大师级运动员的皮肤温度与肌肉僵硬度之间的关系:特定训练适应性的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-01 DOI:10.1016/j.jtherbio.2024.103952
Jakub Grzegorz Adamczyk , Bartłomiej Michalak , Anna Kopiczko , Karol Gryko , Dariusz Boguszewski , Marek Popowczak , Łukasz Gutkowski , Robert Gajda
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引用次数: 0

摘要

衰老过程与肌肉特性的负面变化有关,如肌肉的热反应性和僵硬性。与此同时,大师级运动员往往被视为成功衰老的典范。有鉴于此,本研究旨在建立田径大师级运动员在 200 米比赛中的下肢热成像,并找出运动对肌肉僵硬度的影响。热图像和肌张力测量分别在静止状态和赛后立即进行。大师级运动员的室内短跑并没有引起明显的皮肤温度变化。只发现股二头肌有异动(左与右赛前 p = 0.0410;赛后 p = 0.046)。就肌肉硬度而言,腓肠肌是对短跑反应最灵敏的部位。发现了一些对短跑的特殊适应。大师级运动员的下肢热曲线一般具有对称性。最大运动量并没有导致运动员肌肉僵硬度的增加,这表明运动训练对老年运动员有积极影响。
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Relation between skin temperature and muscle stiffness in masters athletes: Effect of specific training adaptation

Aging process is correlated with negative changes in muscles properties such as their thermal responsiveness and stiffness. At the same time masters athletes are often considered as an exemplars of successful aging. Taking this into account, the aim of the study was to establish thermal portrait of lower limbs in Masters Athletes in Track & Field competing in 200 m race as well as to find out the effect of exercise on muscle stiffness. Thermal images and myotonometry were applied at restin state and immediately after the race. Indoor sprint in Masters athletes did not cause significant skin temperature changes. Only assymetries were found for Biceps femoris muscle (left vs right before p = 0,0410; after p = 0,046). Gastrocnemius was the most responsive area for sprinting in terms of muscle stiffness. Some specific adaptations to sprint were found. Masters athlete's thermal profile of lower extremities was generally characterized by symmetry. Maximal exertion did not result in an increase in muscle stiffness among the athletes, suggesting the positive influence of sports training in aging athletes.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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