Das Department for BioMedical Research DBMR hat sich zum Ziel gesetzt, Bottom-up-Initiativen zu fördern, die eine Zusammenarbeit einzelner Forschungsgruppen innerhalb des DBMR oder mit Gruppen ausserhalb des DBMR bezwecken. Forschungsgruppen haben die Möglichkeit, Forschungsclusters zu bilden für deren gemeinsamen Aktivitäten das DBMR Sichtbarkeit und logistische Unterstützung zur Verfügung stellen.
Cluster für Regenerative Neurowissenschaft (nur in Englisch)
The interdisciplinary collaboration between five research groups of the University of Bern was inspired by the emerging field of stem cell research, which offers interesting new therapeutic options for a variety of disorders of the brain and the sensory organs of the head.
Cluster "Signal Transduction in Disease" (nur in Englisch)
Intracellular signal transduction pathways are often deregulated in major human diseases, such as cancer, cardiovascular diseases, inflammation and diabetes. The study of intracellular signal transduction can lead to a better understanding of the molecular mechanisms underlying human diseases and identify novel drug targets to develop new therapeutic approaches.
Cluster for Lung Development, Regeneration and Respiratory Diseases (nur in Englisch)
The history of lung research in Bern dates back to the early 1960’s beginning with the pioneering work of Ewald Weibel, a prominent Swiss lung morphologist and biomedical researcher. Weibel’s seminal work elucidating the relationship between lung microstructure and function built the foundation for an expanded network of research groups presently at the University of Bern dedicated to respiratory research.
Cluster for Cardiovascular Research (nur in Englisch)
As cardiovascular disease is the leading cause of death globally, a greater understanding of cardiovascular physiology and pathophysiology is of utmost importance. Consequently, several teams of the Department for BioMedical Research (DBMR) and the University of Bern (UniBE) are actively involved in research concerning the function of the heart, arteries and veins, as well as the underlying mechanisms, in healthy and disease states. This research ranges from fundamental biochemical science to pre-clinical and clinical studies, and thereby relies on a multitude of experimental models.