人体肌肉反复进行最大等长收缩疲劳过程中的中枢激活、代谢产物及钙处理

Central activation, metabolites, and calcium handling during fatigue with repeated maximal isometric contractions in human muscle.

作者信息

Cairns Simeon P, Inman Luke A G, MacManus Caroline P, van de Port Ingrid G L, Ruell Patricia A, Thom Jeanette M, Thompson Martin W

机构信息

Sports Performance Research Institute New Zealand, School of Sport and Recreation, Faculty of Health and Environmental Sciences, Auckland University of Technology, Private Bag 92006, Auckland, 1020, New Zealand.

Health and Rehabilitation Research Institute, Faculty of Health and Environmental Sciences, Auckland University of Technology, Auckland, New Zealand.

出版信息

Eur J Appl Physiol. 2017 Aug;117(8):1557-1571. doi: 10.1007/s00421-017-3640-y. Epub 2017 May 19.

DOI:10.1007/s00421-017-3640-y

PMID:28527013

Abstract

PURPOSE

To determine the roles of calcium (Ca) handling by sarcoplasmic reticulum (SR) and central activation impairment (i.e., central fatigue) during fatigue with repeated maximal voluntary isometric contractions (MVC) in human muscles.

METHODS

Contractile performance was assessed during 3 min of repeated MVCs (7-s contraction, 3-s rest, n = 17). In ten participants, in vitro SR Ca-handling, metabolites, and fibre-type composition were quantified in biopsy samples from quadriceps muscle, along with plasma venous [K]. In 11 participants, central fatigue was compared using tetanic stimulation superimposed on MVC in quadriceps and adductor pollicis muscles.

RESULTS

The decline of peak MVC force with fatigue was similar for both muscles. Fatigue resistance correlated directly with % type I fibre area in quadriceps (r = 0.77, P = 0.009). The maximal rate of ryanodine-induced Ca-release and Ca-uptake fell by 31 ± 26 and 28 ± 13%, respectively. The tetanic force depression was correlated with the combined reduction of ATP and PCr, and increase of lactate (r = 0.77, P = 0.009). Plasma venous [K] increased from 4.0 ± 0.3 to 5.4 ± 0.8 mM over 1-3-min exercise. Central fatigue occurred during the early contractions in the quadriceps in 7 out of 17 participants (central activation ratio fell from 0.98 ± 0.05 to 0.86 ± 0.11 at 1 min), but dwindled at exercise cessation. Central fatigue was seldom apparent in adductor pollicis.

CONCLUSIONS

Fatigue with repeated MVC in human limb muscles mainly involves peripheral aspects which include impaired SR Ca-handling and we speculate that anaerobic metabolite changes are involved. A faster early force loss in quadriceps muscle with some participants is attributed to central fatigue.

摘要

目的

确定在人体肌肉反复进行最大自主等长收缩（MVC）导致疲劳的过程中，肌浆网（SR）对钙（Ca）的处理作用以及中枢激活受损（即中枢疲劳）的情况。

方法

在3分钟的反复MVC过程中（7秒收缩，3秒休息，n = 17）评估收缩性能。在10名参与者中，对股四头肌活检样本中的体外SR钙处理、代谢产物和纤维类型组成进行定量分析，同时检测静脉血浆[K]。在11名参与者中，通过在股四头肌和拇收肌的MVC上叠加强直刺激来比较中枢疲劳情况。

结果

两块肌肉因疲劳导致的MVC峰值力下降情况相似。疲劳抵抗能力与股四头肌中I型纤维面积百分比直接相关（r = 0.77，P = 0.009）。雷诺丁诱导的钙释放最大速率和钙摄取分别下降了31±26%和28±13%。强直力降低与ATP和磷酸肌酸（PCr）的综合减少以及乳酸增加相关（r = 0.77，P = 0.009）。在1 - 3分钟的运动过程中，静脉血浆[K]从4.0±0.3 mM增加到5.4±0.8 mM。17名参与者中有7名在股四头肌早期收缩时出现中枢疲劳（1分钟时中枢激活率从0.98±0.05降至0.86±0.11），但在运动停止时减弱。拇收肌很少出现明显的中枢疲劳。

结论

人体肢体肌肉反复进行MVC导致的疲劳主要涉及外周因素，包括SR钙处理受损，我们推测无氧代谢产物变化也参与其中。部分参与者股四头肌早期力损失更快归因于中枢疲劳。

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人体肌肉反复进行最大等长收缩疲劳过程中的中枢激活、代谢产物及钙处理

Central activation, metabolites, and calcium handling during fatigue with repeated maximal isometric contractions in human muscle.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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