Add to ORKGMechanical cues have been recognized to be critically important in the regulation of cells. A myriad of cellular processes including differentiation, proliferation, and gene expression are all affected by physical forces from the extra- and intra-cellular microenvironments. Despite recent advances in nano-technologies, many questions still surround how cells sense and respond to forces. Through a series of studies, we demonstrate how both the structure and inherent mechanical properties of the cell affect their response to mechanical cues. We first develop a methodology to mechanically manipulate cells while simultaneously characterizing their deformations. Using combined atomic force and confocal microscopy techniques and through systemati...
Cell tensegrity model has been widely accepted as a qualitative and recently quantitative method to ...
Nanomechanics of cytoskeleton is deeply involved in physiology and regulation of cell behavior. Atom...
AbstractThe skeleton adapts to its mechanical usage, although at the cellular level, the distributio...
Forces and the mechanical properties surrounding eukaryotic cells have been increasingly shown to pl...
Cells in their native environment are bombarded by mechanical signals ranging from strains within a ...
Cells and tissues continuously experience mechanical loading during daily activity. However, the mec...
Cell mechanics is a novel label-free biomarker for indicating cell states and pathological changes. ...
Cell mechanics is a novel label-free biomarker for indicating cell states and pathological changes. ...
Various kinds of signals are constantly transmitted into and out of cells to regulate their activiti...
The cytoskeleton, composed of actin filaments, intermediate filaments, and microtubules, is a highly...
Mechanobiological sensing brings together biology, physics, medicine and engineering, thus helps to ...
We investigated the mechanotransduction pathway in endothelial cells between their nucleus and adhes...
Physical forces in the cellular microenvironment play an important role in governing cell function. ...
Thesis (Ph.D.)--Harvard--Massachusetts Institute of Technology Division of Health Sciences and Techn...
AbstractCellular mechanics plays a crucial role in many biological processes such as cell migration,...
Cell tensegrity model has been widely accepted as a qualitative and recently quantitative method to ...
Nanomechanics of cytoskeleton is deeply involved in physiology and regulation of cell behavior. Atom...
AbstractThe skeleton adapts to its mechanical usage, although at the cellular level, the distributio...
Forces and the mechanical properties surrounding eukaryotic cells have been increasingly shown to pl...
Cells in their native environment are bombarded by mechanical signals ranging from strains within a ...
Cells and tissues continuously experience mechanical loading during daily activity. However, the mec...
Cell mechanics is a novel label-free biomarker for indicating cell states and pathological changes. ...
Cell mechanics is a novel label-free biomarker for indicating cell states and pathological changes. ...
Various kinds of signals are constantly transmitted into and out of cells to regulate their activiti...
The cytoskeleton, composed of actin filaments, intermediate filaments, and microtubules, is a highly...
Mechanobiological sensing brings together biology, physics, medicine and engineering, thus helps to ...
We investigated the mechanotransduction pathway in endothelial cells between their nucleus and adhes...
Physical forces in the cellular microenvironment play an important role in governing cell function. ...
Thesis (Ph.D.)--Harvard--Massachusetts Institute of Technology Division of Health Sciences and Techn...
AbstractCellular mechanics plays a crucial role in many biological processes such as cell migration,...
Cell tensegrity model has been widely accepted as a qualitative and recently quantitative method to ...
Nanomechanics of cytoskeleton is deeply involved in physiology and regulation of cell behavior. Atom...
AbstractThe skeleton adapts to its mechanical usage, although at the cellular level, the distributio...