Add to ORKGStem cells interpret signals from their microenvironment while simultaneously modifying the niche through secreting factors and exerting mechanical forces. Many soluble stem cell cues have been determined over the past century, but in the past decade, our molecular understanding of mechanobiology has advanced to explain how passive and active forces induce similar signaling cascades that drive self-renewal, migration, differentiation or a combination of these outcomes. Improvements in stem cell culture methods, materials and biophysical tools that assess function have improved our understanding of these cascades. Here, we summarize these advances and offer perspective on ongoing challenges
It is a general concern that the success of regenerative medicine-based applications is based on the...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
Stem cells reside within tissue, ensuring its natural ability to repair an injury. They are involved...
Stem cells interpret signals from their microenvironment while simultaneously modifying the niche th...
Abstract Stem cell differentiation is regulated by a diverse array of extracellular cues. Recent evi...
Stem cells are undifferentiated cells that are capable of proliferation, self-maintenance and differ...
Copyright © 2012 Michele M. Nava et al. This is an open access article distributed under the Creativ...
The stem cell/material interface is a complex, dynamic microenvironment in which the cell and the ma...
International audienceStem cell "mechanomics" refers to the effect of mechanical cues on stem cell a...
Tissue-specific stem cells reside in a specialized environment known as the niche. The niche plays a...
Extracellular matrix (ECM) is ubiquitous in multicellular life, and its structure is critical to the...
Engineering functional tissues and organs from stem cells requires simultaneous control over both ce...
It is widely accepted that stem cells directly sense the elasticity of two-dimensional (2-D) substra...
Whether a stem cell remains or egresses away from its physiological niche is a function of mechanica...
Stem cells derived from adult tissues or from the inner cell mass of blastocyst-stage embryos can se...
It is a general concern that the success of regenerative medicine-based applications is based on the...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
Stem cells reside within tissue, ensuring its natural ability to repair an injury. They are involved...
Stem cells interpret signals from their microenvironment while simultaneously modifying the niche th...
Abstract Stem cell differentiation is regulated by a diverse array of extracellular cues. Recent evi...
Stem cells are undifferentiated cells that are capable of proliferation, self-maintenance and differ...
Copyright © 2012 Michele M. Nava et al. This is an open access article distributed under the Creativ...
The stem cell/material interface is a complex, dynamic microenvironment in which the cell and the ma...
International audienceStem cell "mechanomics" refers to the effect of mechanical cues on stem cell a...
Tissue-specific stem cells reside in a specialized environment known as the niche. The niche plays a...
Extracellular matrix (ECM) is ubiquitous in multicellular life, and its structure is critical to the...
Engineering functional tissues and organs from stem cells requires simultaneous control over both ce...
It is widely accepted that stem cells directly sense the elasticity of two-dimensional (2-D) substra...
Whether a stem cell remains or egresses away from its physiological niche is a function of mechanica...
Stem cells derived from adult tissues or from the inner cell mass of blastocyst-stage embryos can se...
It is a general concern that the success of regenerative medicine-based applications is based on the...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
Stem cells reside within tissue, ensuring its natural ability to repair an injury. They are involved...