轴突膜中的声波和小窝蛋白是高频超声治疗疼痛的新靶点。

Acoustic Waves in Axonal Membrane and Caveolins are the New Targets for Pain Treatment with High Frequency Ultrasound.

作者信息

Kruglikov Ilja

机构信息

Scientific Department, Wellcomet GmbH, Karlsruhe, Germany.

出版信息

J Pain Res. 2020 Nov 2;13:2791-2798. doi: 10.2147/JPR.S281468. eCollection 2020.

DOI:10.2147/JPR.S281468

PMID:33173328

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7646452/

Abstract

Reciprocal interaction between electrical and mechanical waves observed in axonal membrane during its excitation leads to a paradigm shift in pain research making the uncoupling of electro-mechanical signals an interesting target in pain treatment. This uncoupling can be realized either through direct disturbance of the mechanical surface waves in axonal membrane or through shifting of the thermodynamic state of this membrane far from its phase transition point. Both effects can be effectively realized through application of the very high frequency ultrasound waves. Additional target for application of ultrasound in pain treatment is the caveolin-1, which is abundantly present in Schwann cells as well as in the non-axonal tissues. Both targets demonstrate frequency-dependent reactions, thus making a very high frequency ultrasound a promising treatment modality in pain treatment.

摘要

在轴突膜兴奋过程中观察到的电波与机械波之间的相互作用，引发了疼痛研究的范式转变，使得电-机械信号的解耦成为疼痛治疗中一个有趣的靶点。这种解耦可以通过直接干扰轴突膜中的机械表面波，或者通过将该膜的热力学状态转移到远离其相变点来实现。这两种效应都可以通过应用超高频超声波有效地实现。超声波在疼痛治疗中的另一个应用靶点是小窝蛋白-1，它在雪旺细胞以及非轴突组织中大量存在。这两个靶点都表现出频率依赖性反应，因此超高频超声波成为疼痛治疗中一种有前景的治疗方式。

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