Investigating the Influence of Limb Blood Flow on Contraction-Induced Muscle Growth and the Impact of That Growth on Changes in Maximal Strength.

IF 4.1 2区医学 Q1 SPORT SCIENCES

Medicine and Science in Sports and Exercise Pub Date : 2025-04-01 Epub Date: 2024-11-28 DOI:10.1249/MSS.0000000000003613

Vickie Wong, Robert W Spitz, John P Bentley, Jun Seob Song, Yujiro Yamada, Ryo Kataoka, William B Hammert, Aldo Seffrin, Zachary W Bell, Jeremy P Loenneke

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引用次数: 0

Abstract

Purpose: To determine 1) whether the relationship between isometric training and muscle growth depends on baseline blood flow or is mediated by a change in blood flow, and 2) whether muscle growth mediates changes in maximal isometric strength.

Methods: A total of 179 participants were randomized into low-intensity isometric handgrip exercise (LI), low-intensity isometric handgrip exercise with blood flow restriction (LI-BFR), maximal handgrip exercise (MAX), and a non-exercise control (CONTROL). Muscle thickness, strength, and resting limb blood flow were measured before and after the 6-wk intervention.

Results: Baseline blood flow did not moderate training effects on muscle thickness changes (MTHchg) ( P = 0.666), and moderated mediation tests were nonsignificant. Although the LI-BFR group showed a significant effect on MTHchg ( P = 0.018), MTHchg was not significantly related to handgrip strength change (HGchg) ( P = 0.281), suggesting no mediation of the training-to-strength effect by MTHchg. Both the LI-BFR ( P = 0.004) and MAX ( P < 0.001) groups exhibited positive direct effects on HGchg compared with CONTROL. Furthermore, there were no differences between training groups and CONTROL on blood flow change (BFchg), BFchg and MTHchg were not significantly related, and neither BFchg nor MTHchg predicted HGchg, providing no evidence for mediated pathways.

Conclusions: Muscle growth may not have occurred to an extent that would require vascular adaptation. Training maximally induced the greatest strength adaptations but was seemingly not driven by muscle growth.

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研究肢体血流对收缩诱导的肌肉生长的影响，以及这种生长对最大力量变化的影响。

摘要：骨骼肌大小的变化可能会受到静息血流（如营养输送）的影响，而这种大小的变化是力量变化的假设机制：方法：将 179 名参与者随机分为：低强度等长握手运动（LI）、限制血流的低强度等长握手运动（LI-BFR）、最大限度握手运动（MAX）和非运动对照组（CONTROL）。在为期六周的干预前后，对肌肉厚度、力量和静息肢体血流进行了测量：结果：基线血流并不影响训练对肌肉厚度变化（MTHchg）的影响（p = 0.666），中介测试结果也不显著。虽然 LI-BFR 组对 MTHchg 有显著影响（p = 0.018），但 MTHchg 与手握力变化（HGchg）无显著相关性（p = 0.281），表明 MTHchg 对训练对力量的影响无中介作用。与对照组相比，LI-BFR 组（p = 0.004）和 MAX 组（p < 0.001）对 HGchg 都有积极的直接影响。此外，训练组与对照组在血流变化（BFchg）方面没有差异，BFchg 和 MTHchg 没有显著关系，BFchg 和 MTHchg 都不能预测 HGchg，因此没有证据表明存在中介途径：结论：肌肉生长可能没有达到需要血管适应的程度。最大限度的训练诱导了最大的力量适应，但似乎并非由肌肉生长驱动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Medicine and Science in Sports and Exercise 医学-运动科学

CiteScore

7.70

自引率

4.90%

发文量

2568

审稿时长

1 months

期刊介绍： Medicine & Science in Sports & Exercise® features original investigations, clinical studies, and comprehensive reviews on current topics in sports medicine and exercise science. With this leading multidisciplinary journal, exercise physiologists, physiatrists, physical therapists, team physicians, and athletic trainers get a vital exchange of information from basic and applied science, medicine, education, and allied health fields.