Volunteers Wanted
We want our research to have an impact. That is why we aim to make our research results useful for society as a whole, shaping our own work based on social impetus. We attach great importance to close cooperation with outside research partners and partners from industry so that our findings can be applied to improve people's lives in the long term.
MEDICAL IMAGING PHYSICS (INM-4)
The research and development activities of our research groups in the Medical Imaging Physics division (INM-4) of the Institute of Neuroscience and Medicine focus on the development, experimental validation and the clinical implementation of novel brain imaging methods.
Head of Institute: Univ.-Prof. Dr. Dr. h.c. N. J. Shah
Volunteers wanted
NEWS
RECENT PUBLICATIONS
13th May 2024 - Insights into Brain Microstructure Changes Across Lifespan
5th April 2024 - New Study Reveals Improved Dead Time Correction in PET Brain Imaging
15th February 2024 - AI-Assisted PET Imaging Identifies Hidden Brain Tumour Lesion
8th February 2024 - Review of Submillimetre fMRI Acquisition Techniques for the Detection of Laminar and Columnar Level Brain Activation
8th January 2024 - New Butterfly Coil Demonstrates Improved Signal Quality
9th November 2023- Improved detection of brain tumours
20th Sept 2023 - Advancements in Neural Fingerprinting for Brain Research
12th Sept 2023 - Study reveals insights into emotion processing in the brain
2nd June 2023 - Correction strategies for tissue voxel composition in single-voxel MRS: application in the quantification of the neurochemical profile of the human putamen
18th May 2023 - Using whole-brain laminar fMRI to investigate new dimensions of the human neocortex
15th May 2023 - Using project-oriented RF coil design to optimise MR images
10th April 2023 - Visuo-spatial processing is linked to cortical glutamate dynamics in Parkinson’s disease
14th February 2023 - A review of parallel transmit arrays for ultra-high field MR imaging
9th February 2023 - How framing scheme optimisation and smoking status impacts binding potential analysis in dynamic PET with [11C]ABP688