PEDIATRICS Vol. 107 No. 4 April 2001, p. e55
ELECTRONIC ARTICLE:
The Effects of Metformin on Body Mass Index and Glucose
Tolerance in Obese Adolescents With Fasting Hyperinsulinemia and
a Family History of Type 2 Diabetes
Received Aug 18, 2000; accepted Oct 18, 2000.
and
From the Departments of * Pediatrics and Cell Biology, Duke
University Medical Center, Durham North Carolina.
Objectives. The prevalence of type 2 diabetes in American adolescents has increased markedly during the past generation. Although the factors that contribute to the development of type 2 diabetes are complex and not wholly elucidated, the triad of severe obesity, hyperinsulinemia, and a family history of type 2 diabetes places a child at an increased risk for development of the disease. Current approaches to the prevention of type 2 diabetes, including dietary counseling and exercise, have had limited success. We reasoned that drugs that increase glucose tolerance in diabetic patients might prove useful in preventing the progression to glucose intolerance in high-risk patients. To that end, we conducted a double-blind, placebo-controlled study of the effects of metformin on body mass index (BMI), serum leptin, glucose tolerance, and serum lipids in obese adolescents with fasting hyperinsulinemia and a family history of type 2 diabetes.
Methods. The study population consisted of 29 white and
black adolescents aged 12 to 19 years. All had BMIs exceeding 30 kg/m2. Criteria for enrollment included: 1) a fasting
insulin concentration exceeding 15 µU/mL; and 2) at least 1 first- or
second-degree relative with type 2 diabetes. All patients had fasting
plasma glucose concentrations <110 mg% and hemoglobin A1c
concentrations 
6.0%. All had normal linear growth and sexual
development for age, with no marked hirsutism, severe acne, or
menstrual irregularities characteristic of polycystic ovary syndrome.
Eight participants had acanthosis nigricans. After baseline laboratory
studies including a rapidly sampled intravenous glucose tolerance test,
patients were randomized to receive metformin (500 mg twice daily) or a placebo for a total of 6 months. The effects of metformin on BMI standard deviation score, serum leptin, glucose tolerance, and serum
lipids were analyzed. The study was double-blinded and included no
specific dietary restrictions.
Results. Metformin caused a decline of 0.12 standard
deviation in BMI in study participants (
1.3% from baseline), and a
5.5% reduction in serum leptin in girls. In contrast, BMI and serum
leptin rose 0.23 standard deviation (2.3%) and 16.2%, respectively,
in the placebo group during the treatment period. Metformin caused a progressive decline in fasting blood glucose (from a mean of 84.9 to
75.1 mg%) and a reduction in fasting insulin levels (from 31.3 to 19.3 µU/mL). In contrast, fasting glucose levels in the placebo group rose
slightly from 77.2 to 82.3 mg%, and fasting insulin levels did not
change. Insulin sensitivity, as assessed by the ratio of fasting
insulin to glucose concentrations and the quantitative insulin
sensitivity check index (1/[log fasting insulin + log fasting
glucose]) and homeostasis model assessment insulin resistance index
(fasting insulin × fasting glucose/22.5) indices, increased slightly in the metformin-treated participants. However, the insulin sensitivity measured using Bergman's minimal model did not change. There were also no significant changes in glucose effectiveness, hemoglobin A1c, serum lipids, or serum lactate in the metformin or
placebo groups. Metformin was tolerated well by the majority of
patients. Transient abdominal discomfort or diarrhea occurred in 40%
of treated participants; there were no episodes of vomiting or lactic
acidosis.
Conclusions. The treatment of obesity and insulin resistance in adults often proves ineffective because the vicious cycle leading to type 2 diabetes may have become entrenched and, to some extent, may be irreversible. Early detection and therapy of the obese adolescent with a family history of type 2 diabetes may interrupt the cycle of weight gain and insulin resistance that leads to glucose intolerance in adulthood. Through its ability to reduce fasting blood glucose and insulin concentrations and to moderate weight gain, metformin might complement the effects of dietary and exercise counseling and reduce the risk of type 2 diabetes in selected patients. Key words: obesity, type 2 diabetes, metformin, insulin, glucose.
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