Human morphogenesis is a complex process involving distinct microenvironmental and physical signals that are manipulated in space and time to give rise to complex tissues and organs. Advances in pluripotent stem cell (PSC) technology have promoted the in vitro recreation of processes involved in human morphogenesis. The development of organoids from human PSCs represents one reliable source for modeling a large spectrum of human disorders, as well as a promising approach for drug screening and toxicological tests. Based on the “self-organization” capacity of stem cells, different PSC-derived organoids have been created; however, considerable differences between in vitro-generated PSC-derived organoids and their in vivo counterparts have bee...
Innumerable studies associated with cellular differentiation, tissue response and disease modeling h...
Pluripotent embryonal stem cells (ESCs) are unique for their ability to proliferate and differentiat...
For a long time, animal models were used to mimic human biology and diseases. However, animal models...
Recent advances in human pluripotent stem cell (hPSC) technologies have enabled the engineering of h...
During organogenesis, various molecular and physical signals are orchestrated in space and time to s...
Recent advances in human pluripotent stem cell (hPSC) technologies have enabled the engineering of h...
Recent technical advances in the stem cell field have enabled the in vitro generation of complex str...
Organoid systems leverage the self-organizing properties of stem cells to create diverse multi-cellu...
One of the long-standing goals in the field of tissue engineering is the fabrication of de novo tiss...
Organoids are in vitro cultures of miniature fetal or adult organ-like structures. Their potentials ...
Over the previous decade, one of the most exciting advancements in stem cell technology has been the...
Organoids represent one of the most important advancements in the field of stem cells during the pas...
International audienceOrganoids have been widely used in fundamental, biomimetic, and therapeutic st...
Human pluripotent stem cells (hPSCs) are grouped into two cell types; embryonic stem cells (hESCs) a...
Organoids have attracted increasing attention because they are simple tissue-engineered cell-based i...
Innumerable studies associated with cellular differentiation, tissue response and disease modeling h...
Pluripotent embryonal stem cells (ESCs) are unique for their ability to proliferate and differentiat...
For a long time, animal models were used to mimic human biology and diseases. However, animal models...
Recent advances in human pluripotent stem cell (hPSC) technologies have enabled the engineering of h...
During organogenesis, various molecular and physical signals are orchestrated in space and time to s...
Recent advances in human pluripotent stem cell (hPSC) technologies have enabled the engineering of h...
Recent technical advances in the stem cell field have enabled the in vitro generation of complex str...
Organoid systems leverage the self-organizing properties of stem cells to create diverse multi-cellu...
One of the long-standing goals in the field of tissue engineering is the fabrication of de novo tiss...
Organoids are in vitro cultures of miniature fetal or adult organ-like structures. Their potentials ...
Over the previous decade, one of the most exciting advancements in stem cell technology has been the...
Organoids represent one of the most important advancements in the field of stem cells during the pas...
International audienceOrganoids have been widely used in fundamental, biomimetic, and therapeutic st...
Human pluripotent stem cells (hPSCs) are grouped into two cell types; embryonic stem cells (hESCs) a...
Organoids have attracted increasing attention because they are simple tissue-engineered cell-based i...
Innumerable studies associated with cellular differentiation, tissue response and disease modeling h...
Pluripotent embryonal stem cells (ESCs) are unique for their ability to proliferate and differentiat...
For a long time, animal models were used to mimic human biology and diseases. However, animal models...