应用数字全息显微镜研究完整红细胞的沉降及其与人工表面的相互作用。

Application of digital holographic microscopy to investigate the sedimentation of intact red blood cells and their interaction with artificial surfaces.

作者信息

Bernhardt Ingolf, Ivanova Lyubomira, Langehanenberg Patrik, Kemper Bjoern, von Bally Gert

机构信息

Laboratory of Biophysics, Faculty of Natural and Technical Sciences III, Saarland University, Saarbruecken, Germany.

出版信息

Bioelectrochemistry. 2008 Aug;73(2):92-6. doi: 10.1016/j.bioelechem.2007.12.001. Epub 2007 Dec 23.

DOI:10.1016/j.bioelechem.2007.12.001

PMID:18230419

Abstract

Red blood cells are able to undergo shape change from the "normal" discocyte to either echinocytes or stomatocytes depending on a large variety of membrane and cytoplasmic parameters. Such shape changes can be relatively fast (within seconds) during the sedimentation of the cells in suspension or after the cells are getting in contact with artificial surfaces. High resolution digital holographic microscopy has been applied to study these processes. This method represents a new set-up allowing a contact-less and marker-free quantitative phase-contrast imaging of living cells under conventional laboratory conditions. With the applied technique we were able to detect and analyse fast shape changes of red blood cells.

摘要

红细胞能够根据多种膜和细胞质参数，从“正常”的双凹圆盘状细胞转变为棘状细胞或口形细胞。在悬浮液中的细胞沉降过程中或细胞与人工表面接触后，这种形状变化可能相对较快（在数秒内）。高分辨率数字全息显微镜已被用于研究这些过程。该方法代表了一种新的装置，能够在传统实验室条件下对活细胞进行无接触、无标记的定量相衬成像。通过应用该技术，我们能够检测和分析红细胞的快速形状变化。

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应用数字全息显微镜研究完整红细胞的沉降及其与人工表面的相互作用。

Application of digital holographic microscopy to investigate the sedimentation of intact red blood cells and their interaction with artificial surfaces.

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