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Metformin has a modest favorable effect on body mass index z score and insulin resistance in children and adolescents with obesity, compared with placebo, according to a systematic review of trial data.

moodboard/thinkstockphotos

“The available evidence is of varying quality,” however, and the drug increases the likelihood of gastrointestinal adverse effects, reported Reem Masarwa, PharmD, PhD, and colleagues in Pediatrics. “Nonetheless, metformin may be considered for use as a pharmacologic therapy in this pediatric population because of its modest efficacy, availability, cost, and safety profile.”

The Food and Drug Administration has approved metformin for the treatment of type 2 diabetes in children and adolescents. Doctors have used the drug off label for weight loss in children with obesity, but this use “remains controversial,” the review authors said.

To assess the efficacy and safety of metformin plus lifestyle interventions compared with placebo plus lifestyle interventions in children and adolescents with obesity, Dr. Masarwa, with the Center for Clinical Epidemiology, Lady Davis Institute, Jewish General Hospital, and the department of epidemiology, biostatistics, and occupational health, McGill University, Montreal, and colleagues systematically reviewed data from randomized controlled trials (RCTs). Their review was published online in Pediatrics.

The investigators focused on studies that examined outcomes such as body mass index, BMI z score, insulin resistance, and gastrointestinal adverse effects. They excluded studies of children with type 2 diabetes.

The researchers included 24 RCTs in their review. The studies included 1,623 children and adolescents who received metformin (861 participants) or placebo (762 participants). Indications included uncomplicated obesity in 10 studies, obesity with insulin resistance in 9 studies, prediabetes in 3 studies, and nonalcoholic fatty liver disease in 2 studies. One of the trials did not incorporate a lifestyle cointervention.

Participants ranged in age from 4 years to 19 years, and trial durations ranged from 2 months to 2 years. The total daily dose of metformin ranged from 500 mg to 2,000 mg.

In 14 RCTs that reported BMI, metformin generally decreased BMI (range of mean changes: –2.70 to 1.30), compared with placebo (range of mean changes: –1.12 to 1.90), although three trials suggested that metformin increased BMI. The average difference in the treatment effect between the metformin and placebo groups ranged from –2.72 to 0.70. “Importantly, the authors of many RCTs reported variable treatment effects, preventing definitive conclusions from being drawn from individual trials,” Dr. Masarwa and coauthors wrote.

In seven RCTs that reported BMI z score, metformin consistently decreased BMI z score (range of mean changes: –0.37 to –0.03), compared with placebo (range of mean changes: –0.22 to 0.15). The mean difference in the treatment effect between treatment groups ranged from –0.15 to –0.07. The largest decrease occurred in patients with nonalcoholic fatty liver disease.

The rate of gastrointestinal adverse events nearly doubled with metformin treatment, relative to placebo (rate range: 2%-74% for metformin vs. 0%-42% for placebo).

Metformin adherence rates ranged from 60% to 90%, and lifestyle cointerventions varied substantially across the trials, the researchers noted. The clinical significance and long-term effects of metformin treatment in this population “remain uncertain,” they said.
 

 

 

Off-label use may not be ideal

“Ideally, children with obesity should be entered into a clinical trial rather than placed on an off-label medication,” Vandana Raman, MD, and Carol M. Foster, MD, said in a related commentary. Still, treatment with metformin may be reasonable in certain cases, said Dr. Raman and Dr. Foster of the division of endocrinology in the department of pediatrics at the University of Utah in Salt Lake City. “Metformin is a low-cost option and may provide modest clinical benefit for weight loss with minimal side effects. If lifestyle modification has been pursued but has achieved minimal weight loss, it may be reasonable to try an agent such as metformin as adjunctive therapy,” they said.

Lifestyle modification therapy – including nutritional changes, physical activity, and behavior modification – has been the “mainstay of management” for patients with obesity, and this approach underpins successful weight loss, they said. But durable weight loss with lifestyle modification may be challenging, and pharmacologic treatments “are attractive options before proceeding to bariatric surgery,” they said.

