一点点就能走很长的路:低强度rTMS的神经生物学效应及其对rTMS机制的影响

Jessica Moretti , Jennifer Rodger
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引用次数: 13

摘要

重复经颅磁刺激(rTMS)是一种广泛应用于神经科学和医学的技术,但其机制尚不清楚。在这篇综述中,我们认为强度是rTMS的一个关键治疗参数,并回顾了使用比目前临床上使用的磁场低几个数量级的磁场来检测rTMS生物学效应的研究。我们讨论了“低强度”rTMS的广泛表征如何为从机械证据基础上翻译新的rTMS参数奠定了基础,并具有创新和有效治疗应用的潜力。低强度rTMS显示了健康和疾病模型的神经生物学效应,包括抑郁症、损伤和再生、异常电路组织、耳鸣等。研究了代谢、神经递质释放、功能连接、遗传变化、细胞存活和行为的各种短期和长期变化,并总结了这些关键变化及其背后可能的机制。在遗传、分子、细胞和系统水平上的机制已经被确定,有证据表明,低强度rTMS和潜在rTMS一般通过几种关键途径诱导大脑变化,其中内部钙信号的调节被确定为主要机制。我们讨论了临床前模型可以发挥的作用,为当前的临床研究提供信息,并发现新的研究途径。
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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A little goes a long way: Neurobiological effects of low intensity rTMS and implications for mechanisms of rTMS

Repetitive transcranial magnetic stimulation (rTMS) is a widespread technique in neuroscience and medicine, however its mechanisms are not well known. In this review, we consider intensity as a key therapeutic parameter of rTMS, and review the studies that have examined the biological effects of rTMS using magnetic fields that are orders of magnitude lower that those currently used in the clinic. We discuss how extensive characterisation of “low intensity” rTMS has set the stage for translation of new rTMS parameters from a mechanistic evidence base, with potential for innovative and effective therapeutic applications. Low-intensity rTMS demonstrates neurobiological effects across healthy and disease models, which include depression, injury and regeneration, abnormal circuit organisation, tinnitus etc. Various short and long-term changes to metabolism, neurotransmitter release, functional connectivity, genetic changes, cell survival and behaviour have been investigated and we summarise these key changes and the possible mechanisms behind them. Mechanisms at genetic, molecular, cellular and system levels have been identified with evidence that low-intensity rTMS and potentially rTMS in general acts through several key pathways to induce changes in the brain with modulation of internal calcium signalling identified as a major mechanism. We discuss the role that preclinical models can play to inform current clinical research as well as uncover new pathways for investigation.

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