经颅超声刺激的生物物理效应和神经调节剂量

Biophysical effects and neuromodulatory dose of transcranial ultrasonic stimulation.

作者信息

Nandi Tulika, Kop Benjamin R, Naftchi-Ardebili Kasra, Stagg Charlotte J, Pauly Kim Butts, Verhagen Lennart

机构信息

Donders Institute for Brain Cognition and Behaviour, Radboud University, Nijmegen, The Netherlands.

Department of Human Movement Sciences, Vrije Universiteit Amsterdam, Amsterdam, The Netherlands.

出版信息

ArXiv. 2024 Jul 3:arXiv:2406.19869v3.

PMID:39010872

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11247917/

Abstract

Transcranial ultrasonic stimulation (TUS) has the potential to usher in a new era for human neuroscience by allowing spatially precise and high-resolution non-invasive targeting of both deep and superficial brain regions. Currently, fundamental research on the mechanisms of interaction between ultrasound and neural tissues is progressing in parallel with application-focused research. However, a major hurdle in the wider use of TUS is the selection of optimal parameters to enable safe and effective neuromodulation in humans. In this paper, we will discuss the major factors that determine both the safety and efficacy of TUS. We will discuss the thermal and mechanical biophysical effects of ultrasound, which underlie its biological effects, in the context of their relationships with tunable parameters. Based on this knowledge of biophysical effects, and drawing on concepts from radiotherapy, we propose a framework for conceptualising TUS dose.

摘要

经颅超声刺激（TUS）有潜力开创人类神经科学的新纪元，因为它能够对深部和浅表脑区进行空间精确且高分辨率的非侵入性靶向刺激。目前，关于超声与神经组织相互作用机制的基础研究与聚焦应用的研究正在同步推进。然而，TUS更广泛应用的一个主要障碍是选择最佳参数，以实现对人类安全有效的神经调节。在本文中，我们将讨论决定TUS安全性和有效性的主要因素。我们将在超声的热和机械生物物理效应与可调参数的关系背景下，讨论这些作为其生物学效应基础的效应。基于对生物物理效应的这一认识，并借鉴放射治疗的概念，我们提出了一个用于概念化TUS剂量的框架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3640/11247917/b44bf6bd4789/nihpp-2406.19869v3-f0001.jpg

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本文引用的文献

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Brain Stimul. 2024 Nov-Dec;17(6):1216-1228. doi: 10.1016/j.brs.2024.10.008. Epub 2024 Oct 22.

ITRUSST consensus on standardised reporting for transcranial ultrasound stimulation.经颅超声刺激标准化报告的 ITRUSST 共识。

Brain Stimul. 2024 May-Jun;17(3):607-615. doi: 10.1016/j.brs.2024.04.013. Epub 2024 Apr 25.

Estimating the viscoelastic properties of the human brain at 7 T MRI using intrinsic MRE and nonlinear inversion.使用内在 MRE 和非线性反演技术在 7T MRI 下估算人脑的黏弹性特性。

Hum Brain Mapp. 2023 Dec 15;44(18):6575-6591. doi: 10.1002/hbm.26524. Epub 2023 Nov 1.

The mechanosensitive ion channel Piezo1 contributes to ultrasound neuromodulation.机械敏感性离子通道 Piezo1 有助于超声神经调节。

Proc Natl Acad Sci U S A. 2023 May 2;120(18):e2300291120. doi: 10.1073/pnas.2300291120. Epub 2023 Apr 25.

A tool for monitoring cell type-specific focused ultrasound neuromodulation and control of chronic epilepsy.一种用于监测细胞类型特异性聚焦超声神经调节和慢性癫痫控制的工具。

Proc Natl Acad Sci U S A. 2022 Nov 16;119(46):e2206828119. doi: 10.1073/pnas.2206828119. Epub 2022 Nov 7.

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Nat Commun. 2022 Jan 25;13(1):493. doi: 10.1038/s41467-022-28040-1.

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经颅超声刺激的生物物理效应和神经调节剂量

Biophysical effects and neuromodulatory dose of transcranial ultrasonic stimulation.

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