抗阻训练引起纤维和整块肌肉水平的力量和比肌力的变化：一项荟萃分析。

Resistance training induced changes in strength and specific force at the fiber and whole muscle level: a meta-analysis.

机构信息

Kevser Ermin Applied Physiology Laboratory, Department of Health, Exercise Science, and Recreation Management, The University of Mississippi, 231 Turner Center, University, MS, 38677, USA.

Health and Sports Analytics Laboratory, Department of Health, Exercise Science, and Recreation Management, The University of Mississippi, University, MS, USA.

出版信息

Eur J Appl Physiol. 2019 Jan;119(1):265-278. doi: 10.1007/s00421-018-4022-9. Epub 2018 Oct 24.

DOI:10.1007/s00421-018-4022-9

PMID:30357517

Abstract

PURPOSE

Considerable debate exists as to whether increases in strength that occur with resistance exercise are the result of increases in muscle size. Most studies have attempted to answer this question using assessments of whole muscle size and voluntary muscle strength, but examining changes at the individual muscle fiber level may also provide some insight. The purpose of this meta-analysis was to compare adaptations at the whole muscle and individual fiber level.

METHODS

A meta-analysis was conducted in February, 2018 including all previously published papers and was analyzed using a random effects model.

RESULTS

There were no differences (p = 0.88) when comparing hypertrophy at the whole muscle (4.6%) and individual fiber level (7.0%), but significantly larger (p < 0.001) strength gains were observed at the whole muscle level (43.3%) relative to the individual fiber (19.5%). Additionally, there was an increase in the specific tension of type 1 muscle fibers (p = 0.013), but not type 2 muscle fibers (p = 0.23) which was driven by similar increases in strength (type 1: 17.5%, type 2A: 17.7%), despite differences in muscle size (type 1: 6.7%, type 2A: 12.1%).

CONCLUSION

These results support the hypothesis that the neural adaptations play a large role in increasing isotonic whole muscle strength, but also demonstrate that an improvement in specific tension of type 1 muscle fibers is present. These results would suggest that some mechanism intrinsic to the muscle fiber, and independent of muscle growth, may also be contributing to strength increases in response to resistance exercise providing an avenue for future research.

摘要

目的

关于抗阻运动引起的力量增加是否是肌肉体积增加的结果，存在大量争议。大多数研究试图通过评估整块肌肉的大小和随意肌力量来回答这个问题，但检查肌肉纤维水平的变化也可能提供一些见解。本荟萃分析的目的是比较整块肌肉和个体纤维水平的适应性。

方法

2018 年 2 月进行了荟萃分析，包括所有已发表的论文，并使用随机效应模型进行分析。

结果

整块肌肉（4.6%）和个体纤维水平（7.0%）的肥大无差异（p=0.88），但整块肌肉水平的力量增加明显更大（p<0.001）（43.3%），而个体纤维水平（19.5%）。此外，1 型肌纤维的比张力（p=0.013）增加，但 2 型肌纤维（p=0.23）没有增加，这是由于力量的相似增加（1 型：17.5%，2A 型：17.7%），尽管肌肉大小存在差异（1 型：6.7%，2A 型：12.1%）。

结论

这些结果支持神经适应性在增加等张整块肌肉力量方面起重要作用的假设，但也表明 1 型肌纤维的比张力改善存在。这些结果表明，肌肉纤维内在的一些机制，独立于肌肉生长，也可能有助于抵抗运动引起的力量增加，为未来的研究提供了一个途径。

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抗阻训练引起纤维和整块肌肉水平的力量和比肌力的变化：一项荟萃分析。

Resistance training induced changes in strength and specific force at the fiber and whole muscle level: a meta-analysis.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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