Mechanisms of anti-stress action of low-intensive mm radiation on microcirculation of animals under stress conditions

Proceedings of the 1st International Symposium Innovations in Life Sciences (ISILS 2019) Pub Date : 2019-11-01 DOI:10.2991/isils-19.2019.63
M. Ravaeva, Anastasia Furkovskaya, E. Chuyan, E. Birukova, Olga Kornilenko
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Abstract

— animal studies with laser Doppler flowmetry showed, that there were local and systemic changes in the microcirculation caused by hypokinetic stress, what allowed us to expand our understanding of the pathophysiological processes caused by the influence of a stressing factor on the body. A study of the isolated EHF influence on the microcirculation and its combination with stress-modeling helped us to establish and scientifically substantiate the possibility of using extremely high frequency electromagnetic radiation for correction body disorders caused by stress.
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低强度mm辐射对应激条件下动物微循环的抗应激作用机制
-用激光多普勒血流仪进行的动物研究表明,低运动应激引起的微循环存在局部和全身变化,这使我们能够扩大对应激因素对身体影响所引起的病理生理过程的理解。孤立的EHF对微循环的影响及其与应力模拟相结合的研究帮助我们建立并科学地证实了利用极高频率电磁辐射校正应力引起的身体紊乱的可能性。
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Proceedings of the 1st International Symposium Innovations in Life Sciences (ISILS 2019)
Proceedings of the 1st International Symposium Innovations in Life Sciences (ISILS 2019)
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