announced in a press release from UCB, the manufacturer of bimekizumab-bkzx (Bimzelx), which was first approved in the United States in October 2023 for the treatment of moderate to severe plaque psoriasis in adults who are candidates for systemic therapy or phototherapy.

According to the press release, acceptance of the sBLA was based on results from two phase 3 studies known as BE HEARD I and BE HEARD II, which found that bimekizumab-bkzx showed clinically meaningful improvements compared with placebo at week 16 and were sustained to week 48. If approved, this would be the first HS approval for bimekizumab-bkzx worldwide. In the European Union, it is approved for treating adults with psoriatic arthritis and axial spondyloarthritis, in addition to moderate to severe psoriasis.

According to the company, approval of the 2-mL injection device would mean that patients would have an alternative one-injection regimen option; currently, one dose for psoriasis is administered as two 1-mL injections. Full US prescribing information for bimekizumab-bkzx can be found here.

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

On April 4, 2024, the US Food and Drug Administration (FDA) accepted a supplemental Biologics License Application (sBLA) to review bimekizumab-bkzx, an interleukin (IL)-17A and IL-17F inhibitor, for the treatment of adults with moderate to severe hidradenitis suppurativa (HS).

The agency also accepted a second sBLA for a bimekizumab-bkzx 2-mL device.

The developments were announced in a press release from UCB, the manufacturer of bimekizumab-bkzx (Bimzelx), which was first approved in the United States in October 2023 for the treatment of moderate to severe plaque psoriasis in adults who are candidates for systemic therapy or phototherapy.

According to the press release, acceptance of the sBLA was based on results from two phase 3 studies known as BE HEARD I and BE HEARD II, which found that bimekizumab-bkzx showed clinically meaningful improvements compared with placebo at week 16 and were sustained to week 48. If approved, this would be the first HS approval for bimekizumab-bkzx worldwide. In the European Union, it is approved for treating adults with psoriatic arthritis and axial spondyloarthritis, in addition to moderate to severe psoriasis.

According to the company, approval of the 2-mL injection device would mean that patients would have an alternative one-injection regimen option; currently, one dose for psoriasis is administered as two 1-mL injections. Full US prescribing information for bimekizumab-bkzx can be found here.

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

On April 4, 2024, the US Food and Drug Administration (FDA) accepted a supplemental Biologics License Application (sBLA) to review bimekizumab-bkzx, an interleukin (IL)-17A and IL-17F inhibitor, for the treatment of adults with moderate to severe hidradenitis suppurativa (HS).

The agency also accepted a second sBLA for a bimekizumab-bkzx 2-mL device.

The developments were announced in a press release from UCB, the manufacturer of bimekizumab-bkzx (Bimzelx), which was first approved in the United States in October 2023 for the treatment of moderate to severe plaque psoriasis in adults who are candidates for systemic therapy or phototherapy.

According to the press release, acceptance of the sBLA was based on results from two phase 3 studies known as BE HEARD I and BE HEARD II, which found that bimekizumab-bkzx showed clinically meaningful improvements compared with placebo at week 16 and were sustained to week 48. If approved, this would be the first HS approval for bimekizumab-bkzx worldwide. In the European Union, it is approved for treating adults with psoriatic arthritis and axial spondyloarthritis, in addition to moderate to severe psoriasis.

According to the company, approval of the 2-mL injection device would mean that patients would have an alternative one-injection regimen option; currently, one dose for psoriasis is administered as two 1-mL injections. Full US prescribing information for bimekizumab-bkzx can be found here.

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

SAN DIEGO — A liquid biopsy assay that combines a microRNA signature and a well-known biomarker for pancreatic cancer has demonstrated an accuracy of 97% for detecting stage I/II pancreatic ductal adenocarcinoma, the most common type of pancreatic cancer.

It is quite encouraging to know we have a blood test that could potentially find this disease early, said Ajay Goel, PhD, a molecular diagnostics specialist at City of Hope in Duarte, California, who presented the findings at the annual meeting of the American Association for Cancer Research (AACR).

Dr. Goel and colleagues developed a signature for pancreatic cancer based on microRNAs identified in the exomes shed from pancreatic cancers and cell-free DNA markers found in the blood of patients with the disease.

Their initial assay tested blood samples for this signature in a training cohort of 252 people in Japan, approximately 60% of whom had pancreatic cancer. The rest were healthy controls. The assay was then tested in validation cohorts of 400 subjects, half with pancreatic cancer and half controls, in China and South Korea.

In both the initial and validation tests, the microRNA assay had an accuracy of about 90% for stage I/II pancreatic cancer, already far better than commercially available assays.

In an additional validation cohort in the United States with 139 patients with pancreatic cancer and 193 controls at six centers across the country, the researchers found that adding carbohydrate antigen 19-9 — a well-known marker of pancreatic cancer — to the assay boosted the test’s accuracy to 97%.

The test performed the same whether the tumor was in the head or tail of the pancreas.

“We are very excited about this data,” said Dr. Goel.

The technology was recently licensed to Pharus Diagnostics for commercial development, which will likely include a prospective screening trial, he told this news organization.

Because pancreatic cancer is fairly uncommon, Dr. Goel did not anticipate the test being used for general screening but rather for screening high-risk patients such as those with newly diagnosed type 2 diabetes, a family history of pancreatic cancer, or predisposing genetic mutations.

“It should be a very inexpensive test; it doesn’t cost us much to do in the lab,” he added.

Study moderator Ryan Corcoran, MD, PhD, a gastrointestinal (GI) oncologist at Massachusetts General Hospital, Boston, saw the potential.

“As a GI oncologist, I know how lethal and hard to treat pancreatic cancer is,” he said. A test that could reliably detect pancreatic cancer early, with an acceptable false-positive rate, would be extremely useful.

“The cure rate is many, many times higher,” if we detect it before it has a chance to spread, he explained.

In the meantime, Dr. Goel said there’s more work to be done.

