急性脱水会影响健康成年人的神经肌肉功能吗?- 系统综述。

Rúben Francisco, Filipe Jesus, Paulo Santos, Pia Trbovšek, Alexandre S Moreira, Catarina L Nunes, Marta Alvim, Luís B Sardinha, Henry Lukaski, Gonçalo V Mendonca, Analiza M Silva
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引用次数: 0

摘要

急性脱水对神经肌肉功能的影响已被研究过。然而,这种功能的基础机制是中枢的还是外周的,目前仍在确定之中,研究结果也不一致。本系统综述旨在阐明急性脱水对神经肌肉功能的影响,包括研究中枢和外周神经肌肉机制这一新颖方面。文章检索使用了三个数据库:PubMed、Web of Science 和 Scopus。如果研究对脱水、肌肉表现、肌电图数据或经颅磁刺激或外周神经刺激进行了客观测量,且研究对象为 18-65 岁的健康人,则将其纳入研究范围。有 23 篇文章符合资格标准。这些研究在诱导脱水和量化脱水的方法上表现出相当大的异质性。尽管研究结果不一致,但有证据表明,急性脱水不会影响等长或中速等动收缩时的最大力量。相反,急性脱水会明显降低慢速等动收缩时的最大力量和耐力任务时的抗疲劳能力。研究报告称,脱水不会影响运动皮质输出或脊髓环路。影响发生在肌肉的外周水平。PROSPERO 识别代码:CRD42022372217。
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Does acute dehydration affect the neuromuscular function in healthy adults?-a systematic review.

The effects of acute dehydration on neuromuscular function have been studied. However, whether the mechanisms underpinning such function are central or peripheral is still being determined, and the results are inconsistent. This systematic review aims to elucidate the influence of acute dehydration on neuromuscular function, including a novel aspect of investigating the central and peripheral neuromuscular mechanisms. Three databases were used for the article search: PubMed, Web of Science, and Scopus. Studies were included if they had objective measurements of dehydration, muscle performance, and electromyography data or transcranial magnetic stimulation or peripheral nerve stimulation measurements with healthy individuals aged 18-65 years. Twenty-three articles met the eligibility criteria. The studies exhibited considerable heterogeneity in the methods used to induce and quantify dehydration. Despite being inconsistent, the literature shows some evidence that acute dehydration does not affect maximal strength during isometric or moderate-speed isokinetic contractions. Conversely, acute dehydration significantly reduces maximal strength during slow-speed isokinetic contractions and fatigue resistance in response to endurance tasks. The studies report that dehydration does not affect the motor cortical output or spinal circuity. The effects occur at the peripheral level within the muscle.

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