KUL_NIS provides tools:
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for conversion of dicom data to BIDS format of
- T1w (with and without Gd)
- T2w
- FLAIR
- PDw
- FGATIR
- DIR (double inversion recovery, in development)
- ASL (not fully BIDS compatible yet)
- MTR
- fMRI
- dMRI
- QSM (in development)
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for analysis of
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fMRI data
- using fmriprep
- resting stat analysis using FSL melodic
- task based fMRI
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diffusion MRI data
- preprocessing using mrtrix3
- coregistration to T1w data using synb0-disco and/or Ants
- normalisation to MNI space using fmriprep
- group fixel based analysis in group template space
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myelin markers such as:
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MRT (magnetisation transfer ratio)
- T1/T2 and T1/FLAIR ratio's
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structural data
- coregistration of data to the T1w without Gd
- Freesufer parcellation
- FastSurfer parcellation
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to work easily with KUL_VBG
- a pipeline that enables to run Freesurfer and FastSurfer in patients with (large) brain lesions (tumour/stroke)
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to work easily with KUL_FWT
- an automated csd probabilistic tractography pipeline
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for conversion of the output of pipelines back to DICOM for use in:
- Brainlab Neurosurgery format using Karawun
- conversion of results for import into a general pacs using a MevisLab interface
All scripts (only) work with BIDS data.
Note that some output data of the analysis pipelines can be converted back to dicom for import into a PACS system (see above).
The pipelines used should work fine with healthy volunteer data, but are being implemented for use with clinical data (tumors, stroke, MS, PD) but have not yet been tested fully with clinical data.
Any use in a clinical environment is off-label, not FDA aproved, not CE-labeled or approved. Also see the license file please.
Converts dicom data to BIDS format for multipule MRI vendors. Provides slice-timing, total-readout-time, phase encoding direction & other data for Philips scanners (which is automatically defined for Siemens and GE scanners). Click the link in the header above for more information.
KUL_dcm2bids to convert multiple datasets at once.
Provides output of multiple parameters of a BIDS dataset, including acquisition date, scanner software verion, etc... readable in google sheets, excel, etc...
This script allows to start an fmriprep analysis with a config file. See
This script will run an automated analysis using SPM12 of a standard blocked design active fMRI data with a paradigm using 30 seconds BASELINE followed by 30 seconds TASK epochs, after these have been preprocessed with fmriprep.
This script will run an automated analysis using FSL melodic on active and resting-state fMRI data, after these have been preprocessed with fmriprep.
Dr. Ahmed Radwan - KUL - [email protected]
Prof. Dr. Stefan Sunaert - UZ/KUL - [email protected]