STRUCTURAL AND FUNCTIONAL INTERDEPENDENCES OF BIOLOGICAL ORGANISMS IN EXTREME CONDITIONS

P. V. Beloshitsky, O. Klyuchko, Yu. M. Onopchuk
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Abstract

Investigations of the adaptation of living organisms/human body to various extreme factors are extremely important. Aim. To characterize and analyze the results of research of structural and functional interdependencies of organisms in extreme conditions. Methods. Comparative analysis of the registered biochemical, physiological characteristics of the body, mathematical modelling of underlying mechanisms on their basis, information and computer technologies. Results. Deviations of organisms’ functions during adaptation processes caused changes in some structures of organism. Significant role of quantitative and qualitative changes of the erythrocyte formation system in the reliability of organisms functioning in extreme conditions in highlands was confirmed. The changes in red and white blood cells reflected largely the relationships between the organisms’ reactivity and resistance. The dependences on degree of rarefaction of the air, mode of climbing, effects of athlete’s training, etc. were revealed. Adaptive hemolysis of erythrocytes, when the biologically active substances were released from blood cells and acted as messengers, were shown to be the triggers capable to change cell metabolism; they played significant roles in reliability of organisms functioning. The set of program models was developed. Results were applied successfully for training of athletes for high-altitude climbing. Conclusions. Results of the studies on the structural and functional interdependencies of organisms in extreme conditions were reviewed and analyzed. Results of mathematical modeling coincided with the results obtained in experiments and observations. In the process of adaptation to hypoxia human organism behaved likes an ultrastable system. Obtained results can be applied in practice.
极端条件下生物有机体结构和功能的相互依赖性
研究生物/人体对各种极端因素的适应是非常重要的。的目标。描述和分析极端条件下生物结构和功能相互依赖关系的研究结果。方法。对比分析注册的生化、身体的生理特征,在其基础上建立潜在机制的数学模型,信息和计算机技术。结果。生物在适应过程中功能的偏离导致了生物某些结构的变化。红细胞形成系统的定量和质变在高原极端条件下生物功能可靠性中的重要作用已得到证实。红细胞和白细胞的变化在很大程度上反映了生物体的反应性和抵抗力之间的关系。揭示了空气稀薄度、攀爬方式、运动员训练效果等因素对攀爬效果的影响。红细胞的适应性溶血,当生物活性物质从血细胞中释放出来并作为信使时,被证明是能够改变细胞代谢的触发器;它们在生物体功能的可靠性中起着重要作用。开发了一套程序模型。结果成功地应用于高原登山运动员的训练。结论。综述和分析了极端条件下生物结构和功能相互依赖关系的研究成果。数学模拟的结果与实验和观测结果吻合。在适应缺氧的过程中,人体机体表现得像一个超稳定的系统。所得结果可应用于实际。
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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