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Hypothesis: Bacteria benefiting from electromagnetic field in peripheral neuropathy
Electromagnetic Biology and Medicine ( IF 1.6 ) Pub Date : 2021-01-02 , DOI: 10.1080/15368378.2021.1874974
Tatiana Abashina 1 , Mikhail Vainshtein 1
Affiliation  

Recent research has already been shown widespread locations of bacteria in various tissues and organs of a healthy host organism. These bacteria (hereinafter referred to as persistent microbiota, PM) cause neither noticeable destruction nor toxins production - no immune response can be noticed either. The role of the PM is unknown. The host nervous system is not an exception and can also be inhabited by the PM. We found that various bacteria were capable of benefiting from the electromagnetic field (EMF). The main advantage of these bacteria, apparently, lies in the increasing supply of ionic forms of compounds into the cells. Since microorganisms use the energy of electrical impulses, their possible colonization of the host's nerve circuit will weaken the nerve signals. The presented hypothesis aims to draw attention to the following points: i) microbial colonization of the host nervous system will lead to the weakening of nerve signals, ii) the sensitivity of bacteria to EMF permits to affect on their activity with electromagnetic treatment.

中文翻译:


假设:周围神经病变中的细菌受益于电磁场



最近的研究已经表明,细菌在健康宿主生物体的各种组织和器官中广泛存在。这些细菌(以下称为持久性微生物群,PM)既不会造成明显的破坏,也不会产生毒素 - 也不会注意到免疫反应。总理的角色尚不清楚。宿主神经系统也不例外,PM也可以居住。我们发现多种细菌能够受益于电磁场 (EMF)。显然,这些细菌的主要优势在于增加离子形式化合物进入细胞的供应。由于微生物利用电脉冲的能量,它们可能在宿主的神经回路中定植,从而削弱神经信号。提出的假设旨在提请注意以下几点:i)宿主神经系统的微生物定植将导致神经信号减弱,ii)细菌对 EMF 的敏感性允许电磁治疗影响其活性。
更新日期:2021-01-02
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