Differentiating tissue stem cells can self-assemble into structures that strikingly resemble functional organ subunits. Translating this insight to regenerative medicine presents several challenges
Stem cells are the foundation of all mammalian life. Stem cells build and maintain our bodies throug...
The behavior of stem cells, when they work collectively, can be much more sophisticated than one mig...
Abstract: Tissue engineering and regenerative medicine strategies could offer new hope for patients ...
Differentiating tissue stem cells can self-assemble into structures that strikingly resemble functio...
In the last two decades, regenerative medicine has shown the potential for "bench-to-bedside" transl...
The proposed work aims to address three major challenges to the field of regenerative medicine: 1) t...
During organogenesis, various molecular and physical signals are orchestrated in space and time to s...
Few events in science have captured the same level of sustained interest and imagination of the nons...
Regenerative medicine is the science of replacing engineering, regenerating human cells, tissues, or...
Major goals of contemporary regenerative medicine focus on improvement of irreversible damage of mul...
Regenerative medicine represents the forefront of health sciences and holds promises for the treatme...
Animals carry stem cells throughout their entire life, from embryogenesis to senescence. Their funct...
Stem cells constitute a set of undifferentiated cells with the capacity to differentiate into other ...
Regenerative medicine is a rapidly evolving field that aims to restore, replace, or regenerate damag...
A major task of contemporary medicine and dentistry is restoration of human tissues and organs lost ...
Stem cells are the foundation of all mammalian life. Stem cells build and maintain our bodies throug...
The behavior of stem cells, when they work collectively, can be much more sophisticated than one mig...
Abstract: Tissue engineering and regenerative medicine strategies could offer new hope for patients ...
Differentiating tissue stem cells can self-assemble into structures that strikingly resemble functio...
In the last two decades, regenerative medicine has shown the potential for "bench-to-bedside" transl...
The proposed work aims to address three major challenges to the field of regenerative medicine: 1) t...
During organogenesis, various molecular and physical signals are orchestrated in space and time to s...
Few events in science have captured the same level of sustained interest and imagination of the nons...
Regenerative medicine is the science of replacing engineering, regenerating human cells, tissues, or...
Major goals of contemporary regenerative medicine focus on improvement of irreversible damage of mul...
Regenerative medicine represents the forefront of health sciences and holds promises for the treatme...
Animals carry stem cells throughout their entire life, from embryogenesis to senescence. Their funct...
Stem cells constitute a set of undifferentiated cells with the capacity to differentiate into other ...
Regenerative medicine is a rapidly evolving field that aims to restore, replace, or regenerate damag...
A major task of contemporary medicine and dentistry is restoration of human tissues and organs lost ...
Stem cells are the foundation of all mammalian life. Stem cells build and maintain our bodies throug...
The behavior of stem cells, when they work collectively, can be much more sophisticated than one mig...
Abstract: Tissue engineering and regenerative medicine strategies could offer new hope for patients ...
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