about
Microfabricated tissue gauges to measure and manipulate forces from 3D microtissuesDesign and formulation of functional pluripotent stem cell-derived cardiac microtissues.The influence of matrix integrity on stress-fiber remodeling in 3D.A bio-chemo-mechanical model for cell contractility.Simulation of the contractile response of cells on an array of micro-posts.Unsteady penetration of a target by a liquid jet.Cellular mechanosensing of the biophysical microenvironment: A review of mathematical models of biophysical regulation of cell responses.Cooperative contractility: the role of stress fibres in the regulation of cell-cell junctions.Simulation of the cytoskeletal response of cells on grooved or patterned substrates.An Integrated Stochastic Model of Matrix-Stiffness-Dependent Filopodial DynamicsCellular contractility and substrate elasticity: a numerical investigation of the actin cytoskeleton and cell adhesion.Free energy analysis of cell spreading.Energetics: An emerging frontier in cellular mechanosensing: Reply to comments on "Cellular mechanosensing of the biophysical microenvironment: A review of mathematical models of biophysical regulation of cell responses".A thermodynamically motivated model for stress-fiber reorganization.Analysis of electro-permeation of hydrogen in metallic alloys.Simulation of the mechanical response of cells on micropost substrates.Prediction of failure in notched carbon-fibre-reinforced-polymer laminates under multi-axial loading.Role of boundary conditions in determining cell alignment in response to stretch.Prediction of Cell Alignment on Cyclically Strained Grooved Substrates.Discrete dislocation plasticity analysis of loading rate-dependent static friction.Notch sensitivity of orthotropic solids: interaction of tensile and shear damage zones.Case record of the Massachusetts General Hospital. Weekly clinicopathological exercises. Case 2-2003. A 60-year-old man with mild congestive heart failure of uncertain causeThe homeostatic ensemble for cellsNumerical investigation of the active role of the actin cytoskeleton in the compression resistance of cells
P50
Q30488399-C3A15C1A-0E9F-4118-963C-5315FFA6BFF2Q30559093-43D37E27-D0C6-4698-B6F3-444ABD5F5781Q34289466-7D92AFE5-EA55-4BB5-861D-F88BEB05C25CQ35019134-53975750-6C0F-4B4D-9A1D-692717228F65Q35687982-4074B862-08A8-4560-918A-430A307A6574Q37395205-8ED619ED-63B0-4324-B529-9D5DF9681317Q38660989-35E0BFEE-3CE0-480E-B8E3-76FD2E463F08Q39065337-FF849C97-598B-47E4-9424-98659E09AE80Q39312764-15691B31-2F40-4497-B9D8-7DF317E29820Q42693221-A8A47336-F6FD-4EDE-BDBF-75FCD6BE6387Q44944465-3DB8DB1A-5A91-4512-9C61-C511C4A6646FQ47335079-A043CB88-D795-4B28-B202-2CBCF93A6912Q47590981-F613F419-DC7B-45A2-8A4B-5E7E34914F3AQ47617959-DB7A3A16-D1D8-42F9-9EEF-8893288757EEQ47805097-EDFC151E-B18D-4F2D-B8E1-F74D78F65E2FQ47907319-2A9BE789-6071-4066-BC9F-EF2A08DE9BF0Q48218678-137B63A0-2EC1-4B56-AA95-B817AC1AF51EQ49989748-5571F294-C1C3-4E78-B118-82AE24CDC934Q51099710-07615198-5EB7-4158-A5AD-1D5527C7048BQ51167095-ED734425-9368-4BD5-A91E-409D4C941D82Q64882080-171846A6-2018-46B4-B5B0-6A827B718050Q78799688-C38C2300-600B-42F6-AB6F-EA11D9BF9C5AQ89484031-EAE6F6B8-71DD-4961-AE0C-971DD95A2D65Q95424186-B2CA319D-A868-452C-97B5-1131F43880AF
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Vikram S Deshpande
@ast
Vikram S Deshpande
@de
Vikram S Deshpande
@en
Vikram S Deshpande
@es
Vikram S Deshpande
@fr
Vikram S Deshpande
@it
Vikram S Deshpande
@nl
type
label
Vikram S Deshpande
@ast
Vikram S Deshpande
@de
Vikram S Deshpande
@en
Vikram S Deshpande
@es
Vikram S Deshpande
@fr
Vikram S Deshpande
@it
Vikram S Deshpande
@nl
prefLabel
Vikram S Deshpande
@ast
Vikram S Deshpande
@de
Vikram S Deshpande
@en
Vikram S Deshpande
@es
Vikram S Deshpande
@fr
Vikram S Deshpande
@it
Vikram S Deshpande
@nl
P106
P1153
56212784700
P31
P496
0000-0003-3899-3573