Sort by
Refine Your Search
-
cutting-edge models and methodologies, with particular emphasis on sex-specific effects, fibrosis, and arrhythmogenesis. The lab integrates expertise in stem cells, exosomes, and cardiac arrhythmias
-
tools to analyse and study microglia phenotype, function and dysfunction. If you are up for a technological challenge to address key biological questions, this project could be a perfect fit for you
-
, human stem cell biology, and basic virology. We develop and use cutting edge human pluripotent stem cell (hPSC) technology to establish human in vitro disease models to study neuroinflammation in human
-
projects within the section, enhance collaboration and contribute to an innovative environment for a diverse group of people and ideas. Do you want to know more about our work? Check out our page with news
-
The Technical University of Denmark (DTU), the The Novo Nordisk Foundation Center for Stem Cell Medicine (renew) at University of Copenhagen, and Bioneer A/S that aims at developing new in vitro disease models
-
. Implement machine learning models to predict phenotypic outcomes from proteomic and related omics data. Collaborate closely with experimental and computational scientists in the Ralser and Vingron labs
-
and conducting animal experiments. Theoretical and practical knowledge in physiological, morphological, cell and molecular biological analysis techniques, as well as experience in using animal model
-
model checking Develop scalable and robust software for scientific computing. You will be able to contribute both to scientific discovery by analysis of primary data, and to the development of more