A Comparative Study of Living Cell Micromechanical Properties by Oscillatory Optical Tweezers

Overview

Journal Opt Express

Specialties Biophysics
Ophthalmology

Date 2008 Jun 12

PMID 18545572

Citations 26

Authors

Ming-Tzo Wei

Angela Zaorski

Huseyin C Yalcin

Jing Wang

Samir N Ghadiali

Arthur Chiou

H Daniel Ou-Yang

Affiliations

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Abstract

Micromechanical properties of biological cells are crucial for cells functions. Despite extensive study by a variety of approaches, an understanding of the subject remains elusive. We conducted a comparative study of the micromechanical properties of cultured alveolar epithelial cells with an oscillatory optical tweezer-based cytorheometer. In this study, the frequency-dependent viscoelasticity of these cells was measured by optical trapping and forced oscillation of either a submicron endogenous intracellular organelle (intra-cellular) or a 1.5microm silica bead attached to the cytoskeleton through trans-membrane integrin receptors (extra-cellular). Both the storage modulus and the magnitude of the complex shear modulus followed weak power-law dependence with frequency. These data are comparable to data obtained by other measurement techniques. The exponents of power-law dependence of the data from the intra- and extra- cellular measurements are similar; however, the differences in the magnitudes of the moduli from the two measurements are statistically significant.

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