The Impact of a Direct Magnetic Field on the Cells

2020 IEEE KhPI Week on Advanced Technology (KhPIWeek) Pub Date : 2020-10-05 DOI:10.1109/KhPIWeek51551.2020.9250104

V. Savchenko, Oleksandr Synyavskiy, A. Dudnyk, A. Nesvidomin, V. Ramsh, V. Bunko

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引用次数: 1

Abstract

Many experimental studies have been conducted, which have proven the positive effects of the magnetic field on animals, humans, plants and their seeds. But there is no theory to explain the physical process of the impact of the magnetic field on biological objects, so not all active factors have been established and their optimal values have not been determined. Under the influence of the magnetic field changes the rate of reactions that occur in the cell. This changes the degree of electrolytic dissociation of salts, pH and redox potential of the cell solution. The permeability of cell membranes increases in the magnetic field, which leads to increased diffusion of oxygen and water molecules, as well as ion transport. Increasing the concentration of oxygen in the cells reduces the incidence. Magnetic induction is the main factor in magnetic treatment. and the velocity in the magnetic field and its gradient are less significant factors. Based on theoretical and experimental studies, the most effective method of biological objects treatment in a magnetic field is determined: magnetic induction 0.065 T, fourfold remagnetization, magnetic field gradient 0.57 T/m and velocity of motion in a magnetic field 0.4 m/s.

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直接磁场对细胞的影响

人们进行了许多实验研究，证明了磁场对动物、人类、植物及其种子的积极作用。但目前还没有理论来解释磁场对生物物体影响的物理过程，因此并不是所有的主动因子都被建立起来，它们的最优值也没有确定。在磁场的影响下，细胞中发生的反应速率发生了变化。这改变了盐的电解解离程度、pH值和电池溶液的氧化还原电位。细胞膜的通透性在磁场中增加，这导致氧和水分子的扩散增加，以及离子的运输。增加细胞中氧的浓度可以降低发病率。磁感应是磁疗的主要因素。磁场中的速度及其梯度影响较小。通过理论和实验研究，确定了在磁场中处理生物物体最有效的方法:磁感应强度0.065 T，四倍再磁化，磁场梯度0.57 T/m，在磁场中的运动速度0.4 m/s。

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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2020 IEEE KhPI Week on Advanced Technology (KhPIWeek)

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