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How to integrate a micropipette into a closed microfluidic system: absorption spectra of an optically trapped erythrocyte

机译：如何将微量移液器整合到封闭的微流系统中：光学捕获的红细胞的吸收光谱

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摘要

We present a new concept of integrating a micropipette within a closed microfluidic system equipped with optical tweezers and a UV-Vis spectrometer. A single red blood cell (RBC) was optically trapped and steered in three dimensions towards a micropipette that was integrated in the microfluidic system. Different oxygenation states of the RBC, triggered by altering the oxygen content in the microchannels through a pump system, were optically monitored by a UV-Vis spectrometer. The built setup is aimed to act as a multifunctional system where the biochemical content and the electrophysiological reaction of a single cell can be monitored simultaneously. The system can be used for other applications like single cell sorting, in vitro fertilization or electrophysiological experiments with precise environmental control of the gas-, and chemical content.

机译：我们提出了一种将微量移液器集成在配有光学镊子和UV-Vis光谱仪的封闭式微流体系统中的新概念。光学捕获单个红细胞（RBC），并在三个方向上将其导向集成在微流体系统中的微量移液器。通过改变紫外光光谱仪对通过泵系统改变微通道中氧含量而触发的红细胞的不同氧合状态进行光学监测。内置的设备旨在充当多功能系统，在该系统中可以同时监视单个细胞的生化含量和电生理反应。该系统可用于其他应用，例如单细胞分选，体外受精或具有精确控制气体和化学成分环境的电生理实验。

著录项

期刊名称 Biomedical Optics Express
作者
Ahmed Alrifaiy; Kerstin Ramser;
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作者单位

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年(卷),期 2011(2),8
年度 2011
页码 2299–2306
总页数 8
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;生化遗传学;生化药理学;
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1. How to integrate a micropipette into a closed microfluidic system: absorption spectra of an optically trapped erythrocyte [J] . Ahmed Alrifaiy, Kerstin Ramser Biomedical Optics Express . 2011,第8期

机译：如何将微量移液器整合到封闭的微流系统中：光学捕获的红细胞的吸收光谱
2. The integration of a micropipette in a closed microfluidic chip with optical tweezers for investigations of single cells: erratum [J] . Ahmed Alrifaiy, Kerstin Ramser Biomedical Optics Express . 2012,第2期

机译：将微量移液器集成在带有光学镊子的封闭式微流控芯片中，用于研究单细胞：勘误
3. Microfluidic sorting system based on optical waveguide integration and diode laser bar trapping [J] . Applegate RW, Squier J, Vestad T, Lab on a chip . 2006,第3期

机译：基于光波导集成和二极管激光棒俘获的微流分选系统
4. MICROFLUIDIC-MICROELECTRIC TRAPS OF LEAD (II) POLLUTED ERYTHROCYTES IN CONTINUOUS BLOODSTREAM FLOW [C] . Ming-Wen Wang International Symposium on Flow Visualization . 2010

机译：铅（II）铅（II）的微细电流阱在连续血流流动中污染的红细胞
5. OPTICAL ABSORPTION, LUMINESCENCE AND PHOTOBLEACHING OF TRAPPED INTERMEDIATES FORMED IN 3-METHYLPENTANE GLASS BY GAMMA-IRRADIATION AT 77 K. OPTICAL SPECTRA OF MERCURY PHOTOSENSITIZATION REACTION PRODUCTS IN 3-METHYLPENTANE GLASS AT 77 K. [D] . MORINE, GERALD H. 1975

机译：在77 K时通过γ射线辐照形成的3-甲基戊烷玻璃中的中间体的光吸收，发光和光解。3，3-庚烷玻璃中的光致光敏反应产物的光光谱。
6. The integration of a micropipette in a closed microfluidic chip with optical tweezers for investigations of single cells: erratum [O] . Ahmed Alrifaiy, Kerstin Ramser 2012

机译：将微量移液器集成在带有光学镊子的封闭式微流控芯片中用于研究单细胞：勘误
7. How to integrate a micropipette into a closed microfluidic system : absorption spectra of an optically trapped erythrocyte [O] . Alrifaiy, Ahmed, Ramser, Kerstin 2011

机译：如何将微量移液器集成到封闭的微流系统中：光学捕获的红细胞的吸收光谱

How to integrate a micropipette into a closed microfluidic system: absorption spectra of an optically trapped erythrocyte

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