Maxime Chamberland
Maxime Chamberland
Assistant Professor in Data Visualization, Technical University Eindhoven
Verified email at - Homepage
Cited by
Cited by
The challenge of mapping the human connectome based on diffusion tractography
KH Maier-Hein, PF Neher, JC Houde, MA Côté, E Garyfallidis, J Zhong, ...
Nature communications 8 (1), 1349, 2017
Limits to anatomical accuracy of diffusion tractography using modern approaches
KG Schilling, V Nath, C Hansen, P Parvathaneni, J Blaber, Y Gao, ...
Neuroimage 185, 1-11, 2019
Tractography dissection variability: What happens when 42 groups dissect 14 white matter bundles on the same dataset?
KG Schilling, F Rheault, L Petit, CB Hansen, V Nath, FC Yeh, G Girard, ...
Neuroimage 243, 118502, 2021
Collaborative patch-based super-resolution for diffusion-weighted images
P Coupé, JV Manjón, M Chamberland, M Descoteaux, B Hiba
NeuroImage 83, 245-261, 2013
Mapping population-based structural connectomes
Z Zhang, M Descoteaux, J Zhang, G Girard, M Chamberland, D Dunson, ...
NeuroImage 172, 130-145, 2018
Dimensionality Reduction of Diffusion MRI Measures for Improved Tractometry of the Human Brain
M Chamberland, EP Raven, S Genc, K Duffy, M Descoteaux, GD Parker, ...
Neuroimage 200, 89-100, 2019
Real-time multi-peak tractography for instantaneous connectivity display
M Chamberland, K Whittingstall, D Fortin, D Mathieu, M Descoteaux
Frontiers in Neuroinformatics, 0, 2014
Impact of b‐value on estimates of apparent fibre density
S Genc, CMW Tax, EP Raven, M Chamberland, GD Parker, DK Jones
Human brain mapping 41 (10), 2583-2595, 2020
Tractostorm: The what, why, and how of tractography dissection reproducibility
F Rheault, A De Benedictis, A Daducci, C Maffei, CMW Tax, ...
Human brain mapping 41 (7), 1859-1874, 2020
Active delineation of Meyer's loop using oriented priors through MAGNEtic tractography (MAGNET)
M Chamberland, B Scherrer, SP Prabhu, J Madsen, D Fortin, ...
Human brain mapping 38 (1), 509-527, 2017
Computing and visualising intra‐voxel orientation‐specific relaxation–diffusion features in the human brain
JP de Almeida Martins, CMW Tax, A Reymbaut, F Szczepankiewicz, ...
Human brain mapping 42 (2), 310-328, 2021
Detecting microstructural deviations in individuals with deep diffusion MRI tractometry
M Chamberland, S Genc, CMW Tax, D Shastin, K Koller, EP Raven, ...
Nature Computational Science 1, 598–606, 2021
3D interactive tractography-informed resting-state fMRI connectivity
M Chamberland, M Bernier, D Fortin, K Whittingstall, M Descoteaux
Frontiers in neuroscience 9, 275, 2015
Multimodal principal component analysis to identify major features of white matter structure and links to reading
BL Geeraert, M Chamberland, RM Lebel, C Lebel
PloS one 15 (8), e0233244, 2020
Measuring compartmental T2-orientational dependence in human brain white matter using a tiltable RF coil and diffusion-T2 correlation MRI
CMW Tax, E Kleban, M Chamberland, M Baraković, U Rudrapatna, ...
Neuroimage 236, 117967, 2021
Using fMRI non-local means denoising to uncover activation in sub-cortical structures at 1.5 T for guided HARDI tractography
M Bernier, M Chamberland, JC Houde, M Descoteaux, K Whittingstall
Frontiers in human neuroscience 8, 715, 2014
Meyer's loop tractography for image-guided surgery depends on imaging protocol and hardware
M Chamberland, CMW Tax, DK Jones
NeuroImage: Clinical 20, 458-465, 2018
On the origin of individual functional connectivity variability: The role of white matter architecture
M Chamberland, G Girard, M Bernier, D Fortin, M Descoteaux, ...
Brain connectivity 7 (8), 491-503, 2017
The challenge of mapping the human connectome based on diffusion tractography. Nat Commun 8: 1349
KH Maier-Hein, PF Neher, JC Houde, MA Côté, E Garyfallidis, J Zhong, ...
Resolving bundle-specific intra-axonal T2 values within a voxel using diffusion-relaxation tract-based estimation
M Barakovic, CMW Tax, U Rudrapatna, M Chamberland, J Rafael-Patino, ...
Neuroimage 227, 117617, 2021
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