For younger patients, FDA-approved medications for obesity include orlistat and liraglutide for patients aged 12 years and older, and phentermine for patients aged 16 years and older.

“Orlistat has been associated with modest BMI reduction but may cause intolerable gastrointestinal side effects and possible fat-soluble vitamin deficiency,” they said. “Phentermine is approved for short-term therapy only and may increase heart rate and blood pressure and cause irritability and insomnia.”

Liraglutide, which was approved for the treatment of pediatric obesity in December 2020, reduced BMI in a trial that included adolescents with obesity. About 43% of the participants who received liraglutide, compared with 18% who received placebo, had a 5% reduction in BMI. In addition, 26% and 8%, respectively, had a 10% reduction in BMI. The use of liraglutide “is limited by the need for daily subcutaneous injections and high frequency of gastrointestinal side effects and high cost,” however, the commentary authors noted.

In addition, the FDA has approved setmelanotide for children older than 6 years with obesity caused by three rare genetic conditions.

Some small studies have suggested that topiramate may lead to meaningful weight loss in children, but the medication has been associated with cognitive dysfunction, they said.
 

Considering surgery

“This is an important review of the efficacy of metformin as a tool for weight loss in children with obesity,” said Suzanne C. Boulter, MD, adjunct professor emeritus of pediatrics and community and family medicine at the Geisel School of Medicine at Dartmouth in Hanover, N.H. “Results showed modest decreases in BMI z scores compared to placebo but there were a significant percentage of GI side effects and dropouts from the trials.”

Dr. Suzanne C. Boulter

“Tools other than lifestyle changes are needed to address” pediatric obesity, Dr. Boulter said. “Another tool is gastric bypass which is now a recommended intervention in selected clinical sites for adolescents 14 years of age and older with BMIs greater than 35.”

Dr. Boulter highlighted a recent study in Pediatrics that examined data from more than 200 adolescents who underwent bariatric surgery. The researchers found that outcomes were similar for older and younger patients.

“It would be interesting to pediatricians in practice to see a comparison study between metformin and bariatric surgery long-term results,” Dr. Boulter added.

Dr. Masarwa and coauthors received support from the Quebec Foundation for Health Research and the Canadian Institutes of Health Research Drug Safety and Effectiveness Cross-Disciplinary Training Program. One coauthor also is supported by an award from McGill University.

The authors of the systematic review and the accompanying commentary had no relevant financial disclosures. Dr. Boulter is a member of the editorial advisory board for Pediatric News and had no relevant financial disclosures.

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Metformin has a modest favorable effect on body mass index z score and insulin resistance in children and adolescents with obesity, compared with placebo, according to a systematic review of trial data.

moodboard/thinkstockphotos

“The available evidence is of varying quality,” however, and the drug increases the likelihood of gastrointestinal adverse effects, reported Reem Masarwa, PharmD, PhD, and colleagues in Pediatrics. “Nonetheless, metformin may be considered for use as a pharmacologic therapy in this pediatric population because of its modest efficacy, availability, cost, and safety profile.”

The Food and Drug Administration has approved metformin for the treatment of type 2 diabetes in children and adolescents. Doctors have used the drug off label for weight loss in children with obesity, but this use “remains controversial,” the review authors said.

To assess the efficacy and safety of metformin plus lifestyle interventions compared with placebo plus lifestyle interventions in children and adolescents with obesity, Dr. Masarwa, with the Center for Clinical Epidemiology, Lady Davis Institute, Jewish General Hospital, and the department of epidemiology, biostatistics, and occupational health, McGill University, Montreal, and colleagues systematically reviewed data from randomized controlled trials (RCTs). Their review was published online in Pediatrics.

The investigators focused on studies that examined outcomes such as body mass index, BMI z score, insulin resistance, and gastrointestinal adverse effects. They excluded studies of children with type 2 diabetes.

