Residual force enhancement decreases when scaling from the single muscle fiber to joint level in humans.

IF 9.7 1区 医学 Q1 HOSPITALITY, LEISURE, SPORT & TOURISM Journal of Sport and Health Science Pub Date : 2024-10-23 DOI:10.1016/j.jshs.2024.101000
Avery Hinks, Kaitlyn B E Jacob, Makenna A Patterson, Benjamin E Dalton, Geoffrey A Power
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Abstract

Background: Residual force enhancement (rFE), defined as increased isometric force following active lengthening compared to a fixed-end isometric contraction at the same muscle length and level of activation, is present across all scales of muscle. While rFE is always present at the cellular level, often rFE "non-responders" are observed during joint-level voluntary contractions.

Methods: We compared rFE between the joint level and single fiber level (vastus lateralis biopsies) in 16 young males. In vivo voluntary knee-extensor rFE was measured by comparing steady-state isometric torque between a stretch-hold (maximal activation at 150°, stretch to 70°, hold) and a fixed-end isometric contraction, with ultrasonographic recording of vastus lateralis fascicle length (FL). Fixed-end contractions were performed at 67.5°, 70.0°, 72.5°, and 75.0°; the joint angle that most closely matched FL of the stretch-hold contraction's isometric steady-state was used to calculate rFE. The starting and ending FLs of the stretch-hold contraction were expressed as % optimal FL, determined via torque-angle relationship.

Results: In single fiber experiments, the starting and ending fiber lengths were matched relative to optimal length determined from in vivo testing, yielding an average sarcomere excursion of ∼2.2-3.4µm. There was a greater magnitude of rFE at the single fiber (∼20%) than joint level (∼5%) (p = 0.004), with "non-responders" only observed at the joint level.

Conclusion: By comparing rFE across scales within the same participants, we show the development of the rFE non-responder phenomenon is upstream of rFE's cellular mechanisms, with rFE only lost rather than gained when scaling from single fibers to the joint level.

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当人类从单个肌肉纤维扩展到关节水平时,残余力增强会减弱。
背景:残余力增强(rFE)是指在肌肉长度和激活水平相同的情况下,与固定端的等长收缩相比,主动拉长后等长力的增加。虽然 rFE 始终存在于细胞水平,但在关节水平的自主收缩过程中往往会观察到 rFE "无反应者":方法:我们对 16 名年轻男性的关节水平和单纤维水平(侧阔肌活检组织)的 rFE 进行了比较。通过比较拉伸-保持(150°时最大激活,拉伸至 70°,保持)和固定端等长收缩之间的稳态等长扭力,并通过超声波记录阔筋膜筋束长度(FL)来测量体内膝关节自主伸展的 rFE。固定端收缩的角度分别为 67.5°、70.0°、72.5° 和 75.0°;在计算 rFE 时,采用了与拉伸-保持收缩的等长稳态 FL 最接近的关节角度。拉伸-保持收缩的起始和终止 FL 用最佳 FL 的百分比表示,通过扭矩-角度关系确定:结果:在单纤维实验中,起始和终止纤维长度与体内测试确定的最佳长度相匹配,产生的平均肌节偏移量为 2.2-3.4 微米。单根纤维的 rFE 值(∼20%)大于关节水平的 rFE 值(∼5%)(p = 0.004),仅在关节水平观察到 "无反应者":通过比较同一参与者不同尺度的 rFE,我们发现 rFE 非反应者现象的形成是在 rFE 细胞机制的上游,当从单纤维尺度扩展到关节尺度时,rFE 只会损失而不会增加。
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
CiteScore
18.30
自引率
1.70%
发文量
101
审稿时长
22 weeks
期刊介绍: The Journal of Sport and Health Science (JSHS) is an international, multidisciplinary journal that aims to advance the fields of sport, exercise, physical activity, and health sciences. Published by Elsevier B.V. on behalf of Shanghai University of Sport, JSHS is dedicated to promoting original and impactful research, as well as topical reviews, editorials, opinions, and commentary papers. With a focus on physical and mental health, injury and disease prevention, traditional Chinese exercise, and human performance, JSHS offers a platform for scholars and researchers to share their findings and contribute to the advancement of these fields. Our journal is peer-reviewed, ensuring that all published works meet the highest academic standards. Supported by a carefully selected international editorial board, JSHS upholds impeccable integrity and provides an efficient publication platform. We invite submissions from scholars and researchers worldwide, and we are committed to disseminating insightful and influential research in the field of sport and health science.
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