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机构地区:[1]杭州电子科技大学自动化学院生物医学工程及仪器研究所,杭州310018
出 处:《传感技术学报》2009年第8期1077-1082,共6页Chinese Journal of Sensors and Actuators
基 金:国家自然科学基金资助项目资助(30800248;30770685)
摘 要:生物传感器的微型和集成化为细胞电生理研究提供了强有力的手段。当前国内电极阵列设计的量化分析工具尚为欠缺。着重采用有限元工具分析电极形状对输出影响,对相同设计参数下圆形与矩形电极的电场分布进行比较;采用Monte-Carlo模型判断细胞与电极耦合的有效性,结果显示表面处理时,大分子生物素宜最后贴附处理以增大有效贴附率;采用SPICE工具对细胞并行电生理检测串扰性进行分析,结果说明细胞与电极的耦合性比阵列间距和数目对串扰影响更大。从而为有源电极的集成设计、细胞-电极耦合有效性和电生理测试提供量化分析工具。Microelectrode arrays and probes provide methods down to cellular level by micromation and inte- gration. Though domestic electrodes are useful as a gain of information on the micro-circuit neuronal dynamics and signal propagation,more quantified evaluating analysis should be applied. In this respect, electrical properties of microarrays were analyzed by FEM tools to. compare electric field distribution of circle electrode with that of rectangular electrode, Monte-Carlo statistical model to demonstrate the surface immobilized effects,and SPICE tools to simulate how possible artifacts can be observed on nearby microelectrodes. The simulating results showed that big moleculars were better immobilized at last step of surface immobilization for a larger surface coverage ratio, and a stable recording with low signal interference can be available for high density arrays when they were better coupled with cells. These results indicate that the simulation increases the prospects for integrated active cellular electrodes and can be used to construct networks applied in the electrophysiological field.
分 类 号:TP212.6[自动化与计算机技术—检测技术与自动化装置]
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