Literature DB >> 26442142

Cell mechanics in biomedical cavitation.

Qianxi Wang1, Kawa Manmi2, Kuo-Kang Liu3.   

Abstract

Studies on the deformation behaviours of cellular entities, such as coated microbubbles and liposomes subject to a cavitation flow, become increasingly important for the advancement of ultrasonic imaging and drug delivery. Numerical simulations for bubble dynamics of ultrasound contrast agents based on the boundary integral method are presented in this work. The effects of the encapsulating shell are estimated by adapting Hoff's model used for thin-shell contrast agents. The viscosity effects are estimated by including the normal viscous stress in the boundary condition. In parallel, mechanical models of cell membranes and liposomes as well as state-of-the-art techniques for quantitative measurement of viscoelasticity for a single cell or coated microbubbles are reviewed. The future developments regarding modelling and measurement of the material properties of the cellular entities for cutting-edge biomedical applications are also discussed.

Keywords:  boundary integral method; membrane mechanics; microbubble dynamics; single-cell mechanics; ultrasonic cavitation

Year:  2015        PMID: 26442142      PMCID: PMC4549844          DOI: 10.1098/rsfs.2015.0018

Source DB:  PubMed          Journal:  Interface Focus        ISSN: 2042-8898            Impact factor:   3.906


  51 in total

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