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用于确定神经刺激用导电聚合物修饰电极的有效面积和电荷密度的光学和电化学方法。

Optical and electrochemical methods for determining the effective area and charge density of conducting polymer modified electrodes for neural stimulation.

作者信息

Harris Alexander R, Molino Paul J, Kapsa Robert M I, Clark Graeme M, Paolini Antonio G, Wallace Gordon G

机构信息

School of Psychological Science, La Trobe University , Bundoora, Melbourne, Victoria 3086, Australia.

出版信息

Anal Chem. 2015 Jan 6;87(1):738-46. doi: 10.1021/ac503733s. Epub 2014 Dec 23.

Abstract

Neural stimulation is used in the cochlear implant, bionic eye, and deep brain stimulation, which involves implantation of an array of electrodes into a patient's brain. The current passed through the electrodes is used to provide sensory queues or reduce symptoms associated with movement disorders and increasingly for psychological and pain therapies. Poor control of electrode properties can lead to suboptimal performance; however, there are currently no standard methods to assess them, including the electrode area and charge density. Here we demonstrate optical and electrochemical methods for measuring these electrode properties and show the charge density is dependent on electrode geometry. This technique highlights that materials can have widely different charge densities but also large variation in performance. Measurement of charge density from an electroactive area may result in new materials and electrode geometries that improve patient outcomes and reduce side effects.

摘要

神经刺激被用于人工耳蜗、仿生眼和深部脑刺激,其中深部脑刺激涉及将一系列电极植入患者大脑。通过电极的电流用于提供感觉信号或减轻与运动障碍相关的症状,并且越来越多地用于心理和疼痛治疗。对电极特性的控制不佳会导致性能欠佳;然而,目前尚无评估这些特性的标准方法,包括电极面积和电荷密度。在此,我们展示了用于测量这些电极特性的光学和电化学方法,并表明电荷密度取决于电极几何形状。这项技术突出表明,材料可能具有差异很大的电荷密度,而且性能也有很大变化。从电活性区域测量电荷密度可能会带来能够改善患者治疗效果并减少副作用的新材料和电极几何形状。

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