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Implementation of a Charge-Controlled Stimulation Method in a Monolithic Integrated CMOS-Chip for Excitation of Retinal Neuron Cells

机译：在单片集成CMOS芯片中激发视网膜神经元细胞的电荷控制刺激方法的实现

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In this work, the implementation of the charge-controlled method in a CMOS chip is presented. The idea of the method is that the transferred total charge quantity is composed of a number of packets which are intended to stimulate the cells of the retina electrically. In addition, it will be compared with already established methods. The influence of electrode interfaces on the process is investigated in the analytical description as well. Furthermore, options for the implementation in an integrated circuit are presented, in which a feedback is used to control the transferred charge amount per clock. Finally, a system concept for simultaneous bidirectional communication between retinal cells and the electronics is presented. Read-out capabilities for increasing the stimulation safety are shown.

机译：在这项工作中，介绍了在CMOS芯片中实现电荷控制方法的方法。该方法的思想是，转移的总电荷量由许多旨在电刺激视网膜细胞的小包组成。此外，它将与已经建立的方法进行比较。在分析说明中也研究了电极界面对工艺的影响。此外，提出了用于在集成电路中实现的选项，其中使用反馈来控制每个时钟的转移电荷量。最后，提出了用于视网膜细胞与电子设备之间同时双向通信的系统概念。示出了用于增加刺激安全性的读出能力。

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来源
《2017 Austrochip Workshop on Microelectronics》|2017年|47-52|共6页
会议地点 Linz(AT)
作者
Andreas Erbsl öh; Reinhard Viga; Peter Walter; Rainer Kokozinski; Anton Grabmaier;
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作者单位

Electron. Components Circuits, Univ. Duisburg Essen, Duisburg, Germany;

Electron. Components Circuits, Univ. Duisburg Essen, Duisburg, Germany;

Dept. of Ophthalmology, RWTH Aachen Univ., Aachen, Germany;

Electron. Components Circuits, Univ. Duisburg Essen, Duisburg, Germany;

Electron. Components Circuits, Univ. Duisburg Essen, Duisburg, Germany;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Clocks; Frequency modulation; Retina; Electrodes; Transient analysis; Simulation;

机译：时钟;频率调制;视网膜;电极;瞬态分析;模拟;;

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1. Molecular and morphological evidence for cadaver vitreous-stimulated transformation of differentiation-competent retinal pigment epithelial cells into neuron-like cells [J] . KheraS., TiwariA., SrinivasanR., Current Eye Research . 2012,第7期

机译：尸体玻璃体刺激能分化的视网膜色素上皮细胞转化为神经元样细胞的分子和形态学证据
2. Semi-automatic 3D morphological reconstruction of neurons with densely branching morphology: Application to retinal All amacrine cells imaged with multi -photon excitation microscopy [J] . Zandt Bas-Jan, Losnegard Are, Hodneland Erlend, Journal of Neuroscience Methods . 2017,第期

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3. Closed-Loop Efficient Searching of Optimal Electrical Stimulation Parameters for Preferential Excitation of Retinal Ganglion Cells [J] . Tianruo Guo, Chih Yu Yang, David Tsai, Frontiers in Neuroscience . 2018,第2009期

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4. Implementation of a Charge-Controlled Stimulation Method in a Monolithic Integrated CMOS-Chip for Excitation of Retinal Neuron Cells [C] . Andreas Erbsl ?h, Reinhard Viga, Peter Walter, Austrian Workshop on Microelectronics . 2017

机译：在整体集成CMOS芯片中的电荷控制刺激方法的实现，用于激发视网膜神经元细胞
5. Beyond neuronal replacement: Embryonic retinal cells protect mature retinal neurons. [D] . Stanke, Jennifer Jean. 2009

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6. Closed-Loop Efficient Searching of Optimal Electrical Stimulation Parameters for Preferential Excitation of Retinal Ganglion Cells [O] . Tianruo Guo, Chih Yu Yang, David Tsai, 2018

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7. A7.4 - Cell Optimization for the IISIC CMOS-Chip Serving as a Front-End for Integrated Impedance Spectroscopy [O] . A. Renner, J. Lappas, A. König 2015

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Implementation of a Charge-Controlled Stimulation Method in a Monolithic Integrated CMOS-Chip for Excitation of Retinal Neuron Cells

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