Add to ORKGIn this work, we developed an innovative gut-liver-on-chip system useful to predict oral drug administration and first pass metabolism. The two main organs involved in the first pass metabolism are the liver and the intestine. First-pass effects consist mainly in the reduction of bioavailability of drugs and xenobiotics. The prediction of this mechanism is important both for the development of new substances, but also for toxicity testing. For this purpose, we designed a microfluidic device which interconnect 3D human intestinal equivalent (3D-HIE) and HepG2-microtissues, recapitulating the intestinal and hepatic firstpass effect mechanism of ethanol. 3D-HIE were obtained by bottom up approach, using intestinal microtissues moulde...
Advances in organ-on-chip technologies for the application in in vitro drug development provide an a...
International audienceAbstract The development of livers-on-a-chip aims to provide pharmaceutical co...
Microfluidic organ-on-a-chip models of human intestine have been developed and used to study intesti...
Intestine-Liver-on-chip systems can be useful to predict oral drug administration and first-pass met...
Although the process of drug development requires efficacy and toxicity testing in animals prior to ...
Drug metabolism in the intestine is considered to substantially contribute to the overall first-pass...
The homeostatic relationship between the gut, its microbiome, and the liver is crucial for the regul...
Microfluidic 3D cell culture is a promising technology for the screening of drug toxicity profiles. ...
Systemic absorption and metabolism of drugs in the small intestine, metabolism by the liver as well ...
In this work, we present the development of a three-stage microfluidic system as a cell-free model f...
Advances in organ-on-chip technologies for the application in in vitro drug development provide an a...
International audienceAbstract The development of livers-on-a-chip aims to provide pharmaceutical co...
Microfluidic organ-on-a-chip models of human intestine have been developed and used to study intesti...
Intestine-Liver-on-chip systems can be useful to predict oral drug administration and first-pass met...
Although the process of drug development requires efficacy and toxicity testing in animals prior to ...
Drug metabolism in the intestine is considered to substantially contribute to the overall first-pass...
The homeostatic relationship between the gut, its microbiome, and the liver is crucial for the regul...
Microfluidic 3D cell culture is a promising technology for the screening of drug toxicity profiles. ...
Systemic absorption and metabolism of drugs in the small intestine, metabolism by the liver as well ...
In this work, we present the development of a three-stage microfluidic system as a cell-free model f...
Advances in organ-on-chip technologies for the application in in vitro drug development provide an a...
International audienceAbstract The development of livers-on-a-chip aims to provide pharmaceutical co...
Microfluidic organ-on-a-chip models of human intestine have been developed and used to study intesti...