EFFECT OF A WHEY-BASED BIOPRODUCT ON METABOLIC PROCESSES IN THE MICROCIRCULATION

IF 0.2 Q4 SPORT SCIENCES Human Sport Medicine Pub Date : 2019-08-17 DOI:10.14529/HSM19S116
T. Bruk, F. Litvin, P. Terekhov
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引用次数: 1

Abstract

Aim. The article deals with the effect of a whey-based product on the metabolic processes, character, and local mechanisms of the microcirculation in athletes involved in track-and-field athletics. Materials and methods. 32 male athletes participated in the study. The microcirculation was studied with the help of the LAKK-M laser analyzer. The calculations were conducted by using a special software package (version 2.0.0.423, LAZMA, Russia). Results. It is established that a course of the MDX Multicomplex bioproduct increases blood perfusion in the microcirculatory bloodstream by 34% and erythrocyte fluctuation by 66%, which improve the efficiency of metabolic processes.  Bloodstream modulation is provided by the enhanced performance of the local active regulatory mechanisms. A statistically significant increase of 42% is registered in the endothelium-dependent mechanism, the increase of 32% and 23% is found in the myogenic and neurogenic mechanisms respectively. The contribution of the passive regulatory mechanisms reduces as a result of chest and heart muscle performance.  The physiologically active substances of the bioproduct are involved in the vasodilation of microvessels and redox reactions at the cellular level.  A 22% increase in NADH reduced coenzyme and a 9% decrease in FAD oxidized coenzyme indicate a decrease in mitochondrial activity in the absence of physical exertion and, indirectly, confirm the complete restoration of the energy reserves. Conclusion. The data obtained proves the optimization of metabolic processes in the microcirculation as an effect of the MDX Multicomplex bioproduct.
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乳清基生物制品对微循环代谢过程的影响
的目标。本文研究了一种以乳清为基础的产品对田径运动员微循环代谢过程、特征和局部机制的影响。材料和方法。32名男性运动员参加了这项研究。利用LAKK-M激光分析仪对其微循环进行了研究。使用特殊软件包(版本2.0.0.423,LAZMA,俄罗斯)进行计算。结果。经证实,一个疗程的MDX复合生物制品可使微循环血流灌注增加34%,红细胞波动增加66%,从而提高代谢过程的效率。血流调节是由局部主动调节机制的增强性能提供的。内皮依赖机制增加了42%,肌源性和神经源性机制分别增加了32%和23%。由于胸部和心脏肌肉的表现,被动调节机制的贡献减少。生物制品的生理活性物质参与微血管的血管扩张和细胞水平的氧化还原反应。NADH还原辅酶增加22%,FAD氧化辅酶减少9%,表明在没有体力消耗的情况下线粒体活性降低,间接证实能量储备完全恢复。结论。所获得的数据证明了MDX复合生物制品对微循环代谢过程的优化作用。
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来源期刊
Human Sport Medicine
Human Sport Medicine SPORT SCIENCES-
CiteScore
0.70
自引率
50.00%
发文量
0
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