Effects of Cytoskeletal Orientations on Deformation of a Cell Residing in a Collagen Gel Construct
スポンサーリンク
概要
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The effects of cytoskeleton orientation angle on strain transmission from a tissue to a cell and its internal cytoskeletons were investigated by using a model where a cell was integrated in a tissue that assumes a collagen gel construct. A cell with uni-directionally or randomly aligned cytoskeletons was embedded in a tissue, which was stretched to a strain of 0.1. When the initial orientation angle of the cytoskeleton was zero, which corresponded to the stretch direction of the tissue, cell strain was minimal and mean cytoskeletal strain was maximal. As the initial cytoskeleton orientation angle increased, mean cytoskeletal strain values decreased, while cell strain increased. Cell strain decreased at an initial cytoskeleton orientation angle of 60°. At this angle, the mean cytoskeletal strain value was nearly zero, which was absolutely minimal. Subsequent increases in the initial cytoskeleton orientation angle resulted in further decreases in cell and cytoskeletal strain. The present multi-scale model may help in achieving structural integration of the biomechanical organization and provide valuable information for understanding the mechanisms underlying cellular remodeling.
著者
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KOSHIYAMA Kenichiro
Graduate School of Engineering Science, Osaka University
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Wada Shigeo
Graduate School Of Engineering Science Osaka University
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Nakamura Masanori
Graduate School of Engineering, Tohoku University
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Miyazaki Hiroshi
Graduate School Of Engineering Science Osaka University
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Miyazaki Hiroshi
Graduate School of Engineering Science, Osaka University
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UJIHARA Yoshihiro
Department of Physiology 1, Kawasaki Medical School
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UJIHARA Yoshihiro
Department of Mechanical Science and Bioengineering, Graduate School of Engineering Science, Osaka University
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SOGA Masatsugu
Graduate School of Engineering Science, Osaka University
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