The relationship between reaction to a moving object with concentrations of biogenic amines and kynematic-dynamic parameters of complex coordination movement in elite alpine skiers

A. Kryuchkov, A. M. Fedoseev, S. Missina, G. A. Dudko, E. Myakinchenko
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Abstract

Aim of the study: to identify mutual interaction between the reaction to a moving object with functional state of the central nervous system and kinematic-dynamic parameters of complex coordination movement.Materials and methods: 9 elite alpine skiers were participated in this study. Visual-motor coordination variables were assessed by computer complex for psychophysiological testing NS-Psychotest (Neurosoft, Russia). Dynamic parameters of complex coordination movement during counter movement jump were registered on the MuscleLab Force Plate (Ergotest Innovation A.S., Norway). Quantitation of hormones — adrenaline and noradrenaline as well as neurotransmitters — dopamine and serotonin in blood samples was performed using ultra-high performance liquid chromatograph combined with triple quadrupole mass analyzer LCMS-8060 (Shimadzu, Japan).Results: a significant negative relationship between the maximum output of motor efforts during counter movement jump, mean reaction time and the number of negative reactions recorded within visual-motor coordination testing was documented. A reliable positive relationship between excitation processes, jump power and jump time was established. Increases in noradrenaline and serotonin concentrations are positively associated with the number of accurate reactions, whereas dopamine level was positively correlated with jump altitude.Conclusion: the predominance of excitation over inhibition processes in the central nervous system had a positive effect on reducing the time spent on counter moving and increasing the maximum power of movement. As applied to alpine skiers we registered the following relationship: the higher the speeds of signal perception and muscle activation when solving a visual-motor task, the higher the power of working efforts, the shorter the time of the eccentric phase and total time spent on performing counter movement jump.
优秀高山滑雪运动员对运动物体的反应与生物胺浓度与复杂协调运动动力学参数的关系
研究目的:识别中枢神经系统功能状态下对运动物体的反应与复杂协调运动的运动学-动力学参数之间的相互作用。材料与方法:选取9名优秀高山滑雪运动员为研究对象。视觉-运动协调变量采用NS-Psychotest (Neurosoft, Russia)心理生理测试计算机复合体进行评估。在MuscleLab力板(Ergotest Innovation A.S, Norway)上记录了反动作跳跃过程中复杂协调运动的动态参数。使用超高效液相色谱仪结合三重四极杆质谱分析仪LCMS-8060(岛津,日本)对血液样品中的激素-肾上腺素和去甲肾上腺素以及神经递质-多巴胺和血清素进行定量。结果:反动作跳跃时的最大运动力输出、平均反应时间与视觉运动协调测试中记录的负反应次数呈显著负相关。在激励过程、跳跃功率和跳跃时间之间建立了可靠的正相关关系。去甲肾上腺素和血清素浓度的增加与准确反应的数量呈正相关,而多巴胺水平与跳跃高度呈正相关。结论:中枢神经系统兴奋过程优于抑制过程对减少反运动时间和提高运动最大功率具有积极作用。对于高山滑雪者,我们发现了以下关系:在解决视觉运动任务时,信号感知速度和肌肉激活速度越快,工作功率越高,执行反动作跳跃所需的离心阶段时间和总时间越短。
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