Almost 4,000 subjects have been enrolled in ongoing validation efforts, and efforts are underway to use the test to screen thousands of banked blood samples from the PLCO, a prospective cancer screening trial in healthy subjects.

The researchers also want to see if the test can distinguish benign pancreatic cysts from ones that turn cancerous.

The idea is to find the earliest possible signs of this disease to see if we can find it not “at the moment of clinical diagnosis, but possibly 6 months, 1 year, 2 years earlier” than with radiologic imaging, Dr. Goel said.

The work was funded by the National Cancer Institute and others. Dr. Goel is a consultant for Pharus Diagnostics and Cellomics. Dr. Corcoran is a consultant for, has grants from, and/or holds stock in numerous companies, including Pfizer, Novartis, Eli Lilly, and Revolution Medicines.

A version of this article appeared on Medscape.com.

SAN DIEGO — A liquid biopsy assay that combines a microRNA signature and a well-known biomarker for pancreatic cancer has demonstrated an accuracy of 97% for detecting stage I/II pancreatic ductal adenocarcinoma, the most common type of pancreatic cancer.

It is quite encouraging to know we have a blood test that could potentially find this disease early, said Ajay Goel, PhD, a molecular diagnostics specialist at City of Hope in Duarte, California, who presented the findings at the annual meeting of the American Association for Cancer Research (AACR).

Dr. Goel and colleagues developed a signature for pancreatic cancer based on microRNAs identified in the exomes shed from pancreatic cancers and cell-free DNA markers found in the blood of patients with the disease.

Their initial assay tested blood samples for this signature in a training cohort of 252 people in Japan, approximately 60% of whom had pancreatic cancer. The rest were healthy controls. The assay was then tested in validation cohorts of 400 subjects, half with pancreatic cancer and half controls, in China and South Korea.

In both the initial and validation tests, the microRNA assay had an accuracy of about 90% for stage I/II pancreatic cancer, already far better than commercially available assays.

In an additional validation cohort in the United States with 139 patients with pancreatic cancer and 193 controls at six centers across the country, the researchers found that adding carbohydrate antigen 19-9 — a well-known marker of pancreatic cancer — to the assay boosted the test’s accuracy to 97%.

The test performed the same whether the tumor was in the head or tail of the pancreas.

“We are very excited about this data,” said Dr. Goel.

The technology was recently licensed to Pharus Diagnostics for commercial development, which will likely include a prospective screening trial, he told this news organization.

Because pancreatic cancer is fairly uncommon, Dr. Goel did not anticipate the test being used for general screening but rather for screening high-risk patients such as those with newly diagnosed type 2 diabetes, a family history of pancreatic cancer, or predisposing genetic mutations.

“It should be a very inexpensive test; it doesn’t cost us much to do in the lab,” he added.

Study moderator Ryan Corcoran, MD, PhD, a gastrointestinal (GI) oncologist at Massachusetts General Hospital, Boston, saw the potential.

“As a GI oncologist, I know how lethal and hard to treat pancreatic cancer is,” he said. A test that could reliably detect pancreatic cancer early, with an acceptable false-positive rate, would be extremely useful.

“The cure rate is many, many times higher,” if we detect it before it has a chance to spread, he explained.

In the meantime, Dr. Goel said there’s more work to be done.

Almost 4,000 subjects have been enrolled in ongoing validation efforts, and efforts are underway to use the test to screen thousands of banked blood samples from the PLCO, a prospective cancer screening trial in healthy subjects.

The researchers also want to see if the test can distinguish benign pancreatic cysts from ones that turn cancerous.

The idea is to find the earliest possible signs of this disease to see if we can find it not “at the moment of clinical diagnosis, but possibly 6 months, 1 year, 2 years earlier” than with radiologic imaging, Dr. Goel said.

The work was funded by the National Cancer Institute and others. Dr. Goel is a consultant for Pharus Diagnostics and Cellomics. Dr. Corcoran is a consultant for, has grants from, and/or holds stock in numerous companies, including Pfizer, Novartis, Eli Lilly, and Revolution Medicines.

A version of this article appeared on Medscape.com.

SAN DIEGO — A liquid biopsy assay that combines a microRNA signature and a well-known biomarker for pancreatic cancer has demonstrated an accuracy of 97% for detecting stage I/II pancreatic ductal adenocarcinoma, the most common type of pancreatic cancer.

It is quite encouraging to know we have a blood test that could potentially find this disease early, said Ajay Goel, PhD, a molecular diagnostics specialist at City of Hope in Duarte, California, who presented the findings at the annual meeting of the American Association for Cancer Research (AACR).

Dr. Goel and colleagues developed a signature for pancreatic cancer based on microRNAs identified in the exomes shed from pancreatic cancers and cell-free DNA markers found in the blood of patients with the disease.

Their initial assay tested blood samples for this signature in a training cohort of 252 people in Japan, approximately 60% of whom had pancreatic cancer. The rest were healthy controls. The assay was then tested in validation cohorts of 400 subjects, half with pancreatic cancer and half controls, in China and South Korea.

In both the initial and validation tests, the microRNA assay had an accuracy of about 90% for stage I/II pancreatic cancer, already far better than commercially available assays.

In an additional validation cohort in the United States with 139 patients with pancreatic cancer and 193 controls at six centers across the country, the researchers found that adding carbohydrate antigen 19-9 — a well-known marker of pancreatic cancer — to the assay boosted the test’s accuracy to 97%.

The test performed the same whether the tumor was in the head or tail of the pancreas.

“We are very excited about this data,” said Dr. Goel.

The technology was recently licensed to Pharus Diagnostics for commercial development, which will likely include a prospective screening trial, he told this news organization.

Because pancreatic cancer is fairly uncommon, Dr. Goel did not anticipate the test being used for general screening but rather for screening high-risk patients such as those with newly diagnosed type 2 diabetes, a family history of pancreatic cancer, or predisposing genetic mutations.

