About the VHIR
Here at the Vall d'Hebron Research Institute (VHIR) we promote biomedical research, innovation and teaching. Over 1,800 people are seeking to understand diseases today so the treatment can be improved tomorrow.
Research
We are working to understand diseases, to find out how they operate and to create better treatments for patients. Get to know about our groups and their lines of research.
People
People are the centre of the Vall d'Hebron Research Institute (VHIR). This is why we are bound by the principles of freedom of research, gender equality and professional attitudes that HRS4R promotes.
Clinical trials
Our work is not just basic or translational; we are leaders in clinical research. Enter and find about the clinical trials we are conducting and why we are a world reference in this field.
Progress
Our aim is to make the research carried out at the Vall d’Hebron Research Institute (VHIR) a driving force for transformation. How? By identifying new channels and solutions for the promotion of people's health and well-being.
Core facilities
We offer specialist support for researchers, internal and external alike, ranging from specific services to preparing complete projects. All this, from a perspective of quality and speed of response.
News
We offer you a gateway for staying up to date on everything going on at the Vall d’Hebron Research Institute (VHIR), from the latest news to future solidarity activities and initiatives that we are organising.
Speaker: Octavio Alfredo Romero Ferraro, principal investigator cancer epigenetics and Biology Program - Josep Carreras Research Institute (IJC)
In Pediatric cancer, the traditional cytotoxic therapeutic approaches are always a compromise between treatment efficacy and the risk of developing severe secondary effects, including new tumours during the adulthood. Our previous study demonstrates that SMARCA4 is necessary to regulate the demethylase activity of H3K27me3 in cancer, we discover that the inhibition of KDM6A/B is lethal specifically in SMARCA4 deficient tumors. This discovery implicates a new synthetic lethality, in which inactivating mutations in SWI/SNF members could sensitize cancer cells to specific epigenetic inhibitors affecting pediatric tumours.
Host: Miguel Segura Ginard, main researcher Childhood Cancer and Blood Disorders (VHIR)
