Mechanical behavior Analysis of Cancerous Cells in the Micropipette Aspiration Using Finite Element Simulations, M.Sc. Thesis Sharif University of Technology ; Naghdabadi, Reza (Supervisor) ; Bavi, Omid (Co-Supervisor)
Abstract
Diseases such as cancer lead to extensive conversion in the biological structure of cells. These conversions can overshadow cell function. The dynamics of a cell directly depends on how it interacts with other cells and the extracellular environment. Most of these interactions are associated with the occurrence of mechanical phenomena and are due to forces that the cell has experienced. Cell mechanics manifests itself in the Mechanotransduction, the ability of a cell to sense and respond to external forces. Cancer alters the mechanical properties of the components of the cytoskeleton. Understanding the biomechanical behavior of cells and cytoskeleton can play an important role in early...
Cataloging briefMechanical behavior Analysis of Cancerous Cells in the Micropipette Aspiration Using Finite Element Simulations, M.Sc. Thesis Sharif University of Technology ; Naghdabadi, Reza (Supervisor) ; Bavi, Omid (Co-Supervisor)
Abstract
Diseases such as cancer lead to extensive conversion in the biological structure of cells. These conversions can overshadow cell function. The dynamics of a cell directly depends on how it interacts with other cells and the extracellular environment. Most of these interactions are associated with the occurrence of mechanical phenomena and are due to forces that the cell has experienced. Cell mechanics manifests itself in the Mechanotransduction, the ability of a cell to sense and respond to external forces. Cancer alters the mechanical properties of the components of the cytoskeleton. Understanding the biomechanical behavior of cells and cytoskeleton can play an important role in early...
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