Objective
Neurological disorders have emerged as a significant global societal burden, exemplified by afflictions like Alzheimer's and Parkinson's, impacting over one billion individuals globally and surpassing the combined economic burden of cancer and diabetes. This has spurred a concerted global effort, with increased support for neuroscience research. These disorders often target deep brain regions and profoundly influence the structural connectivity of neuronal cells within functional circuits. Synapses, where neurons exchange information, exhibit plasticity, altering information transmission efficiency, shape, and position. Understanding the mechanisms underlying these structural changes, especially in neuronal circuits, remains limited in both healthy and affected individuals. The ERC PoC project STEDGate seeks to advance our understanding of neuronal connectivity and plasticity by developing STED-enabled holographic endo-nanoscopy for neuroscience. This ground-breaking technology promises atraumatic nanoscale in-vivo imaging of deep brain structures reaching depths up to 5 mm beneath the brain's surface. Collaborating with the start-up endeavour DeepEn, the team aims to facilitate the commercial transition of this technology. Making deep-tisue nanoscopy available globally will revolutionize our ability to monitor and understand neurological disorders and, ultimately, offer new avenues for intervention and treatment..
Fields of science
Keywords
Programme(s)
- HORIZON.1.1 - European Research Council (ERC) Main Programme
Funding Scheme
HORIZON-ERC-POC - HORIZON ERC Proof of Concept GrantsHost institution
07745 Jena
Germany