The researchers included 24 RCTs in their review. The studies included 1,623 children and adolescents who received metformin (861 participants) or placebo (762 participants). Indications included uncomplicated obesity in 10 studies, obesity with insulin resistance in 9 studies, prediabetes in 3 studies, and nonalcoholic fatty liver disease in 2 studies. One of the trials did not incorporate a lifestyle cointervention.

Participants ranged in age from 4 years to 19 years, and trial durations ranged from 2 months to 2 years. The total daily dose of metformin ranged from 500 mg to 2,000 mg.

In 14 RCTs that reported BMI, metformin generally decreased BMI (range of mean changes: –2.70 to 1.30), compared with placebo (range of mean changes: –1.12 to 1.90), although three trials suggested that metformin increased BMI. The average difference in the treatment effect between the metformin and placebo groups ranged from –2.72 to 0.70. “Importantly, the authors of many RCTs reported variable treatment effects, preventing definitive conclusions from being drawn from individual trials,” Dr. Masarwa and coauthors wrote.

In seven RCTs that reported BMI z score, metformin consistently decreased BMI z score (range of mean changes: –0.37 to –0.03), compared with placebo (range of mean changes: –0.22 to 0.15). The mean difference in the treatment effect between treatment groups ranged from –0.15 to –0.07. The largest decrease occurred in patients with nonalcoholic fatty liver disease.

The rate of gastrointestinal adverse events nearly doubled with metformin treatment, relative to placebo (rate range: 2%-74% for metformin vs. 0%-42% for placebo).

Metformin adherence rates ranged from 60% to 90%, and lifestyle cointerventions varied substantially across the trials, the researchers noted. The clinical significance and long-term effects of metformin treatment in this population “remain uncertain,” they said.
 

 

 

Off-label use may not be ideal

“Ideally, children with obesity should be entered into a clinical trial rather than placed on an off-label medication,” Vandana Raman, MD, and Carol M. Foster, MD, said in a related commentary. Still, treatment with metformin may be reasonable in certain cases, said Dr. Raman and Dr. Foster of the division of endocrinology in the department of pediatrics at the University of Utah in Salt Lake City. “Metformin is a low-cost option and may provide modest clinical benefit for weight loss with minimal side effects. If lifestyle modification has been pursued but has achieved minimal weight loss, it may be reasonable to try an agent such as metformin as adjunctive therapy,” they said.

Lifestyle modification therapy – including nutritional changes, physical activity, and behavior modification – has been the “mainstay of management” for patients with obesity, and this approach underpins successful weight loss, they said. But durable weight loss with lifestyle modification may be challenging, and pharmacologic treatments “are attractive options before proceeding to bariatric surgery,” they said.

For younger patients, FDA-approved medications for obesity include orlistat and liraglutide for patients aged 12 years and older, and phentermine for patients aged 16 years and older.

“Orlistat has been associated with modest BMI reduction but may cause intolerable gastrointestinal side effects and possible fat-soluble vitamin deficiency,” they said. “Phentermine is approved for short-term therapy only and may increase heart rate and blood pressure and cause irritability and insomnia.”

Liraglutide, which was approved for the treatment of pediatric obesity in December 2020, reduced BMI in a trial that included adolescents with obesity. About 43% of the participants who received liraglutide, compared with 18% who received placebo, had a 5% reduction in BMI. In addition, 26% and 8%, respectively, had a 10% reduction in BMI. The use of liraglutide “is limited by the need for daily subcutaneous injections and high frequency of gastrointestinal side effects and high cost,” however, the commentary authors noted.

In addition, the FDA has approved setmelanotide for children older than 6 years with obesity caused by three rare genetic conditions.

Some small studies have suggested that topiramate may lead to meaningful weight loss in children, but the medication has been associated with cognitive dysfunction, they said.
 

