Rolland Yves, Lauwers-Cances Valérie, Pahor Marco, Fillaux Judith, Grandjean Hélène, Vellas Bruno
Service de Médecine Interne et de Gérontologie Clinique, Hôpital La Grave-Casselardit, Toulouse, France.
Am J Clin Nutr. 2004 Apr;79(4):552-7. doi: 10.1093/ajcn/79.4.552.
Muscle strength (MS) may be impaired in obese persons, and this impairment may be a consequence of both obesity and low physical fitness.
We investigated whether MS differed between obese [body mass index (BMI; in kg/m2 > 29], normal-weight (BMI = 24-29), and lean (BMI < 24) elderly subjects and compared the MS of sedentary and active subjects according to their BMI group.
The study included 215 obese [ (+/- SD) age: 80.0 +/- 3.5 y; BMI: 31.9 +/- 2.6], 630 normal-weight (age: 80.2 +/- 3.7 y; BMI: 26.3 +/- 1.4), and 598 lean (age: 80.7 +/- 3.5 y; BMI: 21.6 +/- 1.8) women with good functional ability. A cross-sectional design was used. Anthropometric measures (weight, height); measures of appendicular skeletal muscle mass (by dual-energy X-ray absorptiometry), isometric knee and elbow extension (by statergometer), and isometric handgrip strength (by dynamometer); and data on health status and self-reported recreational physical activity (RPA: walking, gymnastics, cycling, swimming, gardening) were collected.
Absolute (unadjusted) MS was higher in obese than in lean women (P < 0.01), except for handgrip strength (P > 0.05). When adjusted for age, height, RPA, pain, depression, and appendicular skeletal muscle mass, MS did not differ significantly between obese, normal-weight, and lean subjects, except for knee extension (significant interaction effect with RPA; P = 0.01). With increasing BMI, lower limb strength did not change in the sedentary women but increased in active (> or = 1 h/wk in > or = 1 RPA for > or = 1 mo) women. All adjusted MS measures in active participants were significantly higher (P < 0.001) than those in their sedentary peers.
The adjusted MS of elderly women is not associated with obesity but is higher in active subjects than in sedentary ones, especially in the lower limbs of obese subjects.
肥胖者的肌肉力量(MS)可能受损,这种损害可能是肥胖和低身体素质共同作用的结果。
我们调查了肥胖(体重指数[BMI;单位为kg/m²]>29)、正常体重(BMI = 24 - 29)和消瘦(BMI < 24)的老年受试者之间的肌肉力量是否存在差异,并根据BMI分组比较了久坐和活跃受试者的肌肉力量。
该研究纳入了215名肥胖女性(年龄:80.0±3.5岁;BMI:31.9±2.6)、630名正常体重女性(年龄:80.2±3.7岁;BMI:26.3±1.4)和598名消瘦女性(年龄:80.7±3.5岁;BMI:21.6±1.8),她们的功能能力良好。采用横断面设计。收集了人体测量指标(体重、身高);四肢骨骼肌质量测量指标(通过双能X线吸收法)、等长膝关节和肘关节伸展测量指标(通过测力计)以及等长握力测量指标(通过握力计);以及健康状况和自我报告的娱乐性身体活动(RPA:步行、体操、骑自行车、游泳、园艺)数据。
除握力外(P > 0.05),肥胖女性的绝对(未调整)肌肉力量高于消瘦女性(P < 0.01)。在对年龄、身高、RPA、疼痛、抑郁和四肢骨骼肌质量进行调整后,肥胖、正常体重和消瘦受试者之间的肌肉力量没有显著差异,但膝关节伸展力量除外(与RPA有显著交互作用;P = 0.01)。随着BMI的增加,久坐女性的下肢力量没有变化,但活跃女性(每周≥1小时,参与≥1种RPA且持续≥1个月)的下肢力量增加。活跃参与者的所有调整后肌肉力量测量指标均显著高于(P < 0.001)久坐的同龄人。
老年女性经调整后的肌肉力量与肥胖无关,但活跃受试者的肌肉力量高于久坐受试者,尤其是肥胖受试者的下肢。
