Extracellular vesicles: a new tool for diagnostic and therapeutic application in kidney diseases
Associate Professor of Laboratory Medicine Dept. of Molecular Biotechnology and Health Sciences, Università degli Studi di Torino
Host: Marcel·la Franquesa
Date and time: | 15.00-16.00
Venue: Salal Polivalent, IGTP Mar
To meet Dr Bussolati please contact Dr Franquesa (mfranquesa(ELIMINAR)@igtp.cat)
This meeting is in the Sala Polivalent, IGTP Muntanya. A link to follow online will be provided nearer the time.
Mini Biography Professor Benedetta Bussolati
Prof. Benedetta Bussolati obtained her medical degree at the University of Torino (Italy) and her PhD on Physiopathology of the Renal Insufficiency at the University of Parma (Italy). She currently holds the position of. Associate Professor of Laboratory Medicine at the University of Torino and director of a Research group at the Molecular Biotechnology Centre. She acquired a strong background on renal pathophysiology, on angiogenesis and on the mechanisms of renal damage and progression. In addition, she has extensive experience in studies of stem cell biology and regenerative medicine that include characterization of various stem cell types and their potential use for tissue regeneration. Actual interests focus on the role of stem cell-derived extracellular vesicles (EVs) in regenerative medicine as therapeutic tool, to induce cell reprogramming and modulate angiogenesis and renal repair. She is deeply involved in the EV community, being President of the Italian Society of Extracellular Vesicles (EVIta).
Prof. Bussolati has coauthored >170 articles, H-factor: 46.
Due to the pandemic, everybody is asked to sign up here. People wanting to attend online will receive the link on Monday morning
The Campus Can Ruti Biomedical Seminars series provides an opportunity for prestigious international speakers to visit the Can Ruti Campus, explain their own research and talk to researchers. The visits include mentoring sessions for young students and other activities. This session has been made possible by the collaboration of