[HTML][HTML] Organ-on-chip approaches for intestinal 3D in vitro modeling
The intestinal epithelium has one of the highest turnover rates in the human body, which is
supported by intestinal stem cells. Culture models of intestinal physiology have been …
supported by intestinal stem cells. Culture models of intestinal physiology have been …
Organ-on-Chip Approaches for Intestinal 3D In Vitro Modeling
J Pimenta, R Ribeiro, R Almeida… - Cellular and …, 2022 - pubmed.ncbi.nlm.nih.gov
The intestinal epithelium has one of the highest turnover rates in the human body, which is
supported by intestinal stem cells. Culture models of intestinal physiology have been …
supported by intestinal stem cells. Culture models of intestinal physiology have been …
[HTML][HTML] Organ-on-Chip Approaches for Intestinal 3D In Vitro Modeling
J Pimenta, R Ribeiro, R Almeida, PF Costa… - Cellular and …, 2022 - cmghjournal.org
The intestinal epithelium has one of the highest turnover rates in the human body, which is
supported by intestinal stem cells. Culture models of intestinal physiology have been …
supported by intestinal stem cells. Culture models of intestinal physiology have been …
[HTML][HTML] Organ-on-Chip Approaches for Intestinal 3D In Vitro Modeling
J Pimenta, R Ribeiro, R Almeida, PF Costa… - Cellular and …, 2022 - ncbi.nlm.nih.gov
The intestinal epithelium has one of the highest turnover rates in the human body, which is
supported by intestinal stem cells. Culture models of intestinal physiology have been …
supported by intestinal stem cells. Culture models of intestinal physiology have been …
Organ-on-Chip Approaches for Intestinal 3D In Vitro Modeling.
J Pimenta, R Ribeiro, R Almeida, PF Costa… - Cellular and …, 2021 - europepmc.org
The intestinal epithelium has one of the highest turnover rates in the human body, which is
supported by intestinal stem cells. Culture models of intestinal physiology have been …
supported by intestinal stem cells. Culture models of intestinal physiology have been …