about
The role of tissue microstructure and water exchange in biophysical modelling of diffusion in white matterOptimal experimental design for filter exchange imaging: Apparent exchange rate measurements in the healthy brain and in intracranial tumorsQuantification of microscopic diffusion anisotropy disentangles effects of orientation dispersion from microstructure: applications in healthy volunteers and in brain tumors.NMR diffusion-encoding with axial symmetry and variable anisotropy: Distinguishing between prolate and oblate microscopic diffusion tensors with unknown orientation distribution.Extrapolation-Based References Improve Motion and Eddy-Current Correction of High B-Value DWI Data: Application in Parkinson's Disease Dementia.Accuracy of q-space related parameters in MRI: simulations and phantom measurements.In vivo visualization of displacement-distribution-derived parameters in q-space imaging.Diffusion-weighted MRI measurements on stroke patients reveal water-exchange mechanisms in sub-acute ischaemic lesions.Dimensionality reduction of fMRI time series data using locally linear embedding.Evaluating the accuracy and precision of a two-compartment Kärger model using Monte Carlo simulations.Apparent exchange rate mapping with diffusion MRI.Noninvasive mapping of water diffusional exchange in the human brain using filter-exchange imaging.Diffusion MRI microstructure models with in vivo human brain Connectome data: results from a multi-group comparison.Regional values of diffusional kurtosis estimates in the healthy brain.Diffusion tensor tractography versus volumetric imaging in the diagnosis of behavioral variant frontotemporal dementia.Constrained optimization of gradient waveforms for generalized diffusion encoding.Conventions and nomenclature for double diffusion encoding NMR and MRI.Diffusion Kurtosis Imaging of Gliomas Grades II and III - A Study of Perilesional Tumor Infiltration, Tumor Grades and Subtypes at Clinical Presentation.Liquid crystal phantom for validation of microscopic diffusion anisotropy measurements on clinical MRI systems.Neurite density imaging versus imaging of microscopic anisotropy in diffusion MRI: A model comparison using spherical tensor encoding.Resolution limit of cylinder diameter estimation by diffusion MRI: The impact of gradient waveform and orientation dispersionQ-space trajectory imaging for multidimensional diffusion MRI of the human brain.The effect of white matter hyperintensities on statistical analysis of diffusion tensor imaging in cognitively healthy elderly and prodromal Alzheimer's disease.Variability in diffusion kurtosis imaging: impact on study design, statistical power and interpretation.The link between diffusion MRI and tumor heterogeneity: Mapping cell eccentricity and density by diffusional variance decomposition (DIVIDE).On the effects of a varied diffusion time in vivo: is the diffusion in white matter restricted?Imaging brain microstructure with diffusion MRI: practicality and applications.Alteration of putaminal fractional anisotropy in Parkinson's disease: a longitudinal diffusion kurtosis imaging study.Intravoxel incoherent motion (IVIM) imaging at different magnetic field strengths: what is feasible?Can resting-state functional MRI serve as a complement to task-based mapping of sensorimotor function? A test-retest reliability study in