Leaky Opto-Electrical Neural Probe for Optical Stimulation and Electrochemical Detection of Dopamine Exocytosis

Shashank Vasudevan, Janko Kajtez, A. Heiskanen, J. Emnéus, S. Keller
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引用次数: 3

Abstract

This paper reports on the fabrication and characterization of leaky opto-electrical neural probes for optical stimulation and real time electrochemical detection of dopamine exocytosis from optogenetically modified neural stem cells. Indentations were introduced in a SU-8 waveguide structure, patterned directly on the probe shank, to allow light to leak over a large area. Pyrolytic carbon electrodes fabricated on both sides of the leaky waveguide allow for real time detection of dopamine. The electrochemical characterization of the pyrolytic carbon demonstrates excellent conductivity and suitability for dopamine detection.
漏式光电神经探针对多巴胺胞吐的光刺激和电化学检测
本文报道了用于光刺激和光基因修饰神经干细胞多巴胺胞吐实时电化学检测的泄漏式光电神经探针的制备和表征。在SU-8波导结构中引入了压痕,直接在探针柄上形成图案,以允许光线在大面积上泄漏。在泄漏波导两侧制造的热解碳电极可以实时检测多巴胺。热解碳的电化学表征表明其具有良好的导电性和对多巴胺检测的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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