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脉冲电磁场(PEMF)疗法与细胞分子基础的耦合。

Coupling of pulsed electromagnetic fields (PEMF) therapy to molecular grounds of the cell.

作者信息

Funk Richard Hw

机构信息

Institute for Anatomy, Medical Faculty TU-Dresden, Fiedlerstraße 42, 01307 Dresden, Germany.

出版信息

Am J Transl Res. 2018 May 15;10(5):1260-1272. eCollection 2018.

PMID:29887943
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5992548/
Abstract

In this review we compile results cited in reliable journals that show a ratio for the use of pulsed electromagnetic fields (PEMF) in therapy, indeed. This is true especially for chronically inflamed joints. Furthermore, we try to link this therapeutic approach to the molecular background of chronic inflammation and arthritis. At first we start with the clinical outcome of PEMF therapy. Then, we look for possible triggers and an electromagnetic counterpart that is endogenously inherent in cell biology and in the tissues of interest. Finally, we want to investigate causal molecular and cellular mechanisms of possible PEMF actions. It shows that there are endogenous mechanisms, indeed, which can act as triggers for PEMF like the resting membrane potential as well as resonance mechanisms in charged moieties like membrane transporters. Especially voltage-gated calcium channels can be triggered. These may lead into specific signaling pathways and also may elicit nitric oxide as well as moderate radical reactions, which can ultimately lead to e.g. NFκB-like reactions. Concerted in the right way, these reactions can cause a kind of cell protection and ultimately lead to a dampening of inflammatory signals like interleukins.

摘要

在本综述中,我们汇总了可靠期刊中引用的结果,这些结果确实显示了脉冲电磁场(PEMF)在治疗中的应用比例。对于慢性炎症关节而言尤其如此。此外,我们试图将这种治疗方法与慢性炎症和关节炎的分子背景联系起来。首先,我们从PEMF治疗的临床结果入手。然后,我们寻找可能的触发因素以及细胞生物学和相关组织中内在的电磁对应物。最后,我们想研究PEMF可能作用的因果分子和细胞机制。结果表明,确实存在内源性机制,它们可以像静息膜电位一样作为PEMF的触发因素,也可以像膜转运蛋白等带电部分中的共振机制一样。特别是电压门控钙通道可以被触发。这些可能会导致特定的信号通路,也可能引发一氧化氮以及适度的自由基反应,最终可能导致例如NFκB样反应。如果以正确的方式协同作用,这些反应可以产生一种细胞保护作用,并最终减弱诸如白细胞介素等炎症信号。

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