Y
Y. Mauss
Researcher at Centre national de la recherche scientifique
Publications - 22
Citations - 578
Y. Mauss is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Relaxation (NMR) & Mental image. The author has an hindex of 13, co-authored 22 publications receiving 566 citations.
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Blindness and brain plasticity: contribution of mental imagery?: An fMRI study
TL;DR: For example, this article showed that the primary visual cortex is activated in early blind subjects, and that activation persists in a mental imagery task involving no sensory input other than verbal instructions.
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Distinct patterns of active and non-active plaques using texture analysis on brain NMR images in multiple sclerosis patients: preliminary results
TL;DR: Preliminary work suggests that using texture analysis could be of interest in the follow-up of MS patients because it provides an opportunity to identify active lesions without frequent gadolinium injections.
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Existence of contralateral abnormalities revealed by texture analysis in unilateral intractable hippocampal epilepsy.
TL;DR: Patients with unilateral temporal lobe epilepsy characterized by ipsilateral hippocampal sclerosis and an apparently normal contralateral hippocampus on MR imaging appear to have a certain degree of hippocampal alteration, which further investigation might help better characterize.
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NMR compartmentalization of free water in the perfused rat heart.
TL;DR: Spin‐lattice (T1) and spin‐spin (T2) relaxation times have been measured on perfused rat hearts under two experimental conditions and a difference could be useful to enhance the contrast between organs and the surrounding liquid or between organs with different water compartmentalization.
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Neural substrates of animal mental imagery: calcarine sulcus and dorsal pathway involvement--an fMRI study.
TL;DR: This mental imagery generation protocol shows the importance of the design of experimental tasks on anatomo-functional responses, and restricting the stimuli to a single semantic category (animals) and increasing the time dedicated to the production of MI, may have enhanced the components of the pictures.