利用模块化传感技术监测细胞信号传导与代谢：生理控制微系统（PCM）。

Monitoring of cellular signalling and metabolism with modular sensor-technique: the PhysioControl-Microsystem (PCM).

作者信息

Wolf B, Brischwein M, Baumann W, Ehret R, Kraus M

机构信息

AG Medical Physics and Electron Microscopy, Institute of Immunobiology, University of Freiburg, Germany.

出版信息

Biosens Bioelectron. 1998 Mar 15;13(5):501-9. doi: 10.1016/s0956-5663(97)00136-x.

DOI:10.1016/s0956-5663(97)00136-x

PMID:9684311

Abstract

Microsensors provide instruments particularly suited for the noninvasive analysis of cell and tissue cultures. The outstanding benefit lies in the passive behaviour of continuously working transducers, which in turn allows the dynamic recording of function-specific cellular processes. The microsensor system presented in this paper is a modular arrangement of various planar and non-planar sensor elements surrounding small cell culture chambers. An optic access to the cultures (e.g. for high resolution light microscopy and spectro-photometric techniques) enables a parallel and comparative data acquisition. The system was originally designed for biomedical research in chemotherapy and pharmacology but it proved to be an effective device both for toxicological and environmental research.

摘要

微传感器提供了特别适用于细胞和组织培养非侵入性分析的仪器。其突出优点在于连续工作的传感器的被动特性，这反过来又能动态记录特定功能的细胞过程。本文介绍的微传感器系统是围绕小细胞培养室的各种平面和非平面传感器元件的模块化组合。对培养物的光学访问（例如用于高分辨率光学显微镜和分光光度技术）能够进行并行和比较数据采集。该系统最初是为化疗和药理学的生物医学研究而设计的，但后来证明它对毒理学和环境研究都是一种有效的设备。

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利用模块化传感技术监测细胞信号传导与代谢：生理控制微系统（PCM）。

Monitoring of cellular signalling and metabolism with modular sensor-technique: the PhysioControl-Microsystem (PCM).

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