Help to better understand the structural organization of the brain through an identification of the neural connectivity patterns with the help of Diffusion Tensor Imaging and High Angular Resolution Diffusion Imaging.
This INRIA ARC project involves three partners : The INRIA Odyssée project team, the INSERM Imparabl team of the Laboratoire d'Imagerie Fonctionnelle LIF/U678 Faculté de Médecine Pierre et Marie Curie - Hopital Pitié-Salpêtrière and the CENIR : Center for NeuroImaging Research of the Hopital Pitié-Salpêtrière. In this INRIA ARC project, our broad goal is to develop and validate algorithms that will help us to have a better knowledge and better understand the structural organization of the white matter fiber bundles in the human brain and help to identify the neural connectivity patterns with the help of Diffusion Magnetic Resonance Imaging (MRI). Our algorithms will be based on formulations using tensor calculus, partial differential equations, variational methods and differential geometry and will ultimately be useful for clinicians as well as researchers. For example, damage to the basal ganglia leads to movement disorders such dystonia, as well as more cognitive deficits in human.In this project we will help to better understand the anatomical organization and role of the basal ganglia as a prerequisite to the study of their dysfunction in dystonia. Overall, it is expected that the new mathematical methods that will be explored within both DTI (Diffusion Tensor Imaging) and HARDI (High Angular Resolution Diffusion Imaging) schemes could be extremely useful to a wide range of clinical applications related for example to brain ischemia detection stroke, Alzheimer disease, or schizophrenia where Diffusion MRI has already been shown to be particularly relevant.
