about
A mathematical framework for the registration and analysis of multi-fascicle models for population studies of the brain microstructure.Diffusion tensor imaging and related techniques in tuberous sclerosis complex: review and future directions.Improved fidelity of brain microstructure mapping from single-shell diffusion MRI.Parametric representation of multiple white matter fascicles from cube and sphere diffusion MRI.Loss of white matter microstructural integrity is associated with adverse neurological outcome in tuberous sclerosis complexTubers are neither static nor discrete: Evidence from serial diffusion tensor imaging.Impaired language pathways in tuberous sclerosis complex patients with autism spectrum disordersSuper-resolution reconstruction to increase the spatial resolution of diffusion weighted images from orthogonal anisotropic acquisitions.WHOLE BRAIN GROUP NETWORK ANALYSIS USING NETWORK BIAS AND VARIANCE PARAMETERS.Agentification of Markov model-based segmentation: application to magnetic resonance brain scans.Assessing the validity of the approximation of diffusion-weighted-MRI signals from crossing fascicles by sums of signals from single fascicles.Towards microstructure fingerprinting: Estimation of tissue properties from a dictionary of Monte Carlo diffusion MRI simulationsA Framework for the Analysis of Diffusion Compartment Imaging (DCI)Symmetric block-matching registration for the distortion correction of Echo-Planar imagesAutomatic delineation of white matter fascicles by localization based upon anatomical spatial relationshipsInterpolating multi-fiber models by Gaussian mixture simplificationRetrospective local artefacts detection in diffusion-weighted images using the Random Sample Consensus (RANSAC) paradigmSuper-Resolution Reconstruction of Diffusion-Weighted Images from Distortion Compensated Orthogonal Anisotropic AcquisitionsToward an accurate multi-fiber assessment strategy for clinical practiceWhy multiple b-values are required for multi-tensor models. evaluation with a constrained log-euclidean modelVolumetric Analysis of the Basal Ganglia and Cerebellar Structures in Patients with Phelan-McDermid SyndromeLongitudinal Effects of Everolimus on White Matter Diffusion in Tuberous Sclerosis ComplexCorpus Callosum White Matter Diffusivity Reflects Cumulative Neurological Comorbidity in Tuberous Sclerosis ComplexMotion-Robust Reconstruction based on Simultaneous Multi-Slice Registration for Diffusion-Weighted MRI of Moving Subjects
P50
Q30695519-96D7301A-FF9B-4EFF-8DCA-8ABCE9DEDAD4Q30747071-9668EE98-0E04-487A-8A2C-6A925FD82296Q31015808-151A1087-A191-4AA4-B70F-B0907E2C3AF7Q34493676-5759D02F-70B1-487A-9784-E86E3A748A91Q35932685-156EF140-3459-4700-A42F-8F2C69F54625Q36272252-F667AB9D-B182-4FE5-A67A-C465C9F924C7Q36904276-4D4549CF-5AE0-4D20-B410-E9AA852D43D8Q41976662-F01D752E-944A-4E1C-A5F9-83E37E4F7E3CQ42264416-9A461321-ECDF-4DF8-BC19-1DE4EB5D9830Q47289541-76BA0ACE-62DA-4FA9-9014-0C28BC0E2538Q48619117-DBED55A9-52EB-43CE-8724-B7A798C64944Q57064205-00E71DDC-83D6-446C-BDF5-E983003E3165Q57241850-6460EFE2-36D3-4AB9-A866-F89CD94001DEQ57241865-57466CF4-FF56-44AE-9F6E-05BD0D08E2E5Q57241875-519D2546-A3BE-4E1A-9F65-0CBE4D2C08B1Q57241893-194809AA-9B30-4D1E-A3F1-A36231FB2A4BQ57241906-4B80EF1C-F02B-4CE1-A385-B314FE9AC8E1Q57241909-800A8248-62B5-4295-964A-73FF6C2ED2C9Q57241942-52C128F2-7FEA-4B74-81F7-C7769C24F2F0Q57241961-8E57526F-944C-4174-B8D9-3352727FC419Q58553226-CE7FBC66-DA8D-46FD-8236-2F1D112230A1Q63614877-0AF2E819-D22C-4E87-B554-105BF6F21F80Q89231705-78F8935D-AE9F-444A-9D39-9D849E685B02Q89925187-691CE808-AA1B-45B0-9B87-F6C3E1D721BF
P50
description
researcher ORCID ID = 0000-0002-8798-8562
@en
wetenschapper
@nl
name
Benoit Scherrer
@ast
Benoit Scherrer
@en
Benoit Scherrer
@es
Benoit Scherrer
@nl
type
label
Benoit Scherrer
@ast
Benoit Scherrer
@en
Benoit Scherrer
@es
Benoit Scherrer
@nl
prefLabel
Benoit Scherrer
@ast
Benoit Scherrer
@en
Benoit Scherrer
@es
Benoit Scherrer
@nl
P106
P2456
P31
P496
0000-0002-8798-8562