A new contrast “phase jolt” for analysis of phase-data fMRI reveals strong task-related responses
Multi-slab whole-brain in vivo 0.35 mm human brain at 7 T with low undersampling to validate future acceleration and denoising
Phase jolt: Second spatial derivative of phase images is a new contrast that offers many benefits for SWI type processing
Pial vessel effects through the cortical landscape and across depths on BOLD and VASO signals at 7 T
Mesoscopic intracortical angioarchitecture mapping using BigBrain and in vivo 7 T MRI
Exploring the A1 mesoscopic cortical landscape of BigBrain, AHEAD, and 7T MRI datasets using LayNii
Cake plots: Point cloud rendering is useful to visualize flattened high resolution cortical images
Patch flattening for high resolution topographical surveys of MRI and histology without surface meshes
In vivo human MRI at 0.35 mm reveals up to 15 ms T2* changes within gray matter across depths at 7 T
LayNii: A software suite for layer-fMRI
7T in-vivo human T2* mapping at 350 μm iso. res. using ME-GRE with flow artifact mitigation reveals cortical layers and vessels
Comparison between cytoarchitectonic and MRI based parcellation of the human auditory cortex
9.4T MRI reveals mesoscopic cortical gray matter vasculature
Mapping functional and anatomical connections within the human auditory pathway with ultra-high field MRI
A scalable method to improve outer gray matter boundary segmentation at ultra high field MRI
Cortical fiber orientation mapping using in-vivo 7T diffusion MRI
Using diffusion and functional MRI at 7T to localize primary auditory cortex in-vivo
Application of Aitchison metrics on magnetic resonance imaging data with multiple contrasts at ultra high field field (7 Tesla) to investigate compositional characteristics of brain tissues in living humans
Layer-specific analysis of cortical microstructure using in-vivo 7T diffusion MRI
Investigating functional organization of the auditory pathway with high resolution fMRI
Classification of equiluminant color gratings in the human visual cortex with multi-voxel pattern analysis
Colour categorisation is not lateralised to the left hemisphere: The role of attention on hemifield differences