Considering surgery

“This is an important review of the efficacy of metformin as a tool for weight loss in children with obesity,” said Suzanne C. Boulter, MD, adjunct professor emeritus of pediatrics and community and family medicine at the Geisel School of Medicine at Dartmouth in Hanover, N.H. “Results showed modest decreases in BMI z scores compared to placebo but there were a significant percentage of GI side effects and dropouts from the trials.”

Dr. Suzanne C. Boulter

“Tools other than lifestyle changes are needed to address” pediatric obesity, Dr. Boulter said. “Another tool is gastric bypass which is now a recommended intervention in selected clinical sites for adolescents 14 years of age and older with BMIs greater than 35.”

Dr. Boulter highlighted a recent study in Pediatrics that examined data from more than 200 adolescents who underwent bariatric surgery. The researchers found that outcomes were similar for older and younger patients.

“It would be interesting to pediatricians in practice to see a comparison study between metformin and bariatric surgery long-term results,” Dr. Boulter added.

Dr. Masarwa and coauthors received support from the Quebec Foundation for Health Research and the Canadian Institutes of Health Research Drug Safety and Effectiveness Cross-Disciplinary Training Program. One coauthor also is supported by an award from McGill University.

The authors of the systematic review and the accompanying commentary had no relevant financial disclosures. Dr. Boulter is a member of the editorial advisory board for Pediatric News and had no relevant financial disclosures.

Metformin has a modest favorable effect on body mass index z score and insulin resistance in children and adolescents with obesity, compared with placebo, according to a systematic review of trial data.

moodboard/thinkstockphotos

“The available evidence is of varying quality,” however, and the drug increases the likelihood of gastrointestinal adverse effects, reported Reem Masarwa, PharmD, PhD, and colleagues in Pediatrics. “Nonetheless, metformin may be considered for use as a pharmacologic therapy in this pediatric population because of its modest efficacy, availability, cost, and safety profile.”

The Food and Drug Administration has approved metformin for the treatment of type 2 diabetes in children and adolescents. Doctors have used the drug off label for weight loss in children with obesity, but this use “remains controversial,” the review authors said.

To assess the efficacy and safety of metformin plus lifestyle interventions compared with placebo plus lifestyle interventions in children and adolescents with obesity, Dr. Masarwa, with the Center for Clinical Epidemiology, Lady Davis Institute, Jewish General Hospital, and the department of epidemiology, biostatistics, and occupational health, McGill University, Montreal, and colleagues systematically reviewed data from randomized controlled trials (RCTs). Their review was published online in Pediatrics.

The investigators focused on studies that examined outcomes such as body mass index, BMI z score, insulin resistance, and gastrointestinal adverse effects. They excluded studies of children with type 2 diabetes.

The researchers included 24 RCTs in their review. The studies included 1,623 children and adolescents who received metformin (861 participants) or placebo (762 participants). Indications included uncomplicated obesity in 10 studies, obesity with insulin resistance in 9 studies, prediabetes in 3 studies, and nonalcoholic fatty liver disease in 2 studies. One of the trials did not incorporate a lifestyle cointervention.

Participants ranged in age from 4 years to 19 years, and trial durations ranged from 2 months to 2 years. The total daily dose of metformin ranged from 500 mg to 2,000 mg.

In 14 RCTs that reported BMI, metformin generally decreased BMI (range of mean changes: –2.70 to 1.30), compared with placebo (range of mean changes: –1.12 to 1.90), although three trials suggested that metformin increased BMI. The average difference in the treatment effect between the metformin and placebo groups ranged from –2.72 to 0.70. “Importantly, the authors of many RCTs reported variable treatment effects, preventing definitive conclusions from being drawn from individual trials,” Dr. Masarwa and coauthors wrote.

In seven RCTs that reported BMI z score, metformin consistently decreased BMI z score (range of mean changes: –0.37 to –0.03), compared with placebo (range of mean changes: –0.22 to 0.15). The mean difference in the treatment effect between treatment groups ranged from –0.15 to –0.07. The largest decrease occurred in patients with nonalcoholic fatty liver disease.