“It should be a very inexpensive test; it doesn’t cost us much to do in the lab,” he added.

Study moderator Ryan Corcoran, MD, PhD, a gastrointestinal (GI) oncologist at Massachusetts General Hospital, Boston, saw the potential.

“As a GI oncologist, I know how lethal and hard to treat pancreatic cancer is,” he said. A test that could reliably detect pancreatic cancer early, with an acceptable false-positive rate, would be extremely useful.

“The cure rate is many, many times higher,” if we detect it before it has a chance to spread, he explained.

In the meantime, Dr. Goel said there’s more work to be done.

Almost 4,000 subjects have been enrolled in ongoing validation efforts, and efforts are underway to use the test to screen thousands of banked blood samples from the PLCO, a prospective cancer screening trial in healthy subjects.

The researchers also want to see if the test can distinguish benign pancreatic cysts from ones that turn cancerous.

The idea is to find the earliest possible signs of this disease to see if we can find it not “at the moment of clinical diagnosis, but possibly 6 months, 1 year, 2 years earlier” than with radiologic imaging, Dr. Goel said.

The work was funded by the National Cancer Institute and others. Dr. Goel is a consultant for Pharus Diagnostics and Cellomics. Dr. Corcoran is a consultant for, has grants from, and/or holds stock in numerous companies, including Pfizer, Novartis, Eli Lilly, and Revolution Medicines.

A version of this article appeared on Medscape.com.

Statins raise the risks for increased glucose levels and the development of type 2 diabetes among people who don’t have it at baseline, but those risks are outweighed by the cardiovascular benefit, new data suggested.

The findings come from an analysis of individual participant data from a total of 23 randomized trials of statin therapy involving 154,664 individuals. In people without diabetes at baseline, statin therapy produces a dose-dependent increase in the risk for diabetes diagnosis, particularly among those whose glycemia marker levels are already at the diagnostic threshold.

Statins also tend to raise glucose levels in people who already have diabetes, but “the diabetes-related risks arising from the small changes in glycemia resulting from statin therapy are greatly outweighed by the benefits of statins on major vascular events when the direct clinical consequences of these outcomes are taken into consideration,” wrote the authors of the Cholesterol Treatment Trialists’ (CTT) Collaboration in their paper, published online in The Lancet Diabetes & Endocrinology.

Moreover, they say, “since the effect of statin therapy on measures of glycemia within an individual is small, there is likely to be little clinical benefit in measuring glucose concentrations and A1c values routinely after starting statin therapy with the aim of making comparisons to values taken before the initiation of a statin. However, people should continue to be screened for diabetes and associated risk factors and have their glycemic control monitored in accordance with current clinical guidelines.”

The CTT is co-led by Christina Reith, MBChB, PhD, and David Preiss, PhD, FRCPath, MRCP, both of the Nuffield Department of Population Health, University of Oxford, England.

In an accompanying editorial, Hertzel C. Gerstein, MD, and Marie Pigeyre, MD, PhD, both of McMaster University and Hamilton Health Sciences, Hamilton, Ontario, Canada, noted that the decreased absolute annual incidence of life-threatening cardiovascular outcomes with statins in people at high risk for type 2 diabetes “clearly exceeds the 0.1%-1.3% per year increased absolute incidence of type 2 diabetes.”

Dr. Gerstein and Dr. Pigeyre also said “these findings emphasize the importance of holistic care. As people at risk for cardiovascular outcomes are also at risk for type 2 diabetes, any prescription of a statin should be accompanied by promoting proven strategies to prevent or delay diabetes, such as modest weight reduction and increased physical activity. Finally, these findings emphasize the importance of always being alert for harmful adverse effects, even with the most beneficial and successful preventive therapies.”
 

Statins Raise Diabetes Risk, Glucose Levels Slightly

The meta-analysis of trials in the CTT Collaboration included individual participant data from 19 double-blind randomized, controlled trials with a median follow-up of 4.3 years comparing statins with placebo in a total of 123,940 participants, including 18% who had known type 2 diabetes at randomization. Also analyzed were another four double-blind trials of lower- vs higher-intensity statins involving a total of 30,724 participants followed for a median of 4.9 years, with 15% having diabetes at baseline.

In the 19 trials of low- or moderate-intensity statins vs placebo, statins resulted in a significant 10% increase in new-onset diabetes compared with placebo (rate ratio, 1.10), while high-intensity statins raised the risk by an also significant 36% (1.36). This translated to a mean absolute excess of 0.12% per year of treatment.

Compared with less intensive statin therapy, more intensive statin therapy resulted in a significant 10% proportional increase in new-onset diabetes (1.10), giving an absolute annual excess of 0.22%.

In the statin vs placebo trials, differences in A1c values from placebo were 0.06 percentage points higher for low- or moderate-intensity statins and 0.08 points greater for high-intensity statins.

Nearly two thirds (62%) of the excess cases of new-onset diabetes occurred among participants in the highest quarter of the baseline glycemia distribution for both low-intensity or moderate-intensity and high-intensity statin therapy.

And among participants who already had diabetes at baseline, there was a significant 10% relative increase in worsening glycemia (defined by adverse glycemic event, A1c increase of ≥ 0.5 percentage points, or medication escalation) with low- or moderate-intensity statins compared with placebo and a 24% relative increase in the high-intensity trials.

The Nuffield Department of Population Health has an explicit policy of not accepting any personal honoraria payments directly or indirectly from the pharmaceutical and food industries. It seeks reimbursement to the University of Oxford for the costs of travel and accommodation to participate in scientific meetings. Dr. Reith reported receiving funding to the University of Oxford from the UK National Institute for Health and Care Research Health Technology Assessment Programme and holding unpaid roles on the Clinical Data Interchange Standards Consortium as a board member and WHO as a scientific advisor. Dr. Preiss reported receiving funding to his research institution (but no personal funding) from Novartis for the ORION 4 trial of inclisiran, Novo Nordisk for the ASCEND PLUS trial of semaglutide, and Boehringer Ingelheim and Eli Lilly for the EMPA-KIDNEY trial and being a committee member for a National Institute for Health and Care Excellence guideline.

