Tetherless Optical Neuromodulation: Wavelength from Orange-red to Mid-infrared.

IF 5.9 2区 医学 Q1 NEUROSCIENCES Neuroscience bulletin Pub Date : 2024-08-01 Epub Date: 2024-02-19 DOI:10.1007/s12264-024-01179-1
Chao Sun, Qi Fan, Rougang Xie, Ceng Luo, Bingliang Hu, Quan Wang
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Abstract

Optogenetics, a technique that employs light for neuromodulation, has revolutionized the study of neural mechanisms and the treatment of neurological disorders due to its high spatiotemporal resolution and cell-type specificity. However, visible light, particularly blue and green light, commonly used in conventional optogenetics, has limited penetration in biological tissue. This limitation necessitates the implantation of optical fibers for light delivery, especially in deep brain regions, leading to tissue damage and experimental constraints. To overcome these challenges, the use of orange-red and infrared light with greater tissue penetration has emerged as a promising approach for tetherless optical neuromodulation. In this review, we provide an overview of the development and applications of tetherless optical neuromodulation methods with long wavelengths. We first discuss the exploration of orange-red wavelength-responsive rhodopsins and their performance in tetherless optical neuromodulation. Then, we summarize two novel tetherless neuromodulation methods using near-infrared light: upconversion nanoparticle-mediated optogenetics and photothermal neuromodulation. In addition, we discuss recent advances in mid-infrared optical neuromodulation.

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无对数光学神经调制:波长从橙红到中红外。
光遗传学是一种利用光进行神经调控的技术,由于其高时空分辨率和细胞类型特异性,已经彻底改变了神经机制的研究和神经疾病的治疗。然而,传统光遗传学常用的可见光,尤其是蓝光和绿光,在生物组织中的穿透力有限。由于这种限制,必须植入光导纤维进行光传递,尤其是在大脑深部区域,从而导致组织损伤和实验限制。为了克服这些挑战,使用组织穿透力更强的橙红光和红外光已成为一种很有前景的无拴光学神经调控方法。在这篇综述中,我们概述了长波长无拴光学神经调控方法的发展和应用。我们首先讨论了橙红波长响应型罗多普勒蛋白的探索及其在无系光学神经调制中的表现。然后,我们总结了两种使用近红外线的新型无系神经调控方法:上转换纳米粒子介导的光遗传学和光热神经调控。此外,我们还讨论了中红外光神经调制的最新进展。
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来源期刊
Neuroscience bulletin
Neuroscience bulletin NEUROSCIENCES-
CiteScore
7.20
自引率
16.10%
发文量
163
审稿时长
6-12 weeks
期刊介绍: Neuroscience Bulletin (NB), the official journal of the Chinese Neuroscience Society, is published monthly by Shanghai Institutes for Biological Sciences (SIBS), Chinese Academy of Sciences (CAS) and Springer. NB aims to publish research advances in the field of neuroscience and promote exchange of scientific ideas within the community. The journal publishes original papers on various topics in neuroscience and focuses on potential disease implications on the nervous system. NB welcomes research contributions on molecular, cellular, or developmental neuroscience using multidisciplinary approaches and functional strategies. We feature full-length original articles, reviews, methods, letters to the editor, insights, and research highlights. As the official journal of the Chinese Neuroscience Society, which currently has more than 12,000 members in China, NB is devoted to facilitating communications between Chinese neuroscientists and their international colleagues. The journal is recognized as the most influential publication in neuroscience research in China.
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