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经颅聚焦超声用于视觉皮层的非侵入性神经调节。

Transcranial Focused Ultrasound for Noninvasive Neuromodulation of the Visual Cortex.

出版信息

IEEE Trans Ultrason Ferroelectr Freq Control. 2021 Jan;68(1):21-28. doi: 10.1109/TUFFC.2020.3005670. Epub 2020 Dec 23.

DOI:10.1109/TUFFC.2020.3005670
PMID:32746196
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8153235/
Abstract

Currently, blindness cannot be cured and patients' living quality can be compromised severely. Ultrasonic (US) neuromodulation is a promising technology for the development of noninvasive cortical visual prosthesis. We investigated the feasibility of transcranial focused ultrasound (tFUS) for noninvasive stimulation of the visual cortex (VC) to develop improved visual prosthesis. tFUS was used to successfully evoke neural activities in the VC of both normal and retinal degenerate (RD) blind rats. Our results showed that blind rats showed more robust responses to ultrasound stimulation when compared with normal rats. ( , two-sample t-test). Three different types of ultrasound waveforms were used in the three experimental groups. Different types of cortical activities were observed when different US waveforms were used. In all rats, when stimulated with continuous ultrasound waves, only short-duration responses were observed at "US on and off" time points. In comparison, pulsed waves (PWs) evoked longer low-frequency responses. Testing different parameters of PWs showed that a pulse repetition frequency higher than 100 Hz is required to obtain the low-frequency responses. Based on the observed cortical activities, we inferred that acoustic radiation force (ARF) is the predominant physical mechanism of ultrasound neuromodulation.

摘要

目前,失明无法治愈,患者的生活质量可能会受到严重影响。超声(US)神经调节是开发非侵入性皮质视觉假体的一项很有前途的技术。我们研究了经颅聚焦超声(tFUS)用于非侵入性刺激视觉皮层(VC)以开发改进的视觉假体的可行性。tFUS 成功地在正常和视网膜退化(RD)失明大鼠的 VC 中引发了神经活动。我们的结果表明,与正常大鼠相比,失明大鼠对超声刺激的反应更强烈。( ,双样本 t 检验)。在三个实验组中使用了三种不同类型的超声波形。当使用不同的 US 波形时,观察到不同类型的皮质活动。在所有大鼠中,当用连续超声波刺激时,仅在“US on and off”时间点观察到短持续时间的响应。相比之下,脉冲波(PW)诱发了更长的低频响应。测试 PW 的不同参数表明,需要高于 100 Hz 的脉冲重复频率才能获得低频响应。基于观察到的皮质活动,我们推断声辐射力(ARF)是超声神经调节的主要物理机制。

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