Acquisition and analysis of human mesoscopic cortical angioarchitecture using 0.35 mm in vivo whole-brain 7T MRI
Spinoza User Meetings, Spinoza Centre for Neuroimaging, Amsterdam, NL
Spatial phase derivatives: Why/how they might be useful for detecting (f)MRI activity
Layer-fMRI Group Meeting, NIMH, NIH, Bethesda, Maryland, USA
Surveying cortical and subcortical topography through geometric layers and columns using LayNii
Brain in Depth (BID) Conference, Tubingen, Germany
Computing geometric layers and columns across the cortical landscape using LayNii
University of Pennsylvania, Philadelphia, USA
Principles and algorithms into the depths of layers, layerification, and laminar hypothesis testing
Laminar fMRI Course, Athinoula A. Martinos Center for Biomedical Imaging, Boston, USA
Segmentation II: Partial brain methods and quality control
Laminar fMRI Course, Athinoula A. Martinos Center for Biomedical Imaging, Boston, USA
Looking at mesoscopic cortical landscape using in vivo human MRI at 7 T
SSCC (AFNI Group), NIMH, NIH, Bethesda, Maryland, USA
Imaging the mesoscopic cortical landscape at 0.35 mm: New methods to quantify the angioarchitecture in living humans using MRI
NeuroSpin, Paris, France
Mesoscopic Quantification of Cortical Architecture
EUSSN Workshop, Maastricht, Netherlands
Cortical Mesometrics
EUSSN Workshop, Maastricht, Netherlands
Imaging and analysis of the human brain angioarchitecture at 0.35 isotropic resolution using MRI at 7 T
Mayo Clinic, Rochester, Minnesota, USA
Mesoscopic Cortical Landscape at 0.35mm Isotropic Resolution New Analysis and Visualization Methods to Study the Angioarchitecture in Living Humans
CMRR Seminar, University of Minnesota, Minneapolis, USA
Cortical mesometrics: Data acquisition to analysis
CoMMaND Lab, University of Notre Dame, Indianapolis, USA
Vasculature mapping in human superior and inferior colliculus
Diving into the Subcortex Symposium, Amsterdam, NL
Flattening cortex with depth: Two new algorithms for surveying the mesoscopic landscape without surface meshes
Max Planck Institude for Human Cognitive and Brain Sciences, Leipzig, Germany
In vivo quantitative MRI at 0.35 mm isotropic resolution to analyze layers, columns, and vessels of the human visual and auditory cortices
ISMRM Turkish Chapter, Online
7T MRI for auditory neuroscience and 350 micron isotropic resolution imaging to see layers and vessels of the living human brain
Université Catholique de Louvain, Leuven, Belgium
A modern look on measuring the human auditory pathway using in-vivo MRI at 7 and 9.4 Tesla
Max Planck Institude for Empirical Aesthetics, Frankfurt, Germany
Using 7 Tesla MRI to map the auditory pathway structures in living humans
Marburg University, Marburg, Germany
Image fusion through color spaces at 7T MRI for artery and vein segmentation
Brainhack, Magdeburg, Germary