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| [[https://www.sciencedirect.com/science/article/pii/S1053811921004833|Joint super-resolution and synthesis of 1 mm isotropic MP-RAGE volumes from clinical MRI exams with scans of different orientation, resolution and contrast]]. JE Iglesias, B Billot, Y Balbastre, A Tabari, J Conklin, RG Gonzalez, DC Alexander, P Golland, BL Edlow, B Fischl, for the ADNI. Neuroimage, 118206 (2021). * [[https://www.science.org/doi/10.1126/sciadv.add3607|SynthSR: a public AI tool to turn heterogeneous clinical brain scans into high-resolution T1-weighted images for 3D morphometry]]. JE Iglesias, B Billot, Y Balbastre, C Magdamo, S Arnold, S Das, B Edlow, D Alexander, P Golland, B Fischl. Science Advances, 9(5), eadd3607 (2023). If you use the Hyperfine version, please cite this paper as well: * | * [[https://www.arxiv.org|Cortical analysis of heterogeneous clinical brain MRI scans for large-scale neuroimaging studies]]. K Gopiath, DN Greeve, S Das, S Arnold, C Magdamo, JE Iglesias * [[https://www.sciencedirect.com/science/article/pii/S1053811921004833|Joint super-resolution and synthesis of 1 mm isotropic MP-RAGE volumes from clinical MRI exams with scans of different orientation, resolution and contrast]]. JE Iglesias, B Billot, Y Balbastre, A Tabari, J Conklin, RG Gonzalez, DC Alexander, P Golland, BL Edlow, B Fischl, for the ADNI. Neuroimage, 118206 (2021). * [[https://www.science.org/doi/10.1126/sciadv.add3607|SynthSR: a public AI tool to turn heterogeneous clinical brain scans into high-resolution T1-weighted images for 3D morphometry]]. JE Iglesias, B Billot, Y Balbastre, C Magdamo, S Arnold, S Das, B Edlow, D Alexander, P Golland, B Fischl. Science Advances, 9(5), eadd3607 (2023). === General description: === This tool performs recon-all-clinical, the first out-of-the-box cortical surface reconstruction and analysis of brain MRI scans of any modality, contrast and resolution without retraining and fine-tuning. This "Recon-all-like" stream for clinical scans of arbitrary orientation/resolution/contrast is essentially a combination of: * SynthSeg: to obtain an aseg.auto_noCCseg.mgz and to compute a Talairach transform * SynthSR: to have a higher resolution 1mm MPRAGE for visualization * SynthSurfaces: to fit surfaces by predicting the distance maps and reconstructing topologically accurate cortical surfaces === Usage: === Once'''''[[https://surfer.nmr.mgh.harvard.edu/fswiki/FreeSurfer|FreeSurfer]] '''''has been sourced, you can simply run {{{recon-all-clinical}}} on your own data with {{{ recon-all-clinical.sh INPUT_SCAN SUBJECT_ID THREADS [SUBJECT_DIR] }}} where: - INPUT_SCAN: path to an image that will be processed. - SUBJECT_ID: specifies the name or ID of the subject you would like to use. A directory with that name will be created for all the subject's FreeSurfer output. - THREADS (optional): number of CPU threads to use. The default is just 1, so crank it up for faster processing if you have multiple cores! - SUBJECT_DIR: only necessary if the environment variable SUBJECTS_DIR has not been set when sourcing FreeSurfer or if you want to override it. *This stream runs a bit faster than the original recon-all, since the volumetric segmentation is much faster than the iterative Bayesian method in the standard stream* |
recon-all-clinical
This functionality is now available in the developer version of FreeSurfer.
Author: Karthik Gopinath
E-mail: kgopinath[at]mgh[dot]harvard[dot]edu
Please post your questions on this module to the FreeSurfer mailing list at freesurfer[at]nmr.mgh.harvard.edu rather than directly contacting the author.
If you use this package in your analysis, please cite:
Cortical analysis of heterogeneous clinical brain MRI scans for large-scale neuroimaging studies. K Gopiath, DN Greeve, S Das, S Arnold, C Magdamo, JE Iglesias
Joint super-resolution and synthesis of 1 mm isotropic MP-RAGE volumes from clinical MRI exams with scans of different orientation, resolution and contrast. JE Iglesias, B Billot, Y Balbastre, A Tabari, J Conklin, RG Gonzalez, DC Alexander, P Golland, BL Edlow, B Fischl, for the ADNI. Neuroimage, 118206 (2021).
SynthSR: a public AI tool to turn heterogeneous clinical brain scans into high-resolution T1-weighted images for 3D morphometry. JE Iglesias, B Billot, Y Balbastre, C Magdamo, S Arnold, S Das, B Edlow, D Alexander, P Golland, B Fischl. Science Advances, 9(5), eadd3607 (2023).
General description:
This tool performs recon-all-clinical, the first out-of-the-box cortical surface reconstruction and analysis of brain MRI scans of any modality, contrast and resolution without retraining and fine-tuning.
This "Recon-all-like" stream for clinical scans of arbitrary orientation/resolution/contrast is essentially a combination of:
SynthSeg: to obtain an aseg.auto_noCCseg.mgz and to compute a Talairach transform
- SynthSR: to have a higher resolution 1mm MPRAGE for visualization
SynthSurfaces: to fit surfaces by predicting the distance maps and reconstructing topologically accurate cortical surfaces
Usage:
OnceFreeSurfer has been sourced, you can simply run recon-all-clinical on your own data with
recon-all-clinical.sh INPUT_SCAN SUBJECT_ID THREADS [SUBJECT_DIR]
where:
- INPUT_SCAN: path to an image that will be processed.
- SUBJECT_ID: specifies the name or ID of the subject you would like to use. A directory with that name will be created for all the subject's FreeSurfer output.
- THREADS (optional): number of CPU threads to use. The default is just 1, so crank it up for faster processing if you have multiple cores!
- SUBJECT_DIR: only necessary if the environment variable SUBJECTS_DIR has not been set when sourcing FreeSurfer or if you want to override it.
*This stream runs a bit faster than the original recon-all, since the volumetric segmentation is much faster than the iterative Bayesian method in the standard stream*