Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
innovative techniques to study voiding behavior in mice and measure calcium signals in the bladder’s urothelium, its inner lining. We now aim to combine these methods with optogenetics to explore how sensory
-
, development, function and evolution. Our research combines behavioural, evolutionary and ecological approaches involving longitudinal and experimental field studies as well as controlled experiments performed
-
behavior in mice and measure calcium signals in the bladder’s urothelium, its inner lining. We now aim to combine these methods with optogenetics to explore how sensory signaling in the urothelium affects
-
to the accumulation of lipids in microglia, and how this promotes neurodegeneration. In this project, we aim to elucidate how lipid metabolism controls microglia-neuron interaction. By combining this knowhow, we will
-
project that combines cutting-edge approaches including state-of-the-art imaging techniques, pluripotent stem cell models, in vivo mouse models of neurological disorders, drug (brain) delivery and nanobody
-
mindset of using motors to drive passive structural components by developing innovative materials that combine the structural features and mobility in a single component. These are liquid crystal elastomers
-
question: « what makes our brain human ? » (Vanderhaeghen and Polleux, Nat. Rev. Neurosci. 2023). We combine cutting-edge approaches such as pluripotent stem cell models of human corticogenesis, human-mouse
-
question: « what makes our brain human ? » (Vanderhaeghen and Polleux, Nat. Rev. Neurosci. 2023). We combine cutting-edge approaches such as pluripotent stem cell models of human corticogenesis, human-mouse
-
biopharmaceuticals. The research at CMB pushes the boundaries of biomolecular and bioinformatics research and engineering technologies. VIB.AI studies fundamental problems in biology by combining machine learning with