Dr. Gerstein holds the McMaster-Sanofi Population Health Institute Chair in Diabetes Research and Care. He reported research grants from Eli Lilly, AstraZeneca, Novo Nordisk, Hanmi, and Merck; continuing medical education grants to McMaster University from Eli Lilly, Abbott, Sanofi, Novo Nordisk, and Boehringer Ingelheim; honoraria for speaking from AstraZeneca, Eli Lilly, Novo Nordisk, DKSH, Zuellig Pharma, Sanofi, and Jiangsu Hanson; and consulting fees from Abbott, Eli Lilly, Novo Nordisk, Pfizer, Carbon Brand, Sanofi, Kowa, and Hanmi. Pigeyre had no disclosures.
 

A version of this article appeared on Medscape.com.

Statins raise the risks for increased glucose levels and the development of type 2 diabetes among people who don’t have it at baseline, but those risks are outweighed by the cardiovascular benefit, new data suggested.

The findings come from an analysis of individual participant data from a total of 23 randomized trials of statin therapy involving 154,664 individuals. In people without diabetes at baseline, statin therapy produces a dose-dependent increase in the risk for diabetes diagnosis, particularly among those whose glycemia marker levels are already at the diagnostic threshold.

Statins also tend to raise glucose levels in people who already have diabetes, but “the diabetes-related risks arising from the small changes in glycemia resulting from statin therapy are greatly outweighed by the benefits of statins on major vascular events when the direct clinical consequences of these outcomes are taken into consideration,” wrote the authors of the Cholesterol Treatment Trialists’ (CTT) Collaboration in their paper, published online in The Lancet Diabetes & Endocrinology.

Moreover, they say, “since the effect of statin therapy on measures of glycemia within an individual is small, there is likely to be little clinical benefit in measuring glucose concentrations and A1c values routinely after starting statin therapy with the aim of making comparisons to values taken before the initiation of a statin. However, people should continue to be screened for diabetes and associated risk factors and have their glycemic control monitored in accordance with current clinical guidelines.”

The CTT is co-led by Christina Reith, MBChB, PhD, and David Preiss, PhD, FRCPath, MRCP, both of the Nuffield Department of Population Health, University of Oxford, England.

In an accompanying editorial, Hertzel C. Gerstein, MD, and Marie Pigeyre, MD, PhD, both of McMaster University and Hamilton Health Sciences, Hamilton, Ontario, Canada, noted that the decreased absolute annual incidence of life-threatening cardiovascular outcomes with statins in people at high risk for type 2 diabetes “clearly exceeds the 0.1%-1.3% per year increased absolute incidence of type 2 diabetes.”

Dr. Gerstein and Dr. Pigeyre also said “these findings emphasize the importance of holistic care. As people at risk for cardiovascular outcomes are also at risk for type 2 diabetes, any prescription of a statin should be accompanied by promoting proven strategies to prevent or delay diabetes, such as modest weight reduction and increased physical activity. Finally, these findings emphasize the importance of always being alert for harmful adverse effects, even with the most beneficial and successful preventive therapies.”
 

Statins Raise Diabetes Risk, Glucose Levels Slightly

The meta-analysis of trials in the CTT Collaboration included individual participant data from 19 double-blind randomized, controlled trials with a median follow-up of 4.3 years comparing statins with placebo in a total of 123,940 participants, including 18% who had known type 2 diabetes at randomization. Also analyzed were another four double-blind trials of lower- vs higher-intensity statins involving a total of 30,724 participants followed for a median of 4.9 years, with 15% having diabetes at baseline.

In the 19 trials of low- or moderate-intensity statins vs placebo, statins resulted in a significant 10% increase in new-onset diabetes compared with placebo (rate ratio, 1.10), while high-intensity statins raised the risk by an also significant 36% (1.36). This translated to a mean absolute excess of 0.12% per year of treatment.

Compared with less intensive statin therapy, more intensive statin therapy resulted in a significant 10% proportional increase in new-onset diabetes (1.10), giving an absolute annual excess of 0.22%.

In the statin vs placebo trials, differences in A1c values from placebo were 0.06 percentage points higher for low- or moderate-intensity statins and 0.08 points greater for high-intensity statins.

Nearly two thirds (62%) of the excess cases of new-onset diabetes occurred among participants in the highest quarter of the baseline glycemia distribution for both low-intensity or moderate-intensity and high-intensity statin therapy.

And among participants who already had diabetes at baseline, there was a significant 10% relative increase in worsening glycemia (defined by adverse glycemic event, A1c increase of ≥ 0.5 percentage points, or medication escalation) with low- or moderate-intensity statins compared with placebo and a 24% relative increase in the high-intensity trials.

The Nuffield Department of Population Health has an explicit policy of not accepting any personal honoraria payments directly or indirectly from the pharmaceutical and food industries. It seeks reimbursement to the University of Oxford for the costs of travel and accommodation to participate in scientific meetings. Dr. Reith reported receiving funding to the University of Oxford from the UK National Institute for Health and Care Research Health Technology Assessment Programme and holding unpaid roles on the Clinical Data Interchange Standards Consortium as a board member and WHO as a scientific advisor. Dr. Preiss reported receiving funding to his research institution (but no personal funding) from Novartis for the ORION 4 trial of inclisiran, Novo Nordisk for the ASCEND PLUS trial of semaglutide, and Boehringer Ingelheim and Eli Lilly for the EMPA-KIDNEY trial and being a committee member for a National Institute for Health and Care Excellence guideline.