The rate of gastrointestinal adverse events nearly doubled with metformin treatment, relative to placebo (rate range: 2%-74% for metformin vs. 0%-42% for placebo).

Metformin adherence rates ranged from 60% to 90%, and lifestyle cointerventions varied substantially across the trials, the researchers noted. The clinical significance and long-term effects of metformin treatment in this population “remain uncertain,” they said.
 

 

 

Off-label use may not be ideal

“Ideally, children with obesity should be entered into a clinical trial rather than placed on an off-label medication,” Vandana Raman, MD, and Carol M. Foster, MD, said in a related commentary. Still, treatment with metformin may be reasonable in certain cases, said Dr. Raman and Dr. Foster of the division of endocrinology in the department of pediatrics at the University of Utah in Salt Lake City. “Metformin is a low-cost option and may provide modest clinical benefit for weight loss with minimal side effects. If lifestyle modification has been pursued but has achieved minimal weight loss, it may be reasonable to try an agent such as metformin as adjunctive therapy,” they said.

Lifestyle modification therapy – including nutritional changes, physical activity, and behavior modification – has been the “mainstay of management” for patients with obesity, and this approach underpins successful weight loss, they said. But durable weight loss with lifestyle modification may be challenging, and pharmacologic treatments “are attractive options before proceeding to bariatric surgery,” they said.

For younger patients, FDA-approved medications for obesity include orlistat and liraglutide for patients aged 12 years and older, and phentermine for patients aged 16 years and older.

“Orlistat has been associated with modest BMI reduction but may cause intolerable gastrointestinal side effects and possible fat-soluble vitamin deficiency,” they said. “Phentermine is approved for short-term therapy only and may increase heart rate and blood pressure and cause irritability and insomnia.”

Liraglutide, which was approved for the treatment of pediatric obesity in December 2020, reduced BMI in a trial that included adolescents with obesity. About 43% of the participants who received liraglutide, compared with 18% who received placebo, had a 5% reduction in BMI. In addition, 26% and 8%, respectively, had a 10% reduction in BMI. The use of liraglutide “is limited by the need for daily subcutaneous injections and high frequency of gastrointestinal side effects and high cost,” however, the commentary authors noted.

In addition, the FDA has approved setmelanotide for children older than 6 years with obesity caused by three rare genetic conditions.

Some small studies have suggested that topiramate may lead to meaningful weight loss in children, but the medication has been associated with cognitive dysfunction, they said.
 

Considering surgery

“This is an important review of the efficacy of metformin as a tool for weight loss in children with obesity,” said Suzanne C. Boulter, MD, adjunct professor emeritus of pediatrics and community and family medicine at the Geisel School of Medicine at Dartmouth in Hanover, N.H. “Results showed modest decreases in BMI z scores compared to placebo but there were a significant percentage of GI side effects and dropouts from the trials.”

Dr. Suzanne C. Boulter

“Tools other than lifestyle changes are needed to address” pediatric obesity, Dr. Boulter said. “Another tool is gastric bypass which is now a recommended intervention in selected clinical sites for adolescents 14 years of age and older with BMIs greater than 35.”

Dr. Boulter highlighted a recent study in Pediatrics that examined data from more than 200 adolescents who underwent bariatric surgery. The researchers found that outcomes were similar for older and younger patients.

“It would be interesting to pediatricians in practice to see a comparison study between metformin and bariatric surgery long-term results,” Dr. Boulter added.

Dr. Masarwa and coauthors received support from the Quebec Foundation for Health Research and the Canadian Institutes of Health Research Drug Safety and Effectiveness Cross-Disciplinary Training Program. One coauthor also is supported by an award from McGill University.

The authors of the systematic review and the accompanying commentary had no relevant financial disclosures. Dr. Boulter is a member of the editorial advisory board for Pediatric News and had no relevant financial disclosures.

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