healthy volunteers.Glioma Grade Discrimination with MR Diffusion Kurtosis Imaging: A Meta-Analysis of Diagnostic Accuracy.Imaging brain tumour microstructureMapping of apparent susceptibility yields promising diagnostic separation of progressive supranuclear palsy from other causes of parkinsonismMeasurement tensors in diffusion MRI: generalizing the concept of diffusion encodingCumulant expansions for measuring water exchange using diffusion MRIRegional structural hypo- and hyperconnectivity of frontal-striatal and frontal-thalamic pathways in behavioral variant frontotemporal dementiaTensor-valued diffusion MRI in under 3 minutes: an initial survey of microscopic anisotropy and tissue heterogeneity in intracranial tumorsTowards unconstrained compartment modeling in white matter using diffusion-relaxation MRI with tensor-valued diffusion encodingDiffusion Tensor MRI to Distinguish Progressive Supranuclear Palsy from α-SynucleinopathiesMotion-compensated b-tensor encoding for in vivo cardiac diffusion-weighted imaging
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Q26996452-4E2744F4-6320-4536-B2A4-95B366C434D5Q30489078-0609E6D9-0E26-443D-A988-06726F9754DEQ30857452-04579AE5-5182-4880-9AAE-CA6E153624D4Q30909827-2A4B83C1-6812-4835-855F-67A1D4511E7DQ31015635-4A7F87EB-000E-49FC-83C6-D78D025BC38EQ31137874-8DD399F6-B565-4B99-8235-27A387AAB4F3Q33288374-4F100578-70AE-4623-BAC7-293F1BF4DD7EQ33420573-BAE6C6FE-2F2B-4910-A4B6-63C8552DADC0Q33540707-535B2E63-AD15-4AEC-B6D4-9FB504A17587Q33623136-EEA42252-9872-49F4-A85B-468CAD1CB0D7Q33857274-70EE54F3-30ED-4693-A117-F3A03F8C09E9Q34353471-DD387945-CF66-4AE2-8959-800F14D5ED9CQ36413092-F5C1239D-E070-4B11-A89C-3B058880273BQ36682903-5DA3E893-5CD2-4A9D-A729-098D715D1B14Q37024895-635E0B86-AF73-4B75-B072-DC12FCE4B5FCQ38394195-172F8F50-A5FF-40DB-B31A-FD17A9D7FF81Q38595079-024EFF0B-953F-46D0-9229-CA1388F6FDFCQ38663402-3C8EE978-983E-4343-BAF7-D30D80B4B411Q38689297-FBEE8B8C-5CA1-444B-98CC-90EEA110F81CQ39141832-46E6ACFA-5727-4F24-AE8B-DE2F95255790Q41039996-2E9B7906-9121-4CD1-A3F2-D5970AEF48DAQ42134525-2E201BFC-C40B-4CA4-950A-CC42C5E1583EQ42362165-FDA1C70E-131D-441D-B7DF-A0B8D4100E0FQ44780347-AC8BE1B6-DC6C-484A-909F-900174B7BC51Q45352785-46230E37-06EB-4ED4-A58B-90322D10D05AQ47428455-B0615498-F32A-40D2-9F3C-510D7018777DQ47591754-2E3BD6E0-76E6-4967-B6FE-571A56ABB5C5Q48170789-14899E90-6597-4639-A468-6971892B3C70Q48612599-BFEEF0A9-9769-4EFF-87A3-8264FED20165Q49045669-113FD349-B04B-44BD-8E15-24CFA025070FQ50068451-8D6F3C4E-5D51-4885-8E43-AF9CB52CBA58Q60729929-19B9C544-6CA1-4458-9CAA-00096738BA77Q64115567-197E2BB3-7356-43B1-A49A-F965E390E0F6Q85805689-80EEA7B9-178F-4C8D-B152-AACD8A561898Q87852616-F58D2342-032F-42C3-8046-31B331A7D399Q89163872-5EA117D5-9C03-43E2-B029-B7F4F2C02E5AQ90090776-B3F229A9-CCCF-4BC7-9495-188F104187D0Q90102257-FA07D150-CF8B-4035-95EB-E69E2876C7C0Q90742217-C1DA2185-CD3E-456D-93A5-911A2670C688Q91437940-3E06E072-80D6-437F-9072-335736937D9C
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Markus Nilsson
@ast
Markus Nilsson
@en
Markus Nilsson
@es
Markus Nilsson
@nl
Markus Nilsson
@sl
type
label
Markus Nilsson
@ast
Markus Nilsson
@en
Markus Nilsson
@es
Markus Nilsson
@nl
Markus Nilsson
@sl
prefLabel
Markus Nilsson
@ast
Markus Nilsson
@en
Markus Nilsson
@es
Markus Nilsson
@nl
Markus Nilsson
@sl
P1053
C-6920-2012
P106
P1153
10340118900
P21
P31
P4012
P496
0000-0002-3140-8223