Viscoelasticity and Collective Cell Migration: An Interdisciplinary Perspective Across Levels of Organization

Viscoelasticity and Collective Cell Migration: An Interdisciplinary Perspective Across Levels of Organization focuses on the main viscoelastic parameters formulated based on multiscale constitutive modeling and how to measure these rheological parameters based on existent micro-devices such as micro-rheology and micro-elastography. The book sheds light on inter-relationships across viscoelasticity scales, an essential step for understanding various biomedical processes such as morphogenesis, wound healing and cancers invasion. Cumulative effects of structural changes at subcellular and cellular levels influence viscoelasticity at a supracellular level are also covered, providing valuable insights for biologists, physicists, engineers, students and researchers in the field of developmental biology. As this is a complex multidisciplinary field, perspectives are included from experts in biology, biochemistry, biomedicine, biophysics and biorheology. Readers will gain a deeper understanding of the complex dynamics that represent challenges and the necessity for further development in the field. Discusses the biological/biochemical mechanisms of collective cell migrationCovers the inter-relation between collective cell migration and viscoelasticity by proposing rheological parametersContains critical consideration of various experimental techniques that are suitable to measure these parameters INDICE: 1. Viscoelastic Impedance of Cells and Tissues -Basic Concepts and Physiological Functions 2. Recent advances in imaging of cell elasticity 3. Biophysical origins of viscoelasticity during collective cell migration 4. Intrinsic and extrinsic viscoelasticity modulates cell migration in vivo 5. Effects of time delays and viscoelastic parameters in oscillatory response cell monolayers 6. Mechanical changes driving 3D cell motility in development and cancer 7. Comparing interfacial, viscous and elastic contributions during 3D cell aggregate rearrangements 8. Viscoelasticity of multicellular systems caused by collective cell migration: multi scale modelling considerations 8. Flow dynamics of 3D multicellular systems under confinement 9. Multicellular systems response under stress: From subcellular to supracellular levels 10. Cytoskeletal and cell adhesion contributions to tissue stresses 11. Confinement-induced transition between wave-like collective cell migration modes

• ISBN: 978-0-12-820310-1
• Editorial: Academic Press
• Encuadernacion: Rústica
• Páginas: 250
• Fecha Publicación: 01/03/2021
• Nº Volúmenes: 1
• Idioma: Inglés