Dr. Gerstein holds the McMaster-Sanofi Population Health Institute Chair in Diabetes Research and Care. He reported research grants from Eli Lilly, AstraZeneca, Novo Nordisk, Hanmi, and Merck; continuing medical education grants to McMaster University from Eli Lilly, Abbott, Sanofi, Novo Nordisk, and Boehringer Ingelheim; honoraria for speaking from AstraZeneca, Eli Lilly, Novo Nordisk, DKSH, Zuellig Pharma, Sanofi, and Jiangsu Hanson; and consulting fees from Abbott, Eli Lilly, Novo Nordisk, Pfizer, Carbon Brand, Sanofi, Kowa, and Hanmi. Pigeyre had no disclosures.
 

A version of this article appeared on Medscape.com.

Statins raise the risks for increased glucose levels and the development of type 2 diabetes among people who don’t have it at baseline, but those risks are outweighed by the cardiovascular benefit, new data suggested.

The findings come from an analysis of individual participant data from a total of 23 randomized trials of statin therapy involving 154,664 individuals. In people without diabetes at baseline, statin therapy produces a dose-dependent increase in the risk for diabetes diagnosis, particularly among those whose glycemia marker levels are already at the diagnostic threshold.

Statins also tend to raise glucose levels in people who already have diabetes, but “the diabetes-related risks arising from the small changes in glycemia resulting from statin therapy are greatly outweighed by the benefits of statins on major vascular events when the direct clinical consequences of these outcomes are taken into consideration,” wrote the authors of the Cholesterol Treatment Trialists’ (CTT) Collaboration in their paper, published online in The Lancet Diabetes & Endocrinology.

Moreover, they say, “since the effect of statin therapy on measures of glycemia within an individual is small, there is likely to be little clinical benefit in measuring glucose concentrations and A1c values routinely after starting statin therapy with the aim of making comparisons to values taken before the initiation of a statin. However, people should continue to be screened for diabetes and associated risk factors and have their glycemic control monitored in accordance with current clinical guidelines.”

The CTT is co-led by Christina Reith, MBChB, PhD, and David Preiss, PhD, FRCPath, MRCP, both of the Nuffield Department of Population Health, University of Oxford, England.

In an accompanying editorial, Hertzel C. Gerstein, MD, and Marie Pigeyre, MD, PhD, both of McMaster University and Hamilton Health Sciences, Hamilton, Ontario, Canada, noted that the decreased absolute annual incidence of life-threatening cardiovascular outcomes with statins in people at high risk for type 2 diabetes “clearly exceeds the 0.1%-1.3% per year increased absolute incidence of type 2 diabetes.”

Dr. Gerstein and Dr. Pigeyre also said “these findings emphasize the importance of holistic care. As people at risk for cardiovascular outcomes are also at risk for type 2 diabetes, any prescription of a statin should be accompanied by promoting proven strategies to prevent or delay diabetes, such as modest weight reduction and increased physical activity. Finally, these findings emphasize the importance of always being alert for harmful adverse effects, even with the most beneficial and successful preventive therapies.”
 

Statins Raise Diabetes Risk, Glucose Levels Slightly

The meta-analysis of trials in the CTT Collaboration included individual participant data from 19 double-blind randomized, controlled trials with a median follow-up of 4.3 years comparing statins with placebo in a total of 123,940 participants, including 18% who had known type 2 diabetes at randomization. Also analyzed were another four double-blind trials of lower- vs higher-intensity statins involving a total of 30,724 participants followed for a median of 4.9 years, with 15% having diabetes at baseline.

In the 19 trials of low- or moderate-intensity statins vs placebo, statins resulted in a significant 10% increase in new-onset diabetes compared with placebo (rate ratio, 1.10), while high-intensity statins raised the risk by an also significant 36% (1.36). This translated to a mean absolute excess of 0.12% per year of treatment.

Compared with less intensive statin therapy, more intensive statin therapy resulted in a significant 10% proportional increase in new-onset diabetes (1.10), giving an absolute annual excess of 0.22%.

In the statin vs placebo trials, differences in A1c values from placebo were 0.06 percentage points higher for low- or moderate-intensity statins and 0.08 points greater for high-intensity statins.

Nearly two thirds (62%) of the excess cases of new-onset diabetes occurred among participants in the highest quarter of the baseline glycemia distribution for both low-intensity or moderate-intensity and high-intensity statin therapy.

And among participants who already had diabetes at baseline, there was a significant 10% relative increase in worsening glycemia (defined by adverse glycemic event, A1c increase of ≥ 0.5 percentage points, or medication escalation) with low- or moderate-intensity statins compared with placebo and a 24% relative increase in the high-intensity trials.

The Nuffield Department of Population Health has an explicit policy of not accepting any personal honoraria payments directly or indirectly from the pharmaceutical and food industries. It seeks reimbursement to the University of Oxford for the costs of travel and accommodation to participate in scientific meetings. Dr. Reith reported receiving funding to the University of Oxford from the UK National Institute for Health and Care Research Health Technology Assessment Programme and holding unpaid roles on the Clinical Data Interchange Standards Consortium as a board member and WHO as a scientific advisor. Dr. Preiss reported receiving funding to his research institution (but no personal funding) from Novartis for the ORION 4 trial of inclisiran, Novo Nordisk for the ASCEND PLUS trial of semaglutide, and Boehringer Ingelheim and Eli Lilly for the EMPA-KIDNEY trial and being a committee member for a National Institute for Health and Care Excellence guideline.

Dr. Gerstein holds the McMaster-Sanofi Population Health Institute Chair in Diabetes Research and Care. He reported research grants from Eli Lilly, AstraZeneca, Novo Nordisk, Hanmi, and Merck; continuing medical education grants to McMaster University from Eli Lilly, Abbott, Sanofi, Novo Nordisk, and Boehringer Ingelheim; honoraria for speaking from AstraZeneca, Eli Lilly, Novo Nordisk, DKSH, Zuellig Pharma, Sanofi, and Jiangsu Hanson; and consulting fees from Abbott, Eli Lilly, Novo Nordisk, Pfizer, Carbon Brand, Sanofi, Kowa, and Hanmi. Pigeyre had no disclosures.
 

