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| FreeSurfer is a versatile set of software tools that will help you analyze your structural and functional MRI data of the brain. It is comprised of several components -- user interfaces, graphical displays, and executable commands. | !FreeSurfer is a freely available software package developed by investigators at the [http://www.nmr.mgh.harvard.edu: Athinoula A. Martinos Center for Biomedical Imaging] used for a number of procedures including: 1. Creation of computerized models of the brain from magnetic resonance imaging (MRI) data [RECON link here] |
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| A handy overview of the major processing steps taking place in a standard FreeSurfer workflow are described in this pdf slide presentation: [http://surfer.nmr.mgh.harvard.edu/docs/ftp/pub/docs/FSL_anatomical_stream.pdf Building Anatomical Models with Freesurfer]. | 2. Processing of functional magnetic resonance imaging (fMRI) data [FSFAST link here] |
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| '''MRI Parameters''' | 3. Measuring a number of morphometric properties of the brain including cortical thickness and regional volumes [THICKNESS wiki link] |
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| FreeSurfer requires that the MRI data conform to certain parameters. The slice thickness should be 1.3mm and the Field of View should be 256mm. For Siemens scanners example protocols, refer to: | 4. Intersubject averaging of structural and functional using a procedure that aligns individuals based on their cortical folding patterns for optimal alignment of homologous neural regions [SPHERICAL wiki link] |
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| http://www.nmr.mgh.harvard.edu/~andre/ | '''Machine Requirements''' To run Freesurfer, you will need either a PC running Linux or a Macintosh running OSX (OPTIMAL MACHINE wiki link- I think even a linke quote for a machine woud be best). |
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| For best results, each subject should have at least one sagittal structural scan. These scans are averaged and automatically corrected for motion before further processing. | '''Data Requirements''' The processing procedures for the creation of cortical models requires good quality T1 weighted MRI data, such as a Siemens MPRAGE ([http://www.nmr.mgh.harvard.edu/~andre/: examples of appropriate Siemens scanner protocols])or GE SPGR sequence with approximately 1mm^3 resolution (although a variety of quality datasets can be processed with additional manual intervention). |
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| The end result: FreeSurfer will produce a single, high quality 3D structural volume, corresponding 2D surfaces, and automatically segmented subcortical structures for each of your subjects. | |
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| You can also use FreeSurfer to generate an average subject out of all the participants in your study, upon which you can display individual subject data - structural and/or functional. | '''''TO DOWNLOAD THE SOFTWARE:''''' [wiki:Self:DownloadAndInstall follow this link] |
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| '''System Requirements''' | == Overview == An overview of the major processing steps taking place in a standard !FreeSurfer workflow are described in this PDF slide presentation: [http://surfer.nmr.mgh.harvard.edu/docs/ftp/pub/docs/FSL_anatomical_stream.pdf Building Anatomical Models with Freesurfer]. See also: FreeSurferAnalysisPipelineOverview '''Data Requirements: MRI Parameters''' FreeSurfer requires that the MRI data conform to certain parameters. The slice thickness should be 1.3mm and the Field of View should be 256mm. To see examples of appropriate Siemens scanner protocols, refer to: http://www.nmr.mgh.harvard.edu/~andre/ For best results, each subject should have at least one sagittal structural scan. These scans are averaged and automatically corrected for motion before further processing. The end result: FreeSurfer will produce a single, high quality 3D structural volume, corresponding 2D surfaces, and automatically segmented subcortical structures for each of your subjects. You can also use FreeSurfer to generate an average subject out of all the participants in your study, upon which you can display individual subject data -- structural and/or functional -- thus making FreeSurfer a practical option for individual and group analyses. '''Work Flows''' Consult the WorkFlows section to learn the detailed workings of a FreeSurfer processing stream. |
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FreeSurfer Beginners Guide
FreeSurfer is a freely available software package developed by investigators at the [http://www.nmr.mgh.harvard.edu: Athinoula A. Martinos Center for Biomedical Imaging] used for a number of procedures including:
1. Creation of computerized models of the brain from magnetic resonance imaging (MRI) data [RECON link here]
2. Processing of functional magnetic resonance imaging (fMRI) data [FSFAST link here]
3. Measuring a number of morphometric properties of the brain including cortical thickness and regional volumes [THICKNESS wiki link]
4. Intersubject averaging of structural and functional using a procedure that aligns individuals based on their cortical folding patterns for optimal alignment of homologous neural regions [SPHERICAL wiki link]
Machine Requirements To run Freesurfer, you will need either a PC running Linux or a Macintosh running OSX (OPTIMAL MACHINE wiki link- I think even a linke quote for a machine woud be best).
Data Requirements The processing procedures for the creation of cortical models requires good quality T1 weighted MRI data, such as a Siemens MPRAGE ([http://www.nmr.mgh.harvard.edu/~andre/: examples of appropriate Siemens scanner protocols])or GE SPGR sequence with approximately 1mm^3 resolution (although a variety of quality datasets can be processed with additional manual intervention).
TO DOWNLOAD THE SOFTWARE: [wiki:DownloadAndInstall follow this link]
Overview
An overview of the major processing steps taking place in a standard FreeSurfer workflow are described in this PDF slide presentation: [http://surfer.nmr.mgh.harvard.edu/docs/ftp/pub/docs/FSL_anatomical_stream.pdf Building Anatomical Models with Freesurfer].
See also: FreeSurferAnalysisPipelineOverview
Data Requirements: MRI Parameters
FreeSurfer requires that the MRI data conform to certain parameters. The slice thickness should be 1.3mm and the Field of View should be 256mm. To see examples of appropriate Siemens scanner protocols, refer to:
For best results, each subject should have at least one sagittal structural scan. These scans are averaged and automatically corrected for motion before further processing.
The end result: FreeSurfer will produce a single, high quality 3D structural volume, corresponding 2D surfaces, and automatically segmented subcortical structures for each of your subjects. You can also use FreeSurfer to generate an average subject out of all the participants in your study, upon which you can display individual subject data -- structural and/or functional -- thus making FreeSurfer a practical option for individual and group analyses.
Work Flows
Consult the WorkFlows section to learn the detailed workings of a FreeSurfer processing stream.