OBJECTIVE: To measure serum leptin concentrations in the Polynesian population of Western Samoa and to examine epidemiological associations of leptin with anthropometric, demographic, behavioural, and metabolic factors in this population with a high prevalence of obesity and non-insulin dependent diabetes mellitus. DESIGN: Cross sectional study, leptin concentration being measured in a subgroup of a population based sample. SUBJECTS: 240 Polynesian men and women aged 28-74 years were selected to cover the full range of age, body mass index, and glucose tolerance. MAIN OUTCOME MEASUREMENTS: Serum leptin, insulin, and glucose concentrations; anthropometric measures; physical activity; and area of residence. RESULTS: Leptin concentrations were correlated with body mass index (r = 0.80 in men, 0.79 in women) and waist circumference (r = 0.82 in men, 0.78 in women) but less so with waist to hip ratio. At any body mass index, leptin concentration was higher in women than men (geometric mean adjusted for body mass index 15.3 v 3.6 pg/l, P < 0.001). Leptin concentration also correlated with fasting insulin concentration (r = 0.63 in men, 0.64 in women) and insulin concentration 2 hours after a glucose load (r = 0.58 in men, 0.52 in women). These associations remained significant after controlling for body mass index; effects of physical activity and of rural or urban living on leptin concentration were eliminated after adjusting for obesity, except values remained high in urban men. 78% of variance in leptin was explained by a model including fasting insulin concentration, sex, body mass index, and a body mass index by sex interaction term. Similar results were obtained if waist circumference replaced body mass index. CONCLUSIONS: The strong relation of leptin with obesity is consistent with leptin production being proportional of mass to adipose tissue. The relation with insulin independent of body mass index suggests a possible role for leptin in insulin resistance or hyperinsulinaemia.
OBJECTIVE: To measure serum leptin concentrations in the Polynesian population of Western Samoa and to examine epidemiological associations of leptin with anthropometric, demographic, behavioural, and metabolic factors in this population with a high prevalence of obesity and non-insulin dependent diabetes mellitus. DESIGN: Cross sectional study, leptin concentration being measured in a subgroup of a population based sample. SUBJECTS: 240 Polynesian men and women aged 28-74 years were selected to cover the full range of age, body mass index, and glucose tolerance. MAIN OUTCOME MEASUREMENTS: Serum leptin, insulin, and glucose concentrations; anthropometric measures; physical activity; and area of residence. RESULTS: Leptin concentrations were correlated with body mass index (r = 0.80 in men, 0.79 in women) and waist circumference (r = 0.82 in men, 0.78 in women) but less so with waist to hip ratio. At any body mass index, leptin concentration was higher in women than men (geometric mean adjusted for body mass index 15.3 v 3.6 pg/l, P < 0.001). Leptin concentration also correlated with fasting insulin concentration (r = 0.63 in men, 0.64 in women) and insulin concentration 2 hours after a glucose load (r = 0.58 in men, 0.52 in women). These associations remained significant after controlling for body mass index; effects of physical activity and of rural or urban living on leptin concentration were eliminated after adjusting for obesity, except values remained high in urban men. 78% of variance in leptin was explained by a model including fasting insulin concentration, sex, body mass index, and a body mass index by sex interaction term. Similar results were obtained if waist circumference replaced body mass index. CONCLUSIONS: The strong relation of leptin with obesity is consistent with leptin production being proportional of mass to adipose tissue. The relation with insulin independent of body mass index suggests a possible role for leptin in insulin resistance or hyperinsulinaemia.
Authors: R V Considine; E L Considine; C J Williams; M R Nyce; S A Magosin; T L Bauer; E L Rosato; J Colberg; J F Caro Journal: J Clin Invest Date: 1995-06 Impact factor: 14.808
Authors: J L Halaas; K S Gajiwala; M Maffei; S L Cohen; B T Chait; D Rabinowitz; R L Lallone; S K Burley; J M Friedman Journal: Science Date: 1995-07-28 Impact factor: 47.728
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Authors: A Kettaneh; B Heude; M Romon; J M Oppert; J M Borys; B Balkau; P Ducimetière; M A Charles Journal: Eur J Clin Nutr Date: 2006-12-13 Impact factor: 4.016