A version of this article appeared on Medscape.com.

ATLANTA — A novel antisense therapy called olezarsen reduced triglycerides (TGs) by approximately 50% with either of the two study doses relative to placebo and did so with a low relative risk for adverse events, new data from a phase 2b trial showed.

“The reduction in triglycerides was greater than that currently possible with any available therapy,” reported Brian A. Bergmark, MD, an interventional cardiologist at Brigham and Women’s Hospital, Boston.

The drug also produced meaningful improvements in multiple other lipid subfractions associated with increased cardiovascular (CV) risk, including ApoC-III, very low–density lipoprotein (VLDL) cholesterol, ApoB, and non-LDL cholesterol. High-density lipoprotein (HDL) cholesterol levels were significantly raised.

The results were presented on April 7 as a late breaker at the American College of Cardiology (ACC) Scientific Session 2024 and published online simultaneously in The New England Journal of Medicine.
 

No Major Subgroup Failed to Respond

The effect was seen across all the key subgroups evaluated, including women and patients with diabetes, obesity, and severe as well as moderate elevations in TGs at baseline, Dr. Bergmark reported.

Olezarsen is a N-acetylgalactosamine–conjugated antisense oligonucleotide targeting APOC3 RNA. The results of this randomized trial, called BRIDGE-TIMI 73a, are consistent with other evidence that inhibiting expression of ApoC-III lowers the levels of TGs and other lipid subfractions to a degree that would predict clinical benefit.

In this study, 154 patients at 24 sites in North America were randomized in a 1:1 ratio to 50 or 80 mg olezarsen. Those in each of these cohorts were then randomized in a 3:1 ratio to active therapy or placebo. All therapies were administered by subcutaneous injection once per month.

Patients were eligible for the trial if they had moderate hypertriglyceridemia, defined as a level of 150-499 mg/dL, and elevated CV risk or if they had severe hypertriglyceridemia (≥ 500 mg/dL) with or without other evidence of elevated CV risk. The primary endpoint was a change in TGs at 6 months. Complete follow-up was available in about 97% of patients regardless of treatment assignment.

With a slight numerical advantage for the higher dose, the TG reductions were 49.1% for the 50-mg dose and 53.1% for the 80-mg dose relative to no significant change in the placebo group (P < .001 for both olezarsen doses). The reductions in ApoC-III, an upstream driver of TG production and a CV risk factor, were 64.2% and 73.2% relative to placebo (both P < .001), respectively, Dr. Bergmark reported.

In those with moderate hypertriglyceridemia, normal TG levels, defined as < 150 mg/dL, were reached at 6 months in 85.7% and 93.3% in the 40-mg and 80-mg dose groups, respectively. Relative to these reductions, normalization was seen in only 11.8% of placebo patients (P < .001).
 

TG Lowering Might Not Be Best Endpoint

The primary endpoint in this trial was a change in TGs, but this target was questioned by an invited ACC discussant, Daniel Soffer, MD, who is both an adjunct professor assistant professor of medicine at Penn Medicine, Philadelphia, and current president of the National Lipid Association.

Dr. Soffer noted that highly elevated TGs are a major risk factor for acute pancreatitis, so this predicts a clinical benefit for this purpose, but he thought the other lipid subfractions are far more important for the goal of reducing atherosclerotic cardiovascular disease (ASCVD).

Indeed, he said categorically that it is not TGs that drive ASCVD risk and therefore not what is the real importance of these data. Rather, “it is the non-HDL cholesterol and ApoB lowering” that will drive the likely benefits from this therapy in CV disease.

In addition to the TG reductions, olezarsen did, in fact, produce significant reductions in many of the lipid subfractions associated with increased CV risk. While slightly more favorable in most cases with the higher dose of olezarsen, even the lower dose reduced Apo C-III from baseline by 64.2% (P < .001), VLDL by 46.2% (P < .001), remnant cholesterol by 46.6% (P < .001), ApoB by 18.2% (P < .001), and non-HDL cholesterol by 25.4% (P < .001). HDL cholesterol was increased by 39.6% (P < .001).

These favorable effects on TG and other lipid subfractions were achieved with a safety profile that was reassuring, Dr. Bergmark said. Serious adverse events leading to discontinuation occurred in 0%, 1.7%, and 1.8% of the placebo, lower-dose, and higher-dose arms, respectively. These rates did not differ significantly.
 

Increased Liver Enzymes Is Common

Liver enzymes were significantly elevated (P < .001) for both doses of olezarsen vs placebo, but liver enzymes > 3× the upper limit of normal did not reach significance on either dose of olezarsen relative to placebo. Low platelet counts and reductions in kidney function were observed in a minority of patients but were generally manageable, according to Dr. Bergmark. There was no impact on hemoglobin A1c levels.

Further evaluation of change in hepatic function is planned in the ongoing extension studies.

Characterizing these results as “exciting,” Neha J. Pagidipati, MD, a member of the Duke Clinical Research Institute and an assistant professor at the Duke School of Medicine, Durham, North Carolina, said that identifying a drug effective for hypertriglyceridemia is likely to be a major advance. While elevated TGs are “one of the toughest” lipid abnormalities to manage, “there is not much out there to offer for treatment.”

She, like Dr. Soffer, was encouraged by the favorable effects on multiple lipid abnormalities associated with increased CV risk, but she said the ultimate clinical utility of this or other agents that lower TGs for ASCVD requires a study showing a change in CV events.

Dr. Bergmark reported financial relationships with 15 pharmaceutical companies, including Ionis, which provided funding for the BRIDGE-TIMI 73a trial. Soffer had financial relationships with Akcea, Amgen, Amryt, AstraZeneca, Ionis, Novartis, Regeneron, and Verve. Dr. Pagidipati had financial relationships with more than 10 pharmaceutical companies but was not involved in the design of management of the BRIDGE-TIMI 73a trial.

