Diff for "AnalyzingData/MNE_MRI_processing" - Meg Wiki
location: Diff for "AnalyzingData/MNE_MRI_processing"
Differences between revisions 25 and 26
Revision 25 as of 2010-06-10 17:05:56
Size: 3250
Editor: YaaraErez
Comment:
Revision 26 as of 2010-06-10 17:09:12
Size: 3352
Editor: YaaraErez
Comment:
Deletions are marked like this. Additions are marked like this.
Line 49: Line 49:
{{{
Line 60: Line 61:
4) Open the view (View -> Show Viewer). 4) Open the viewer (View -> Show Viewer).
Line 62: Line 63:
5) Click on Options. Hide the cortex, make the skin transparent, show the digitiser data. 5) Click on "Options". Hide the cortex, make the skin transparent, show the digitiser data.
Line 64: Line 65:
6) Choose Adjust -> Coordinate Alignment. Define approximate landmarks (LAP, RAP, Nasion) by clicking at their labels, then at their approximate locations in the viewer. The click Align Using Fiducials. 6) Choose Adjust -> Coordinate Alignment. Define approximate landmarks (LAP, RAP, Nasion) by clicking at their labels, then at their approximate locations in the viewer. The click "Align Using Fiducials".
Line 66: Line 67:
7) The use the "ICP Align" option multiple times until the transformation matrix doesn't change significantly any more. You can remove outliers using the "Discard" option (e.g. choose 10 or 5 mm, then ICP align again). 7) Use the "ICP Align" option multiple times until the transformation matrix doesn't change significantly any more. You can remove outliers using the "Discard" option (e.g. choose 10 or 5 mm, then ICP align again).
Line 69: Line 70:

The coordinate transform will automatically be invoked in future operation within MNE.
}}}

Head Model and Source Space Creation in MNE

Make sure you've typed

  • mne_setup_2.6.0

    freesurfer_4.3.0

    setenv SUBJECTS_DIR </myMRIdirectory/>

in your Linux command window.

The following script will produce the source space (downsampled version of the cortical surface in Freesurfer), which will be saved in a file ending in *-src.fif, which can be read into Matlab using mne_read_source_spaces.

After this step, you should realign the MRI and MEG coordinate systems, otherwise the following analyses (forward solution, inverse operator etc.) won't make sense. The procedure is described in the MNE manual, e.g. chapter 12.11. (sample data set). It is briefly described below.

The parameters below are reasonable choices for standard analyses. However, these Wiki pages are not supposed to substitute the [http://www.nmr.mgh.harvard.edu/meg/manuals/MNE-manual-2.6.pdf MNE manual], [http://imaging.mrc-cbu.cam.ac.uk/meg/MEGpapers reading papers], and [http://imaging.mrc-cbu.cam.ac.uk/imaging/ImagersInterestGroup discussions] with more experienced researchers.

SUBJECTS_DIR='</myMRIdirectory/>'    # root directory for MRI data


for SUBJECT in Subject1 Subject2 Subject3  # use your list of subject names here
do 

        # creates surfaces necessary for BEM head models
        mne_watershed_bem --overwrite --subject $SUBJECT

        ln -s $SUBJECTS_DIR/$SUBJECT/bem/watershed/$SUBJECT'_inner_skull_surface' $SUBJECTS_DIR/$SUBJECT/bem/inner_skull.surf
        ln -s $SUBJECTS_DIR/$SUBJECT/bem/watershed/$SUBJECT'_outer_skull_surface' $SUBJECTS_DIR/$SUBJECT/bem/outer_skull.surf
        ln -s $SUBJECTS_DIR/$SUBJECT/bem/watershed/$SUBJECT'_outer_skin_surface'  $SUBJECTS_DIR/$SUBJECT/bem/outer_skin.surf
        ln -s $SUBJECTS_DIR/$SUBJECT/bem/watershed/$SUBJECT'_brain_surface'       $SUBJECTS_DIR/$SUBJECT/bem/brain_surface.surf

        # creates fiff-files for MNE describing MRI data
        mne_setup_mri --overwrite --subject $SUBJECT

        # create a source space from the cortical surface created in Freesurfer
        mne_setup_source_space --spacing 5 --overwrite --subject $SUBJECT

done

Aligning MEG and MRI coordinate systems

This is a brief summary of how to align MEG and MRI coordinate systems. For more information see the MNE manual (chapter 12.11).

Make sure you've typed
   mne_setup_2.6.0
   setenv SUBJECTS_DIR </myMRIdirectory/>
before proceeding.

1) Start mne_analyze. 

2) Load a surface file (File -> Load Surface, choose inflated). 

3) Load a fiff-file containing digitiser data (raw or averaged file; File -> Load digitizer data).

4) Open the viewer (View -> Show Viewer).

5) Click on "Options". Hide the cortex, make the skin transparent, show the digitiser data.

6) Choose Adjust -> Coordinate Alignment. Define approximate landmarks (LAP, RAP, Nasion) by clicking at their labels, then at their approximate locations in the viewer. The click "Align Using Fiducials".

7) Use the "ICP Align" option multiple times until the transformation matrix doesn't change significantly any more. You can remove outliers using the "Discard" option (e.g. choose 10 or 5 mm, then ICP align again). 

8) When you are happy, click "Save MRI".

The coordinate transform will automatically be invoked in future operation within MNE.

CbuMeg: AnalyzingData/MNE_MRI_processing (last edited 2016-06-28 09:27:42 by OlafHauk)