[Vascular endothelial growth factor during physical loads with different mechanism of energy's providing of muscular work].

Ju D Vinnichuck, L M Gunina
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引用次数: 5

Abstract

In the article the results of investigation of vascular endothelial growth factor's (VEGF) maintenance changes at the oxidative stress caused by physical activities and associated tissue hypoxia, for the representatives of types of sport with the different mechanisms of energy providing of muscular work are presented. The highest VEGF concentration of serum was marked in sports with representatives of aerobic energy supply mechanism of muscle activity--from 122.8±3.4 to 126.2±4.1 pg·ml(-1), intermediate values in VEGF marked in a mixed mechanism energy--102.4±4.91 pg·ml(-1). Anaerobic muscle activity observed providing the lowest of VEGF value (78.5±5.2 pg·ml(-1)). Initial VEGF concentration in athletes even before the current load is higher than in the healthy untrained people. A statistically significant positive correlation between the degree of antioxidant protection and the VEGF concentration has been found. It is concluded, that angiogenesis is one of the mechanisms of adaptation to tissue hypoxia during physical activities. Scientific Institute of the National University of Physical Education and Sport of Ukraine, Kiev.

[血管内皮生长因子在不同肌肉工作能量提供机制下的负荷]。
本文以不同运动类型为代表,以不同的肌肉工作能量提供机制,对运动引起的氧化应激和组织缺氧时血管内皮生长因子(VEGF)维持变化的研究结果进行了综述。在肌肉活动有氧能量供应机制代表的运动中,血清VEGF浓度最高,为122.8±3.4至126.2±4.1 pg·ml(-1),在混合机制能量中,VEGF的中间值为102.4±4.91 pg·ml(-1)。无氧肌肉活动提供最低的VEGF值(78.5±5.2 pg·ml(-1))。即使在当前负荷之前,运动员的初始VEGF浓度也高于未受过训练的健康人群。抗氧化保护程度与VEGF浓度之间有统计学意义的正相关。由此可见,血管生成是机体在运动过程中适应组织缺氧的机制之一。乌克兰国立体育与运动大学科学研究所,基辅。
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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CiteScore
0.60
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