This program aims to decipher the mechanisms underlying metabolic diseases through molecular and systemic studies, analyse interactions between organ1
The study analyses the trajectory of liver cells responsible for fibrosis to understand how they develop and change during the disease. Conducted usi1
The objective is to deepen the molecular and genomic understanding of various diseases and facilitate patient translation. The program has been funde1
The goal of the KAIROS project, driven by 6 Clínic-IDIBAPS research groups, will be to enhance molecular and genetic knowledge about various diseases1
Pau Sancho-Bru and his team lead the study that links CXCR4 with the process of dedifferentiation of hepatocytes and tissue damage.
Over the next five years, the project DynamHet will study the origin, evolution and function of heterogeneity presented by cancer-associated fibrobla1
IDIBAPS researchers describe, for the first time, the role of ductular reaction in the formation of new blood vessels.
IDIBAPS researchers have published in Nature Protocols the process for the directed differentiation of human induced pluripotent stem cells (iPSCs) i1
