利用微电极阵列检测胰腺β细胞的电活动

2010 Fifth IEEE International Symposium on Electronic Design, Test & Applications Pub Date : 2010-01-13 DOI:10.1109/DELTA.2010.60

Y. Bornat, M. Raoux, Youssef Boutaib, F. Morin, G. Charpentier, J. Lang, S. Renaud

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引用次数: 9

摘要

在这篇论文中，我们提出了一种新的方法来实时提供器官活动的在线体内记录，并克服了目前使用的侵入性葡萄糖传感器的三个主要捷径。在糖尿病的情况下，标准血糖传感器只能识别葡萄糖，而循环脂质和氨基酸已知会增加对胰岛素的需求，并在生理情况下增加胰岛素的分泌。此外，其他相关信号(如激素)的整合提供了明显的优势。因此，将β细胞作为信号积分器与ASIC技术相结合，可以确保生理信号及其实时读出，从而避免复杂的算法。我们描述了一个利用这些生物传感器的闭环架构，并有可能为实时胰岛素输送提供控制反馈。

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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Detection of Electrical Activity of Pancreatic Beta-cells Using Micro-electrode Arrays

In this position paper we propose a new approach to provide online in-vivo recordings of organ activity in real time and to overcome three major shortcuts of currently used invasive glucose sensors. In the context of diabetes, standard glucosensors recognize only glucose, whereas circulating lipids as well as amino acids are known to increase the demand in insulin and, under physiological circumstances, its secretion. Furthermore, the integration of other relevant signals such as hormones provides a clear advantage. Consequently, using the β-cell as a signal integrator combined with ASIC technology ensures a physiological signal and its read-out in real time thus avoiding complex algorithms. We describe a closed-loop architecture for exploiting those bio-sensors and potentially able to provide a control feedback for real-time insulin delivery.

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2010 Fifth IEEE International Symposium on Electronic Design, Test & Applications

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