Chun-Hung Yeh1,2, Denis Le Bihan1,
Jing-Rebecca Li1, Jean-Francois Mangin1, Ching-Po Lin2,
Cyril Poupon1
1NeuroSpin, I2BM, CEA, Gif-sur-Yvette,
France; 2National Yang-Ming University, Taipei, Taiwan
We
develop a novel Monte-Carlo simulation tool dedicated to DW MR experiments by
combining a Brownian dynamics simulator capable of simulating water diffusion
in arbitrary geometries reproduced using meshes with a DW signal integrator
emulating various MR pulse sequences. Complicated configurations mimicking
neural tissue components (e.g. neurons) can be emulated, as well as tissue
features (e.g. membrane permeability) and basic diffusion mechanisms in
different compartments. This framework allows to bridge the gap between
elementary processes and the resulting DW signal, providing a better
understanding of the features observed in DW-MRI (e.g. ADC), and to optimize
acquisition schemes for different applications.