性别与抗阻训练相关的肌肉-肌腱适应性改变。

Gender associated muscle-tendon adaptations to resistance training.

机构信息

School of Sport, Ulster University, Belfast, United Kingdom.

Health, Exercise and Active Living (HEAL) Research Centre, Manchester Metropolitan University, Crewe, Cheshire, United Kingdom.

出版信息

PLoS One. 2018 May 22;13(5):e0197852. doi: 10.1371/journal.pone.0197852. eCollection 2018.

DOI:10.1371/journal.pone.0197852

PMID:29787583

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5963774/

Abstract

PURPOSE

To compare the relative changes in muscle-tendon complex (MTC) properties following high load resistance training (RT) in young males and females, and determine any link with circulating TGFβ-1 and IGF-I levels.

METHODS

Twenty-eight participants were assigned to a training group and subdivided by sex (T males [TM] aged 20±1 year, n = 8, T females [TF] aged 19±3 year, n = 8), whilst age-matched 6 males and 6 females were assigned to control groups (ConM/F). The training groups completed 8 weeks of resistance training (RT). MTC properties (Vastus Lateralis, VL) physiological cross-sectional area (pCSA), quadriceps torque, patella tendon stiffness [K], Young's modulus, volume, cross-sectional area, and length, circulating levels of TGFβ-1 and IGF-I were assessed at baseline and post RT.

RESULTS

Post RT, there was a significant increase in the mechanical and morphological properties of the MTC in both training groups, compared to ConM/F (p<0.001). However, there were no significant sex-specific changes in most MTC variables. There were however significant sex differences in changes in K, with females exhibiting greater changes than males at lower MVC (Maximal Voluntary Contraction) force levels (10% p = 0.030 & 20% MVC p = 0.032) and the opposite effect seen at higher force levels (90% p = 0.040 & 100% MVC p = 0.044). There were significant increases (p<0.05) in IGF-I in both TF and TM following training, with no change in TGFβ-1. There were no gender differences (p>0.05) in IGF-I or TGFβ-1. Interestingly, pooled population data showed that TGFβ-1 correlated with K at baseline, with no correlations identified between IGF-I and MTC properties.

CONCLUSIONS

Greater resting TGFβ-1 levels are associated with superior tendon mechanical properties. RT can impact opposite ends of the patella tendon force-elongation relationship in each sex. Thus, different loading patterns may be needed to maximize resistance training adaptations in each sex.

摘要

目的

比较年轻男性和女性在进行高负荷抗阻训练（RT）后肌肉-肌腱复合体（MTC）特性的相对变化，并确定其与循环 TGFβ-1 和 IGF-I 水平的任何关联。

方法

28 名参与者被分配到训练组，并按性别进一步分为两组（TM 组：20±1 岁，n = 8；TF 组：19±3 岁，n = 8），同时匹配年龄的 6 名男性和 6 名女性被分配到对照组（ConM/F）。训练组完成了 8 周的抗阻训练（RT）。在基线和 RT 后评估 MTC 特性（股外侧肌，VL）生理横截面积（pCSA）、股四头肌扭矩、髌腱硬度[K]、杨氏模量、体积、横截面积和长度，以及循环 TGFβ-1 和 IGF-I 水平。

结果

RT 后，与 ConM/F 相比，两组训练组的 MTC 力学和形态特性均有显著增加（p<0.001）。然而，大多数 MTC 变量在性别上没有显著的特异性变化。然而，K 的性别差异显著，在较低的 MVC（最大随意收缩）力水平（10%p = 0.030 和 20%MVC p = 0.032）下，女性的变化大于男性，而在较高的力水平下则相反（90%p = 0.040 和 100%MVC p = 0.044）。在 TF 和 TM 中，IGF-I 在训练后均显著增加（p<0.05），而 TGFβ-1 无变化。IGF-I 或 TGFβ-1 在性别上无差异（p>0.05）。有趣的是，汇总的人群数据显示，TGFβ-1 与基线时的 K 相关，而 IGF-I 与 MTC 特性之间没有相关性。

结论

较高的静息 TGFβ-1 水平与更好的肌腱力学特性相关。RT 可以对每个性别髌腱力-伸长关系的两端产生相反的影响。因此，可能需要不同的加载模式来使每个性别的抗阻训练适应最大化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e631/5963774/7d53f9c73fa9/pone.0197852.g001.jpg

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性别与抗阻训练相关的肌肉-肌腱适应性改变。

Gender associated muscle-tendon adaptations to resistance training.

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出版信息

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METHODS

RESULTS

CONCLUSIONS

目的

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结果

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