RESUMO
INTRODUCTION: There are few studies integrating the common causes of osteoporosis and obesity (disorders of body composition). A first step is to investigate correlations between their biological phenotypes to determine their common integrative physiology. OBJECTIVE: To correlate the variation of bone mineral density with phenotypes of body composition and biomarkers of bone physiology, insulin-glucose axis, and adipose tissue. METHODS: Cross-sectional study of 75 women (aged 18-45 years). MEASUREMENTS: Body mass index, waist, fat mass, lean mass (dual-energy X-ray absorptiometry), glucose, insulin, osteocalcin, leptin, tumor necrosis factor alpha. STATISTICAL ANALYSIS: multivariate general linear model, SPSS v.22, p<0.05. RESULTS: Age: 32.08±7.33. Bone mineral content multivariate general linear model 1 with two phenotypes excluded (glucose, insulin): osteocalcin (ß=-0.228, p=0.011), lean mass (ß=0.606, p=0.001) and fat mass (ß=1.237, p=0.001) in 62.0%. The bone mineral density multivariate general linear model 2 with three phenotypes excluded (body mass index, glucose, tumor necrosis factor alpha): insulin (ß=0.250, p=0.024), osteocalcin (ß=-0.362, p=0.001), lean mass (ß=0.512, p=0.001) and fat mass (ß=0.701, p=0.001) in 46.3%. CONCLUSIONS: Results show that body composition with an increased lean mass is beneficial to bone. This study reaffirms the importance of performing regular exercise to prevent muscle loss.