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

ATLANTA — A novel antisense therapy called olezarsen reduced triglycerides (TGs) by approximately 50% with either of the two study doses relative to placebo and did so with a low relative risk for adverse events, new data from a phase 2b trial showed.

“The reduction in triglycerides was greater than that currently possible with any available therapy,” reported Brian A. Bergmark, MD, an interventional cardiologist at Brigham and Women’s Hospital, Boston.

The drug also produced meaningful improvements in multiple other lipid subfractions associated with increased cardiovascular (CV) risk, including ApoC-III, very low–density lipoprotein (VLDL) cholesterol, ApoB, and non-LDL cholesterol. High-density lipoprotein (HDL) cholesterol levels were significantly raised.

The results were presented on April 7 as a late breaker at the American College of Cardiology (ACC) Scientific Session 2024 and published online simultaneously in The New England Journal of Medicine.
 

No Major Subgroup Failed to Respond

The effect was seen across all the key subgroups evaluated, including women and patients with diabetes, obesity, and severe as well as moderate elevations in TGs at baseline, Dr. Bergmark reported.

Olezarsen is a N-acetylgalactosamine–conjugated antisense oligonucleotide targeting APOC3 RNA. The results of this randomized trial, called BRIDGE-TIMI 73a, are consistent with other evidence that inhibiting expression of ApoC-III lowers the levels of TGs and other lipid subfractions to a degree that would predict clinical benefit.

In this study, 154 patients at 24 sites in North America were randomized in a 1:1 ratio to 50 or 80 mg olezarsen. Those in each of these cohorts were then randomized in a 3:1 ratio to active therapy or placebo. All therapies were administered by subcutaneous injection once per month.

Patients were eligible for the trial if they had moderate hypertriglyceridemia, defined as a level of 150-499 mg/dL, and elevated CV risk or if they had severe hypertriglyceridemia (≥ 500 mg/dL) with or without other evidence of elevated CV risk. The primary endpoint was a change in TGs at 6 months. Complete follow-up was available in about 97% of patients regardless of treatment assignment.

With a slight numerical advantage for the higher dose, the TG reductions were 49.1% for the 50-mg dose and 53.1% for the 80-mg dose relative to no significant change in the placebo group (P < .001 for both olezarsen doses). The reductions in ApoC-III, an upstream driver of TG production and a CV risk factor, were 64.2% and 73.2% relative to placebo (both P < .001), respectively, Dr. Bergmark reported.

In those with moderate hypertriglyceridemia, normal TG levels, defined as < 150 mg/dL, were reached at 6 months in 85.7% and 93.3% in the 40-mg and 80-mg dose groups, respectively. Relative to these reductions, normalization was seen in only 11.8% of placebo patients (P < .001).
 

TG Lowering Might Not Be Best Endpoint

The primary endpoint in this trial was a change in TGs, but this target was questioned by an invited ACC discussant, Daniel Soffer, MD, who is both an adjunct professor assistant professor of medicine at Penn Medicine, Philadelphia, and current president of the National Lipid Association.

Dr. Soffer noted that highly elevated TGs are a major risk factor for acute pancreatitis, so this predicts a clinical benefit for this purpose, but he thought the other lipid subfractions are far more important for the goal of reducing atherosclerotic cardiovascular disease (ASCVD).

Indeed, he said categorically that it is not TGs that drive ASCVD risk and therefore not what is the real importance of these data. Rather, “it is the non-HDL cholesterol and ApoB lowering” that will drive the likely benefits from this therapy in CV disease.

In addition to the TG reductions, olezarsen did, in fact, produce significant reductions in many of the lipid subfractions associated with increased CV risk. While slightly more favorable in most cases with the higher dose of olezarsen, even the lower dose reduced Apo C-III from baseline by 64.2% (P < .001), VLDL by 46.2% (P < .001), remnant cholesterol by 46.6% (P < .001), ApoB by 18.2% (P < .001), and non-HDL cholesterol by 25.4% (P < .001). HDL cholesterol was increased by 39.6% (P < .001).

These favorable effects on TG and other lipid subfractions were achieved with a safety profile that was reassuring, Dr. Bergmark said. Serious adverse events leading to discontinuation occurred in 0%, 1.7%, and 1.8% of the placebo, lower-dose, and higher-dose arms, respectively. These rates did not differ significantly.
 

Increased Liver Enzymes Is Common

Liver enzymes were significantly elevated (P < .001) for both doses of olezarsen vs placebo, but liver enzymes > 3× the upper limit of normal did not reach significance on either dose of olezarsen relative to placebo. Low platelet counts and reductions in kidney function were observed in a minority of patients but were generally manageable, according to Dr. Bergmark. There was no impact on hemoglobin A1c levels.

Further evaluation of change in hepatic function is planned in the ongoing extension studies.

Characterizing these results as “exciting,” Neha J. Pagidipati, MD, a member of the Duke Clinical Research Institute and an assistant professor at the Duke School of Medicine, Durham, North Carolina, said that identifying a drug effective for hypertriglyceridemia is likely to be a major advance. While elevated TGs are “one of the toughest” lipid abnormalities to manage, “there is not much out there to offer for treatment.”

She, like Dr. Soffer, was encouraged by the favorable effects on multiple lipid abnormalities associated with increased CV risk, but she said the ultimate clinical utility of this or other agents that lower TGs for ASCVD requires a study showing a change in CV events.

Dr. Bergmark reported financial relationships with 15 pharmaceutical companies, including Ionis, which provided funding for the BRIDGE-TIMI 73a trial. Soffer had financial relationships with Akcea, Amgen, Amryt, AstraZeneca, Ionis, Novartis, Regeneron, and Verve. Dr. Pagidipati had financial relationships with more than 10 pharmaceutical companies but was not involved in the design of management of the BRIDGE-TIMI 73a trial.

