Nonlinear elastic and viscoelastic deformation of the human red blood cell with optical tweezers.

J. P. Mills, L. Qie, M. Dao, Chwee Teck Lim, S. Suresh
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引用次数: 333

Abstract

Studies of the deformation characteristics of single biological cells can offer insights into the connections among mechanical state, biochemical response and the onset and progression of diseases. Deformation imposed by optical tweezers provides a useful means for the study of single cell mechanics under a variety of well-controlled stress-states. In this paper, we first critically review recent advances in the study of single cell mechanics employing the optical tweezers method, and assess its significance and limitations in comparison to other experimental tools. We then present new experimental and computational results on shape evolution, force-extension curves, elastic properties and viscoelastic response of human red blood cells subjected to large elastic deformation using optical tweezers. Potential applications of the methods examined here to study diseased cells are also briefly addressed.
用光学镊子研究人体红细胞的非线性弹性和粘弹性变形。
研究单个生物细胞的变形特性,可以深入了解细胞的力学状态、生化反应与疾病发生发展之间的关系。光镊施加的变形为研究各种控制良好的应力状态下的单细胞力学提供了一种有用的手段。在本文中,我们首先批判性地回顾了利用光镊方法研究单细胞力学的最新进展,并评估了其与其他实验工具相比的意义和局限性。然后,我们用光学镊子对人体红细胞在大弹性变形下的形状演变、力延伸曲线、弹性特性和粘弹性响应进行了新的实验和计算结果。本文还简要介绍了这些方法在研究病变细胞方面的潜在应用。
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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