Johnstone Alexandra M, Murison Sandra D, Duncan Jackie S, Rance Kellie A, Speakman John R
Aberdeen Centre for Energy Regulation and Obesity, Division of Energy Balance and Obesity, Rowett Research Institute, Aberdeen, Scotland, United Kingdom.
Am J Clin Nutr. 2005 Nov;82(5):941-8. doi: 10.1093/ajcn/82.5.941.
Basal metabolic rate (BMR) is the largest component of daily energy demand in Western societies. Previous studies indicated that BMR is highly variable, but the cause of this variation is disputed. All studies agree that variation in fat-free mass (FFM) plays a major role, but effects of fat mass (FM), age, sex, and the hormones leptin, triiodothyrionine (T3), and thyroxine (T4) remain uncertain.
We partitioned the variance in BMR into within- and between-subject effects and explored the roles of FFM, FM, bone mineral content, sex, age, and circulating concentrations of plasma leptin, T3, and T4.
This was a cross-sectional study of 150 white adults from northeast Scotland, United Kingdom.
Only 2% of the observed variability in BMR was attributable to within-subject effects, of which 0.5% was analytic error. Of the remaining variance, which reflected between-subject effects, 63% was explained by FFM, 6% by FM, and 2% by age. The effects of sex and bone mineral content were not significant (P > 0.05). Twenty-six percent of the variance remained unexplained. This variation was not associated with concentrations of circulating leptin or T3. T4 was not significant in women but explained 25% of the residual variance in men.
Our data confirm that both FFM and FM are significant contributors to BMR. When the effect of FM on BMR is removed, any association with leptin concentrations disappears, which suggests that previous links between circulating leptin concentrations and BMR occurred only because of inadequate control for the effects of FM.
基础代谢率(BMR)是西方社会每日能量需求的最大组成部分。先前的研究表明,基础代谢率具有高度变异性,但其变异原因存在争议。所有研究都认为去脂体重(FFM)的变异起主要作用,但体脂量(FM)、年龄、性别以及瘦素、三碘甲状腺原氨酸(T3)和甲状腺素(T4)等激素的影响仍不确定。
我们将基础代谢率的方差分为个体内效应和个体间效应,并探讨了去脂体重、体脂量、骨矿物质含量、性别、年龄以及血浆瘦素、T3和T4的循环浓度的作用。
这是一项对来自英国苏格兰东北部的150名白人成年人的横断面研究。
基础代谢率观察到的变异性中只有2%可归因于个体内效应,其中0.5%是分析误差。其余反映个体间效应的方差中,63%由去脂体重解释,6%由体脂量解释,2%由年龄解释。性别和骨矿物质含量的影响不显著(P>0.05)。26%的方差仍无法解释。这种变异与循环瘦素或T3的浓度无关。T4在女性中不显著,但在男性中解释了25%的剩余方差。
我们的数据证实,去脂体重和体脂量都是基础代谢率的重要贡献因素。当去除体脂量对基础代谢率的影响时,与瘦素浓度的任何关联都消失了,这表明先前循环瘦素浓度与基础代谢率之间的联系仅因未充分控制体脂量的影响而产生。
