肌肉数量、肌肉质量和相位角对 5164 名 20-91 岁成年人全身反应时间的影响。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-09-08 DOI:10.1007/s00421-024-05591-3

Wataru Fukuda, Takeshi Yoshihisa, Yosuke Yamada

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引用次数: 0

摘要

目的：肌肉数量（定义为附属瘦体重（ALM））、肌肉质量（定义为肌肉力量与 ALM 之比）和生物电阻抗分析（BIA）得出的相位角（PhA）是体能表现的决定因素。我们研究了肌肉质量指数是否能显著预测 20-91 岁健康女性和男性成年人的全身反应时间（WBRT）：分析了 5164 名成年人（女性 2869 人，男性 2295 人；平均年龄（± 标准差）：60.9 ± 15.6 岁）的数据。测量了身高和体重，并计算了体重指数。使用先前验证的 8 个电极多频率 BIA 估算 ALM。使用 BIA 设备在 50 kHz 频率下测量 PhA。对膝关节伸展力量（KES）、腿部伸展力量（LEP）和柔韧性进行了检查。计算了 ALM 与体重（ALM/体重）、KES 与 ALM（KES/ALM）以及 LEP 与 KES（LEP/KES）的比率。在 WBRT 测试中，参与者被要求站在受力板上，并在轻微刺激下尽快直立跳起。WBRT 测试分为反应开始阶段和动作执行阶段：结果：ALM/重量、KES/ALM、LEP/KES、PhA 和柔韧性对 WBRT 和动作执行阶段的时间有显著的独立预测作用（P肌肉数量（ALM/重量）、肌肉质量（KES/ALM 和 LEP/KES）、PhA 和柔韧性是 WBRT 测试成绩的决定因素，尤其是在动作执行阶段。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Effects of muscle quantity, muscle quality, and phase angle on whole-body reaction time in 5164 adults aged 20-91 years.

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Effects of muscle quantity, muscle quality, and phase angle on whole-body reaction time in 5164 adults aged 20-91 years.

Purpose: Muscle quantity, defined as appendicular lean mass (ALM); muscle quality, defined as the ratio of muscle strength to ALM; and bioelectrical impedance analysis (BIA)-derived phase angle (PhA) are determinants of physical performance. We examined whether muscle quality indices were significant predictors of the whole-body reaction time (WBRT) in healthy female and male adults aged 20-91 years.

Methods: Data from 5164 adults (2869 women and 2295 men; mean age ± standard deviation, 60.9 ± 15.6 years) were analyzed. Height and weight were measured, and body mass index was calculated. ALM was estimated using a previously validated 8-electrode multi-frequency BIA. PhA was measured at 50 kHz using a BIA device. Knee extension strength (KES), leg extension power (LEP), and flexibility were examined. The ALM to weight (ALM/weight), KES to ALM (KES/ALM), and LEP to KES (LEP/KES) ratios were calculated. In the WBRT test, participants were asked to stand on a force plate and jump upright as quickly as possible in response to a light stimulus. The WBRT was divided into the response initiation and motion execution phases.

Results: ALM/weight, KES/ALM, LEP/KES, PhA, and flexibility were significant independent predictors of WBRT and the time of the motion execution phase (p < 0.001). However, PhA was not a significant predictor of the time of response initiation phase.

Conclusion: Muscle quantity (ALM/weight), muscle quality (KES/ALM and LEP/KES), PhA, and flexibility are determinants of WBRT test performance, particularly in the motion execution phase.

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464