握力和腿伸展力量在预测老年人慢步态速度中的比较

Comparison of Handgrip and Leg Extension Strength in Predicting Slow Gait Speed in Older Adults.

作者信息

Fragala Maren S, Alley Dawn E, Shardell Michelle D, Harris Tamara B, McLean Robert R, Kiel Douglas P, Cawthon Peggy M, Dam Thuy-Tien L, Ferrucci Luigi, Guralnik Jack M, Kritchevsky Stephen B, Vassileva Maria T, Gudnason Vilmunder, Eiriksdottir Gudny, Koster Annemarie, Newman Anne, Siggeirsdottir Kristin, Satterfield Suzanne, Studenski Stephanie A, Kenny Anne M

机构信息

University of Central Florida, Orlando, Florida.

University of Connecticut Health Center, Farmington, Connecticut.

出版信息

J Am Geriatr Soc. 2016 Jan;64(1):144-50. doi: 10.1111/jgs.13871.

DOI:10.1111/jgs.13871

PMID:26782864

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5490244/

Abstract

OBJECTIVES

To compare the relative predictive power of handgrip and leg extension strength in predicting slow walking.

DESIGN

Report of correlative analysis from two epidemiological cohort studies.

SETTING

Foundation of the National Institutes of Health Sarcopenia Project.

PARTICIPANTS

Men and women aged 67 to 93 (N=6,766).

MEASUREMENTS

Leg strength, handgrip strength, and gait speed were measured. Strength cutpoints associated with slow gait speed were developed using classification and regression tree analyses and compared using ordinary least squares regression models.

RESULTS

The cutpoints of lower extremity strength associated with slow gait speed were 154.6 N-m in men and 89.9 N-m in women for isometric leg extension strength and 94.5 N-m in men and 62.3 N-m in women for isokinetic leg extension strength. Weakness defined according to handgrip strength (odds ratios (OR)=1.99 to 4.33, c-statistics=0.53 to 0.67) or leg strength (ORs=2.52 to 5.77; c-statistics=0.61 to 0.66) was strongly related to odds of slow gait speed. Lower extremity strength contributed 1% to 16% of the variance and handgrip strength contributed 3% to 17% of the variance in the prediction of gait speed depending on sex and mode of strength assessment.

CONCLUSION

Muscle weakness of the leg extensors and forearm flexors is related to slow gait speed. Leg extension strength is only a slightly better predictor of slow gait speed. Thus, handgrip and leg extension strength appear to be suitable for screening for muscle weakness in older adults.

摘要

目的

比较握力和腿部伸展力量在预测步行速度缓慢方面的相对预测能力。

设计

两项流行病学队列研究的相关分析报告。

背景

美国国立卫生研究院肌肉减少症项目基金会。

参与者

年龄在67至93岁之间的男性和女性（N = 6766）。

测量指标

测量腿部力量、握力和步态速度。使用分类与回归树分析得出与缓慢步态速度相关的力量切点，并使用普通最小二乘法回归模型进行比较。

结果

与缓慢步态速度相关的下肢力量切点，等长腿部伸展力量方面，男性为154.6牛米，女性为89.9牛米；等速腿部伸展力量方面，男性为94.5牛米，女性为62.3牛米。根据握力定义的虚弱（优势比（OR）= 1.99至4.33，c统计量= 0.53至0.67）或腿部力量（OR = 2.52至5.77；c统计量= 0.61至0.66）与缓慢步态速度的几率密切相关。根据性别和力量评估方式，下肢力量在步态速度预测中贡献了1%至16%的方差，握力贡献了3%至17%的方差。

结论

腿部伸肌和前臂屈肌的肌肉无力与步态速度缓慢有关。腿部伸展力量在预测步态速度缓慢方面仅略胜一筹。因此，握力和腿部伸展力量似乎适用于筛查老年人的肌肉无力情况。

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本文引用的文献

Grip strength cutpoints for the identification of clinically relevant weakness.握力切点用于识别临床相关的虚弱。

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