使用硬膜外植入的薄膜微电极阵列进行皮质刺激映射。

Cortical stimulation mapping using epidurally implanted thin-film microelectrode arrays.

作者信息

Molina-Luna Katiuska, Buitrago Manuel M, Hertler Benjamin, Schubring Maximilian, Haiss Florent, Nisch Wilfried, Schulz Jörg B, Luft Andreas R

机构信息

Department of General Neurology, Hertie Institute for Clinical Brain Research, University of Tübingen, Tübingen, Germany.

出版信息

J Neurosci Methods. 2007 Mar 30;161(1):118-25. doi: 10.1016/j.jneumeth.2006.10.025. Epub 2006 Dec 18.

DOI:10.1016/j.jneumeth.2006.10.025

PMID:17178423

Abstract

Stimulation mapping of motor cortex is an important tool for assessing motor cortex physiology. Existing techniques include intracortical microstimulation (ICMS) which has high spatial resolution but damages cortical integrity by needle penetrations, and transcranial stimulation which is non-invasive but lacks focality and spatial resolution. A minimally invasive epidural microstimulation (EMS) technique using chronically implanted polyimide-based thin-film microelectrode arrays (72 contacts) was tested in rat motor cortex and compared to ICMS within individual animals. Results demonstrate reliable mapping with high reproducibility and validity with respect to ICMS. No histological evidence of cortical damage and the absence of motor deficits as determined by performance of a motor skill reaching task, demonstrate the safety of the method. EMS is specifically suitable for experiments integrating electrophysiology with behavioral and molecular biology techniques.

摘要

运动皮层的刺激图谱是评估运动皮层生理学的重要工具。现有技术包括皮层内微刺激（ICMS），其具有高空间分辨率，但通过针穿刺会损害皮层完整性；还有经颅刺激，它是非侵入性的，但缺乏聚焦性和空间分辨率。一种使用长期植入的基于聚酰亚胺的薄膜微电极阵列（72个触点）的微创硬膜外微刺激（EMS）技术在大鼠运动皮层中进行了测试，并在个体动物内与ICMS进行了比较。结果表明，相对于ICMS，该技术具有可靠的图谱绘制，具有高重现性和有效性。没有皮层损伤的组织学证据，并且通过运动技能到达任务的表现确定没有运动缺陷，证明了该方法的安全性。EMS特别适用于将电生理学与行为和分子生物学技术相结合的实验。

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使用硬膜外植入的薄膜微电极阵列进行皮质刺激映射。

Cortical stimulation mapping using epidurally implanted thin-film microelectrode arrays.

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