蒙古沙鼠外耳红外激光辐照诱发的听觉皮层活动。

Auditory cortical activity elicited by infrared laser irradiation from the outer ear in Mongolian gerbils.

机构信息

Faculty of Life and Medical Sciences, Doshisha University, Kyotanabe, Kyoto, Japan.

Department of Physiology, Kanazawa Medical University, Uchinada, Ishikawa, Japan.

出版信息

PLoS One. 2020 Oct 15;15(10):e0240227. doi: 10.1371/journal.pone.0240227. eCollection 2020.

DOI:10.1371/journal.pone.0240227

PMID:33057339

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7561108/

Abstract

Infrared neural stimulation has been studied for its potential to replace an electrical stimulation of a cochlear implant. No studies, however, revealed how the technic reliably evoke auditory cortical activities. This research investigated the effects of cochlear laser stimulation from the outer ear on auditory cortex using brain imaging of activity-dependent changes in mitochondrial flavoprotein fluorescence signal. An optic fiber was inserted into the gerbil's ear canal to stimulate the lateral side of the cochlea with an infrared laser. Laser stimulation was found to activate the identified primary auditory cortex. In addition, the temporal profile of the laser-evoked responses was comparable to that of the auditory responses. Our results indicate that infrared laser irradiation from the outer ear has the capacity to evoke, and possibly manipulate, the neural activities of the auditory cortex and may substitute for the present cochlear implants in future.

摘要

红外神经刺激因其可能替代耳蜗植入的电刺激而受到研究。然而，尚无研究揭示该技术如何可靠地引发听觉皮质活动。本研究使用基于活性的脑成像技术，研究了耳外激光刺激耳蜗对听觉皮质的影响，该技术可以检测线粒体黄素蛋白荧光信号的变化。将光纤插入沙鼠的耳道，用红外激光刺激耳蜗的外侧。发现激光刺激可激活已识别的初级听觉皮层。此外，激光诱发反应的时程与听觉反应的时程相当。我们的结果表明，来自外耳的红外激光照射具有引发和可能操纵听觉皮层神经活动的能力，并且可能在未来替代目前的耳蜗植入物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dc8b/7561108/b27ea2c444d6/pone.0240227.g001.jpg

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Transcranial flavoprotein-autofluorescence imaging of sound-evoked responses in the mouse auditory cortex under three types of anesthesia.

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Delayed Complications After Cochlear Implantation.

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Radiant energy required for infrared neural stimulation.

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蒙古沙鼠外耳红外激光辐照诱发的听觉皮层活动。

Auditory cortical activity elicited by infrared laser irradiation from the outer ear in Mongolian gerbils.

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