Add to ORKGCellular responses to mechanical stimuli are implicated in the structural and functional adaptation of many tissues. For example, cellular mechanisms mediate bone and skeletal muscle remodeling during mechanical loading, lung function during ventilator-induced injury, hearing loss in the inner ear, and blood flow-mediated cardiovascular pathophysiology. Since much of our own work investigates vascular biomechanics, we will focus in this chapter on the techniques used to study vascular endothelial cells in vitro; however, similar techniques can be used to study other cell types
Endothelial cells throughout the body are heterogeneous, and this is tightly linked to the specific ...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
Our body’s functioning depends on the ability of cells to sense and react to their local mechanical ...
Cellular responses to mechanical stimuli are implicated in the structural and functional adaptation ...
Endothelial cells lining blood vessels are essential for maintaining vascular homeostasis and mediat...
Blood and lymphatic vessels are lined by endothelial cells which constantly interact with their lumi...
The mechanical properties of cells reflect dynamic changes of cellular organization which occur duri...
Vascular endothelial cells are subjected to hemodynamic forces such as mechanical stretch due to the...
The endothelium plays a central role in cardiovascular regulation. Endothelial cells produce a varie...
Characterizing mechanical properties of cells is important for understanding many cellular processes...
To determine the effect of laminar fluid shear stress on the morphology, motility, and biochemical e...
Endothelial cells (ECs) line the lumen of the cardiovascular system and serve as a regulatory barrie...
Organ on a chip is a biomedical technology that implements the functions and characteristics of a sp...
Living tissues are active, multifunctional materials capable of generating, sensing, withstanding an...
Endothelial cells (ECs) not only serve as a barrier between blood and extravascular space to modulat...
Endothelial cells throughout the body are heterogeneous, and this is tightly linked to the specific ...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
Our body’s functioning depends on the ability of cells to sense and react to their local mechanical ...
Cellular responses to mechanical stimuli are implicated in the structural and functional adaptation ...
Endothelial cells lining blood vessels are essential for maintaining vascular homeostasis and mediat...
Blood and lymphatic vessels are lined by endothelial cells which constantly interact with their lumi...
The mechanical properties of cells reflect dynamic changes of cellular organization which occur duri...
Vascular endothelial cells are subjected to hemodynamic forces such as mechanical stretch due to the...
The endothelium plays a central role in cardiovascular regulation. Endothelial cells produce a varie...
Characterizing mechanical properties of cells is important for understanding many cellular processes...
To determine the effect of laminar fluid shear stress on the morphology, motility, and biochemical e...
Endothelial cells (ECs) line the lumen of the cardiovascular system and serve as a regulatory barrie...
Organ on a chip is a biomedical technology that implements the functions and characteristics of a sp...
Living tissues are active, multifunctional materials capable of generating, sensing, withstanding an...
Endothelial cells (ECs) not only serve as a barrier between blood and extravascular space to modulat...
Endothelial cells throughout the body are heterogeneous, and this is tightly linked to the specific ...
To measure the elongation and compliance of endothelial cells subjected to different patterns of she...
Our body’s functioning depends on the ability of cells to sense and react to their local mechanical ...