Post space mission lumbo-pelvic neuromuscular reconditioning: a European perspective.

Aviation, space, and environmental medicine Pub Date : 2014-07-01 DOI:10.3357/asem.3943.2014

Simon N Evetts, Nick Caplan, Dorothée Debuse, Gunda Lambrecht, Volker Damann, Nora Petersen, Julie Hides

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引用次数: 14

Abstract

Long-duration exposure to the space environment causes physical adaptations that are deleterious to optimal functioning on Earth. Post-mission rehabilitation traditionally concentrates on regaining general muscle strength, neuromuscular control, and lumbo-pelvic stability. A particular problem is muscle imbalance caused by the hypertrophy of the flexor and atrophy of the extensor and local lumbo-pelvic muscles, increasing the risk of post-mission injury. A method currently used in European human spaceflight to aid post-mission recovery involves a motor control approach, focusing initially on teaching voluntary contraction of specific lumbo-pelvic muscles and optimizing spinal position, progressing to functional retraining in weight bearing positions. An alternative approach would be to use a Functional Readaptive Exercise Device to appropriately recruit this musculature, thus complementing current rehabilitation programs. Advances in post-mission recovery of this nature may both improve astronaut healthcare and aid terrestrial healthcare through more effective treatment of low back pain and accelerated post bed rest rehabilitation.

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太空任务后腰盆腔神经肌肉修复:欧洲视角。

长时间暴露在太空环境中会导致身体适应，不利于在地球上发挥最佳功能。任务后康复传统上集中于恢复一般肌肉力量、神经肌肉控制和腰盆腔稳定性。一个特殊的问题是由屈肌肥大、伸肌萎缩和局部腰盆腔肌萎缩引起的肌肉失衡，增加了任务后损伤的风险。目前在欧洲载人航天中使用的一种帮助任务后恢复的方法包括一种运动控制方法，最初侧重于教授特定腰盆腔肌肉的自愿收缩和优化脊柱位置，然后发展到承重位置的功能再训练。另一种方法是使用功能性适应性运动装置来适当地招募该肌肉组织，从而补充当前的康复计划。这种性质的任务后恢复方面的进展既可以改善宇航员的保健，也可以通过更有效地治疗腰痛和加速卧床后康复来帮助地面保健。

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

Aviation, space, and environmental medicine 医学-公共卫生、环境卫生与职业卫生

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1 months