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斜坡脉冲形状对激活听觉皮层神经元有何益处?一项在人工耳蜗动物模型中的电生理学研究。

What Is the Benefit of Ramped Pulse Shapes for Activating Auditory Cortex Neurons? An Electrophysiological Study in an Animal Model of Cochlear Implant.

作者信息

Partouche Elie, Adenis Victor, Stahl Pierre, Huetz Chloé, Edeline Jean-Marc

机构信息

Jean-Marc Edeline Paris-Saclay Institute of Neurosciences (Neuro-PSI), CNRS UMR 9197, Universite Paris-Saclay, Campus CEA Saclay, Route de la Rotonde Bâtiment 151, 91400 Saclay, France.

Departement of Scientific and Clinical Research, Oticon Medical, 06220 Vallauris, France.

出版信息

Brain Sci. 2023 Jan 31;13(2):250. doi: 10.3390/brainsci13020250.

DOI:10.3390/brainsci13020250
PMID:36831793
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9954719/
Abstract

In all commercial cochlear implant (CI) devices, the activation of auditory nerve fibers is performed with rectangular pulses that have two phases of opposite polarity. Recently, several papers proposed that ramped pulse shapes could be an alternative shape for efficiently activating auditory nerve fibers. Here, we investigate whether ramped pulse shapes can activate auditory cortex (ACx) neurons in a more efficient way than the classical rectangular pulses. Guinea pigs were implanted with CI devices and responses of ACx neurons were tested with rectangular pulses and with four ramped pulse shapes, with a first-phase being either cathodic or anodic. The thresholds, i.e., the charge level necessary for obtaining significant cortical responses, were almost systematically lower with ramped pulses than with rectangular pulses. The maximal firing rate (FR) elicited by the ramped pulses was higher than with rectangular pulses. As the maximal FR occurred with lower charge levels, the dynamic range (between threshold and the maximal FR) was not modified. These effects were obtained with cathodic and anodic ramped pulses. By reducing the charge levels required to activate ACx neurons, the ramped pulse shapes should reduce charge consumption and should contribute to more battery-efficient CI devices in the future.

摘要

在所有商用人工耳蜗(CI)设备中,听觉神经纤维的激活是通过具有两个相反极性阶段的矩形脉冲来实现的。最近,几篇论文提出,斜坡脉冲形状可能是有效激活听觉神经纤维的另一种形状。在这里,我们研究斜坡脉冲形状是否能比传统的矩形脉冲更有效地激活听觉皮层(ACx)神经元。给豚鼠植入CI设备,并用矩形脉冲和四种斜坡脉冲形状测试ACx神经元的反应,第一阶段为阴极或阳极。阈值,即获得显著皮层反应所需的电荷水平,几乎系统性地低于矩形脉冲。斜坡脉冲引发的最大放电率(FR)高于矩形脉冲。由于最大FR在较低电荷水平下出现,动态范围(阈值与最大FR之间)没有改变。这些效应在阴极和阳极斜坡脉冲中均有体现。通过降低激活ACx神经元所需的电荷水平,斜坡脉冲形状应能减少电荷消耗,并有助于未来更高效的电池驱动的CI设备。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/96045f552277/brainsci-13-00250-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/cf47afbc40fc/brainsci-13-00250-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/fb67dc4cfd1a/brainsci-13-00250-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/d8198f7a11b7/brainsci-13-00250-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/54f41548cfa4/brainsci-13-00250-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/96045f552277/brainsci-13-00250-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/cf47afbc40fc/brainsci-13-00250-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/fb67dc4cfd1a/brainsci-13-00250-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/d8198f7a11b7/brainsci-13-00250-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/54f41548cfa4/brainsci-13-00250-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edf5/9954719/96045f552277/brainsci-13-00250-g005.jpg

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本文引用的文献

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Increased Threshold and Reduced Firing Rate of Auditory Cortex Neurons after Cochlear Implant Insertion.
人工耳蜗植入后听觉皮层神经元的阈值升高及放电率降低
Brain Sci. 2022 Jan 31;12(2):205. doi: 10.3390/brainsci12020205.
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The Perception of Ramped Pulse Shapes in Cochlear Implant Users.人工耳蜗使用者对斜坡脉冲形状的感知。
Trends Hear. 2021 Jan-Dec;25:23312165211061116. doi: 10.1177/23312165211061116.
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Level coding by phase duration and asymmetric pulse shape reduce channel interactions in cochlear implants.相位持续时间和非对称脉冲形状的电平编码可减少人工耳蜗中的通道相互作用。
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