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

ATLANTA — A novel antisense therapy called olezarsen reduced triglycerides (TGs) by approximately 50% with either of the two study doses relative to placebo and did so with a low relative risk for adverse events, new data from a phase 2b trial showed.

“The reduction in triglycerides was greater than that currently possible with any available therapy,” reported Brian A. Bergmark, MD, an interventional cardiologist at Brigham and Women’s Hospital, Boston.

The drug also produced meaningful improvements in multiple other lipid subfractions associated with increased cardiovascular (CV) risk, including ApoC-III, very low–density lipoprotein (VLDL) cholesterol, ApoB, and non-LDL cholesterol. High-density lipoprotein (HDL) cholesterol levels were significantly raised.

The results were presented on April 7 as a late breaker at the American College of Cardiology (ACC) Scientific Session 2024 and published online simultaneously in The New England Journal of Medicine.
 

No Major Subgroup Failed to Respond

The effect was seen across all the key subgroups evaluated, including women and patients with diabetes, obesity, and severe as well as moderate elevations in TGs at baseline, Dr. Bergmark reported.

Olezarsen is a N-acetylgalactosamine–conjugated antisense oligonucleotide targeting APOC3 RNA. The results of this randomized trial, called BRIDGE-TIMI 73a, are consistent with other evidence that inhibiting expression of ApoC-III lowers the levels of TGs and other lipid subfractions to a degree that would predict clinical benefit.

In this study, 154 patients at 24 sites in North America were randomized in a 1:1 ratio to 50 or 80 mg olezarsen. Those in each of these cohorts were then randomized in a 3:1 ratio to active therapy or placebo. All therapies were administered by subcutaneous injection once per month.

Patients were eligible for the trial if they had moderate hypertriglyceridemia, defined as a level of 150-499 mg/dL, and elevated CV risk or if they had severe hypertriglyceridemia (≥ 500 mg/dL) with or without other evidence of elevated CV risk. The primary endpoint was a change in TGs at 6 months. Complete follow-up was available in about 97% of patients regardless of treatment assignment.

With a slight numerical advantage for the higher dose, the TG reductions were 49.1% for the 50-mg dose and 53.1% for the 80-mg dose relative to no significant change in the placebo group (P < .001 for both olezarsen doses). The reductions in ApoC-III, an upstream driver of TG production and a CV risk factor, were 64.2% and 73.2% relative to placebo (both P < .001), respectively, Dr. Bergmark reported.

In those with moderate hypertriglyceridemia, normal TG levels, defined as < 150 mg/dL, were reached at 6 months in 85.7% and 93.3% in the 40-mg and 80-mg dose groups, respectively. Relative to these reductions, normalization was seen in only 11.8% of placebo patients (P < .001).
 

TG Lowering Might Not Be Best Endpoint

The primary endpoint in this trial was a change in TGs, but this target was questioned by an invited ACC discussant, Daniel Soffer, MD, who is both an adjunct professor assistant professor of medicine at Penn Medicine, Philadelphia, and current president of the National Lipid Association.

Dr. Soffer noted that highly elevated TGs are a major risk factor for acute pancreatitis, so this predicts a clinical benefit for this purpose, but he thought the other lipid subfractions are far more important for the goal of reducing atherosclerotic cardiovascular disease (ASCVD).

Indeed, he said categorically that it is not TGs that drive ASCVD risk and therefore not what is the real importance of these data. Rather, “it is the non-HDL cholesterol and ApoB lowering” that will drive the likely benefits from this therapy in CV disease.

In addition to the TG reductions, olezarsen did, in fact, produce significant reductions in many of the lipid subfractions associated with increased CV risk. While slightly more favorable in most cases with the higher dose of olezarsen, even the lower dose reduced Apo C-III from baseline by 64.2% (P < .001), VLDL by 46.2% (P < .001), remnant cholesterol by 46.6% (P < .001), ApoB by 18.2% (P < .001), and non-HDL cholesterol by 25.4% (P < .001). HDL cholesterol was increased by 39.6% (P < .001).

These favorable effects on TG and other lipid subfractions were achieved with a safety profile that was reassuring, Dr. Bergmark said. Serious adverse events leading to discontinuation occurred in 0%, 1.7%, and 1.8% of the placebo, lower-dose, and higher-dose arms, respectively. These rates did not differ significantly.
 

Increased Liver Enzymes Is Common

Liver enzymes were significantly elevated (P < .001) for both doses of olezarsen vs placebo, but liver enzymes > 3× the upper limit of normal did not reach significance on either dose of olezarsen relative to placebo. Low platelet counts and reductions in kidney function were observed in a minority of patients but were generally manageable, according to Dr. Bergmark. There was no impact on hemoglobin A1c levels.

Further evaluation of change in hepatic function is planned in the ongoing extension studies.

Characterizing these results as “exciting,” Neha J. Pagidipati, MD, a member of the Duke Clinical Research Institute and an assistant professor at the Duke School of Medicine, Durham, North Carolina, said that identifying a drug effective for hypertriglyceridemia is likely to be a major advance. While elevated TGs are “one of the toughest” lipid abnormalities to manage, “there is not much out there to offer for treatment.”

She, like Dr. Soffer, was encouraged by the favorable effects on multiple lipid abnormalities associated with increased CV risk, but she said the ultimate clinical utility of this or other agents that lower TGs for ASCVD requires a study showing a change in CV events.

Dr. Bergmark reported financial relationships with 15 pharmaceutical companies, including Ionis, which provided funding for the BRIDGE-TIMI 73a trial. Soffer had financial relationships with Akcea, Amgen, Amryt, AstraZeneca, Ionis, Novartis, Regeneron, and Verve. Dr. Pagidipati had financial relationships with more than 10 pharmaceutical companies but was not involved in the design of management of the BRIDGE-TIMI 73a trial.

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