đź”— To the original publication: t1p.de/snxu5
#Type1Diabetes #EarlyDetection #DiabetesResearch #Fr1daStudy #AWorldWithout1
AI Model Makes Developmental Paths of Cells Traceable
An international research team, led by Prof. Fabian Theis, #HelmholtzMunich & @tum.de, has developed #RegVelo, an #AI-based model that can reconstruct developmental paths of cells.
👉 t1p.de/r6wgl
#VirtualCell
10 Years of Fr1da: Early Detection of Type 1 Diabetes in Children is Broadly Feasible đź‘Ź
Since 2015, the #Fr1da study, coordinated by #HelmholtzMunich, has screened more than 220,000 children in Bavaria for early-stage type 1 diabetes through routine pediatric care.
👉 t1p.de/ulduc
@tum.de
👏 Prof. Stephan Herzig (#HelmholtzMunich) receives the 2026 Friedrich Arnold Gries Award from the #DDG for research on #FastingMetabolism and #diabetes complications. Prize sponsored by Boehringer Ingelheim. 🏅
👉 t1p.de/audvn
@diabresearch-dzd.bsky.social
đź”—To the original publication: t1p.de/45lay
#AI #ObesityResearch #DigitalHealth #BiomedicalAI #vDISCO #AIforHealth #FoundationModels
@lmu.de @dorie00.bsky.social
@comphealthmunich.bsky.social @diabresearch-dzd.bsky.social @unileipzig.bsky.social @synergy-munich.bsky.social
đź‘Ź Prof. Michele Solimena has received the Paul Langerhans Medal, the highest scientific honor of the German Diabetes Society (DDG), in recognition of his outstanding contributions to diabetes research.
👉 t1p.de/uoqki
@diabresearch-dzd.bsky.social @tudresden.bsky.social
AI Atlas Reveals Hidden Whole-Body-Damage Caused by Obesity
Researchers around Prof. Ali Ertürk, #HelmholtzMunich, developed #MouseMapper – an #AI framework that maps disease-related changes throughout the entire mouse body at cellular resolution.
👉 t1p.de/svfv0
@erturklab.bsky.social
#M1 Launches First Funding Period & Advances Translation in Munich🚀
Seven projects receive €7.45 million through the M1 – Munich Medicine Alliance.
#HelmholtzMunich is involved in four funded projects.
👉 t1p.de/disle
@tum.de @lmu.de @boyanbonev.bsky.social @erturklab.bsky.social
#MunichMedicine
Ultra Broadband 150 MHz Fiber Sensor Pushes the Limits of Optoacoustic Imaging
The approach could support earlier disease detection, improved diagnostics & minimally invasive applications such as endoscopy.
👉 Original publication: t1p.de/dmkpn
@tum.de @munichimaging.bsky.social
