From acquired MRI images, we calculate and analyze quantitative MRI maps, which aim to provide exact measurements of biophysical quantities. For this task, we employ advanced image processing algorithms to account for biases, enhance spatial alignment, and combine different scans into so-called multi-parametric maps. Advanced machine learning methods help us to develop new ways to correct for artifacts that are hard to tackle with conventional image processing methods.

Transverse relaxation parameters are quantified in vivo for different cortical structures of the human brain at ultra-high field strength. more

Embedded in the clinical trial NISCI (Nogo inhibition in spinal cord injury:, we employ whole brain quantitative imaging at 3 Tesla as a new biomarker for de- and regeneration. more

We work on improving reliability of quantitative parametric maps by correcting for rigid head motion and B0-fluctuations measured during acquisition at 7T as well as by employing general function approximators to correct for artifacts of unknown origin at 3T. more

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