부산대학교 도서관

Objectives: Fat‐free mass (FFM) accounts for ~80% of the variance in resting energy expenditure (REE), and this relationship is complicated by adiposity. The objective was to compare adjusted REE and contributions of skeletal lean mass and fat mass (FM) to adjusted REE in women with varying adiposity levels using a novel approach. Methods: Women were divided into tertiles by body fat percent (%fat): Tertile 1 (T1): %fat = 18.5%–28.4%; Tertile 2 (T2): %fat = 28.5%–33.8%; Tertile 3 (T3): %fat = 34.0%–61.0%. Outcome measures were measured and adjusted REE, body composition (skeletal lean mass, FM, %fat) from dual‐energy X‐ray absorptiometry, and percent contribution of skeletal lean mass and FM to adjusted REE. Results: The main effect for tertiles (T1 vs. T2 vs. T3) was significant (p =.001); REE was significantly higher in T3 versus both T1 by 281 kcal/day (p =.001) and T2 by 215 kcal/day (p =.001). Expenditure from skeletal lean mass in T1 was significantly higher than T3 by 3.2% (p =.001). T3 had a significantly higher FM contribution than T1 by 5.1% (p =.001) and T2 by 3.9% (p =.001). Conclusions: Women with elevated %fat experienced lower skeletal lean mass contribution and higher FM contribution to adjusted REE. FM may explain more of the variance in REE between women of different levels of adiposity. [ABSTRACT FROM AUTHOR]