Add to ORKGMesenchymal stem cells (MSC) rely on their ability to integrate physical and spatial signals at load bearing sites to replace and renew musculoskeletal tissues. Designed to mimic unloading experienced during spaceflight, preclinical unloading and simulated microgravity models show that alteration of gravitational loading limits proliferative activity of stem cells. Emerging evidence indicates that this loss of proliferation may be linked to loss of cellular cytoskeleton and contractility. Low intensity vibration (LIV) is an exercise mimetic that promotes proliferation and differentiation of MSCs by enhancing cell structure. Here, we asked whether application of LIV could restore the reduced proliferative capacity seen in MSCs that are subje...
The research of Dr. Almeida's Lab at NASA Ames focuses on the effects of microgravity mechanical unl...
Adult stem cells can differentiate into multiple lineages depending on their exposure to differing b...
Abstract A primary component of exercise, mechanical signals, when applied in the form of low intens...
Mesenchymal stem cells (MSC) rely on their ability to integrate physical and spatial signals at load...
Reducing the musculoskeletal deterioration that astronauts experience in microgravity requires count...
Bone deterioration in spaceflight is in part driven by reduced functionality of mesenchymal stem cel...
While in space, astronauts exercise frequently to combat bone and muscle loss due to weightlessness....
Astronauts in space undergo accelerated bone loss due to weightlessness, causing early onset osteopo...
Essentially all cells are sensitive to mechanical signals, providing the tissue and organismal level...
A primary component of exercise, mechanical signals, when applied in the form of low intensity vibra...
Scientists have discovered that prolonged exposure to microgravity leads to degenerative changes in ...
Human regenerative health depends on constant tissue repair and regeneration by cells derived from s...
The bone deterioration that astronauts experience in microgravity environments is known to occur in ...
Mechanical forces are potent modulators of stem cell based tissue regenerative mechanisms, inducing ...
Purpose During in vitro chondrogenesis of human mesenchymal stem cells (hMSCs) hypertrophy is an ina...
The research of Dr. Almeida's Lab at NASA Ames focuses on the effects of microgravity mechanical unl...
Adult stem cells can differentiate into multiple lineages depending on their exposure to differing b...
Abstract A primary component of exercise, mechanical signals, when applied in the form of low intens...
Mesenchymal stem cells (MSC) rely on their ability to integrate physical and spatial signals at load...
Reducing the musculoskeletal deterioration that astronauts experience in microgravity requires count...
Bone deterioration in spaceflight is in part driven by reduced functionality of mesenchymal stem cel...
While in space, astronauts exercise frequently to combat bone and muscle loss due to weightlessness....
Astronauts in space undergo accelerated bone loss due to weightlessness, causing early onset osteopo...
Essentially all cells are sensitive to mechanical signals, providing the tissue and organismal level...
A primary component of exercise, mechanical signals, when applied in the form of low intensity vibra...
Scientists have discovered that prolonged exposure to microgravity leads to degenerative changes in ...
Human regenerative health depends on constant tissue repair and regeneration by cells derived from s...
The bone deterioration that astronauts experience in microgravity environments is known to occur in ...
Mechanical forces are potent modulators of stem cell based tissue regenerative mechanisms, inducing ...
Purpose During in vitro chondrogenesis of human mesenchymal stem cells (hMSCs) hypertrophy is an ina...
The research of Dr. Almeida's Lab at NASA Ames focuses on the effects of microgravity mechanical unl...
Adult stem cells can differentiate into multiple lineages depending on their exposure to differing b...
Abstract A primary component of exercise, mechanical signals, when applied in the form of low intens...