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新颖的高强度运动处方可改善帕金森病患者的肌肉质量、线粒体功能和身体能力。

Novel, high-intensity exercise prescription improves muscle mass, mitochondrial function, and physical capacity in individuals with Parkinson's disease.

作者信息

Kelly Neil A, Ford Matthew P, Standaert David G, Watts Ray L, Bickel C Scott, Moellering Douglas R, Tuggle S Craig, Williams Jeri Y, Lieb Laura, Windham Samuel T, Bamman Marcas M

机构信息

UAB Center for Exercise Medicine, University of Alabama at Birmingham, Birmingham, Alabama;

出版信息

J Appl Physiol (1985). 2014 Mar 1;116(5):582-92. doi: 10.1152/japplphysiol.01277.2013. Epub 2014 Jan 9.

Abstract

We conducted, in persons with Parkinson's disease (PD), a thorough assessment of neuromotor function and performance in conjunction with phenotypic analyses of skeletal muscle tissue, and further tested the adaptability of PD muscle to high-intensity exercise training. Fifteen participants with PD (Hoehn and Yahr stage 2-3) completed 16 wk of high-intensity exercise training designed to simultaneously challenge strength, power, endurance, balance, and mobility function. Skeletal muscle adaptations (P < 0.05) to exercise training in PD included myofiber hypertrophy (type I: +14%, type II: +36%), shift to less fatigable myofiber type profile, and increased mitochondrial complex activity in both subsarcolemmal and intermyofibrillar fractions (I: +45-56%, IV: +39-54%). These adaptations were accompanied by a host of functional and clinical improvements (P < 0.05): total body strength (+30-56%); leg power (+42%); single leg balance (+34%); sit-to-stand motor unit activation requirement (-30%); 6-min walk (+43 m), Parkinson's Disease Quality of Life Scale (PDQ-39, -7.8pts); Unified Parkinson's Disease Rating Scale (UPDRS) total (-5.7 pts) and motor (-2.7 pts); and fatigue severity (-17%). Additionally, PD subjects in the pretraining state were compared with a group of matched, non-PD controls (CON; did not exercise). A combined assessment of muscle tissue phenotype and neuromuscular function revealed a higher distribution and larger cross-sectional area of type I myofibers and greater type II myofiber size heterogeneity in PD vs. CON (P < 0.05). In conclusion, persons with moderately advanced PD adapt to high-intensity exercise training with favorable changes in skeletal muscle at the cellular and subcellular levels that are associated with improvements in motor function, physical capacity, and fatigue perception.

摘要

我们对帕金森病(PD)患者进行了神经运动功能和表现的全面评估,并结合骨骼肌组织的表型分析,进一步测试了PD肌肉对高强度运动训练的适应性。15名PD患者(Hoehn和Yahr分期2 - 3期)完成了为期16周的高强度运动训练,该训练旨在同时挑战力量、功率、耐力、平衡和移动功能。PD患者运动训练后的骨骼肌适应性变化(P < 0.05)包括肌纤维肥大(I型:+14%,II型:+36%)、向不易疲劳的肌纤维类型转变,以及肌膜下和肌原纤维间部分的线粒体复合物活性增加(I:+45 - 56%,IV:+39 - 54%)。这些适应性变化伴随着一系列功能和临床改善(P < 0.05):全身力量(+30 - 56%);腿部功率(+42%);单腿平衡(+34%);从坐到站运动单位激活需求(-30%);6分钟步行距离(+43米),帕金森病生活质量量表(PDQ - 39,-7.8分);统一帕金森病评定量表(UPDRS)总分(-5.7分)和运动分(-2.7分);以及疲劳严重程度(-17%)。此外,将训练前状态的PD受试者与一组匹配的非PD对照(CON;未运动)进行比较。肌肉组织表型和神经肌肉功能的综合评估显示,与CON相比,PD患者I型肌纤维的分布更高、横截面积更大,且II型肌纤维大小的异质性更大(P < 0.05)。总之,中度晚期PD患者能够适应高强度运动训练,骨骼肌在细胞和亚细胞水平上发生有利变化,这些变化与运动功能、身体能力和疲劳感知的改善相关。

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