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1 cze 2003 · The concept of dMRI is to produce MRI-based quantitative maps of microscopic, natural displacements of water molecules that occur in brain tissues as part of the physical diffusion process.
18 kwi 2018 · These models have contributed to bridge the gap between anatomy and brain dynamics by making inferences to what extent the anatomical configuration predicts neural dynamics, for instance by comparing simulated functional connectivity with empirical one.
We describe this unique fluid system of the brain, which meets the brain’s requisites to maintain homeostasis similar to peripheral organs, considering the blood-brain-barrier and the paths for formation and egress of the CSF.
The driving force of dMRI is to monitor microscopic, natural displacements of water molecules that occur in brain tissues as part of the physical diffusion process. Water molecules are thus used as a probe that can reveal microscopic details about tissue architecture, either normal or in a diseased state.
6 paź 2021 · To identify consistent associations between structural and functional connectivity and possible impacts for the clinic, we reviewed the literature of combined recordings of electro-encephalography (EEG) and diffusion-based magnetic resonance imaging (MRI).
16 wrz 2021 · Flow of cerebral ISF (Q ISF) and CSF (Q CSF) is depicted in green, while the cerebral vascular circulation is depicted in red. The intracranial compartments are represented by the capacitors C BR (orange), C VEN (green), and C SAS (purple) for brain, ventricles, and subarachnoid space, respectively.
1 cze 2012 · The driving force of dMRI is to monitor microscopic, natural displacements of water molecules that occur in brain tissues as part of the physical diffusion process. Water molecules are thus used as a probe that can reveal microscopic details about tissue architecture, either normal or in a diseased state.
