Lean mass as a determinant of bone mineral density of proximal femur in postmenopausal women.

Rosangela Villa Marin-Mio,Linda Denise Fernandes Moreira,Maysa Seabra Cerondoglo,Marise Lazaretti-Castro,Neide Alessandra Sansão Périgo,Marília Camargo

doi:10.20945/2359-3997000000059

Rosangela Villa Marin-Mio, Linda Denise Fernandes Moreira + Show 4 more

Open Access

https://doi.org/10.20945/2359-3997000000059

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Abstract

To verify which component of body composition (BC) has greater influence on postmenopausal women bone mineral density (BMD). Four hundred and thirty women undergoing treatment for osteoporosis and 513 untreated women, except for calcium and vitamin D. Multiple linear regression analysis was performed in order to correlated BMD at lumbar spine (LS), total femur (FT), femoral neck (FN) with body mass (BM), total lean mass (LM) and total fat mass (FM), all determined by DXA. BM significantly correlated with all bone sites in untreated and treated women (r = 0.420 vs 0.277 at LS; r = 0.490 vs 0.418 at FN, r = 0.496 vs 0.414 at FT, respectively). In untreated women, the LM correlated better than FM with all sites, explaining 179% of LS; 32.3% of FN and 30.2% of FT; whereas FM explained 13.2% of LS; 277% of FN, 23.4% of FT In treated women, correlations with BC were less relevant, with the LM explaining 6.7% of BMD at LS; 15.2% of FN, 16% of FT, whereas the FM explained 8.1% of LS; 179% of FN and 176% of FT. LM in untreated women was better predictor of BMD than FM, especialy for distal femur, where it explained more than 30% of the BMD, suggesting that maintaining a healthy muscle mass may contribute to decrease osteoporosis risk. Treatment with anti-osteoporotic drugs seems to mask these relationships. Arch Endocrinol Metab. 2018;62(4):431-7.

Highlights

Osteoporosis is intimaly associated to the aging process and represents a social problem nowadays
In women not treated for osteoporosis, among all the studied variables, the total body mass was the one that best correlated with all sites of bone mass: lumbar spine (LS) r = 0.427 (p = 0.000), femoral neck (FN) r = 0.490 (p = 0.000) and total femur (TF) r = 0.496 (p = 0.000)
For the same 513 women, the lean mass was the variable that best correlated with all sites of bone mineral density, r = 0.423 (p = 0.000) at LS, r = 0.505 (p = 0.000) at FN and r = 0.520 (p = 0.000) at TF (Figure 1)

Summary

Introduction

Osteoporosis is intimaly associated to the aging process and represents a social problem nowadays. Binder and Kohrt [7], studying elderly men and women, observed that the lean mass was the BC component that best correlated with bone mineral density (BMD). Lean mass as a determinant of bone mineral density the components of BC would be better related to bone mass in a representative population of postmenopausal women both treatment and treatment näive for osteoporosis.

Results

Conclusion