Fully automated system to monitor temperature and pH in cells culture media, in a non-invasive manner

Unité de recherche

INNOSUISSE

Numéro de projet

13885.1;9 PFLS-LS

Titre du projet

Fully automated system to monitor temperature and pH in cells culture media, in a non-invasive manner

Titre du projet anglais

Fully automated system to monitor temperature and pH in cells culture media, in a non-invasive manner

Textes relatifs à ce projet

	Allemand	Français	Italien	Anglais
Description succincte	-		-
Résumé des résultats (Abstract)	-		-

Catégorie	Texte
Description succincte (Anglais)	Fully automated system to monitor temperature and pH in cells culture media, in a non-invasive manner
Description succincte (Français)	Fully automated system to monitor temperature and pH in cells culture media, in a non-invasive manner
Résumé des résultats (Abstract) (Anglais)	Understanding how the microenvironment impacts stem cell fate is a major challenge in cell biology because stem cells hold great expectations for disease modeling, drug discovery or as a therapeutic tool for regenerative medicine. Therefore, the project aims at 1) developing a non-invasive system automatically monitoring temperature and pH of cell culture microenvironment, and 2) increasing productivity required in many invalidating disease treatments relying on cell culture.
Résumé des résultats (Abstract) (Français)	Understanding how the microenvironment impacts stem cell fate is a major challenge in cell biology because stem cells hold great expectations for disease modeling, drug discovery or as a therapeutic tool for regenerative medicine. Therefore, the project aims at 1) developing a non-invasive system automatically monitoring temperature and pH of cell culture microenvironment, and 2) increasing productivity required in many invalidating disease treatments relying on cell culture.