Time Series Data in Surface Space: Difference between revisions

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As you might expect, there is a relationship between the column order and the segmentation ID, as confirmed by this archived email exchange involving yours truly: [https://mail.nmr.mgh.harvard.edu/pipermail/freesurfer/2012-December/026853.html Extracting resting state time series from surface space using Lausanne 2008 parcellation]
As you might expect, there is a relationship between the column order and the segmentation ID, as confirmed by this archived email exchange involving yours truly: [https://mail.nmr.mgh.harvard.edu/pipermail/freesurfer/2012-December/026853.html Extracting resting state time series from surface space using Lausanne 2008 parcellation]
When you ran the gettimecourses.sh script, two files were created for each run folder: one containing the time series data (*.wav.txt) and one with some summary data (*.sum.txt). You can use the information from the 5th column of the .sum files to determine the segment labels corresponding to the columns of your time series data.


== Other Information ==
== Other Information ==

Revision as of 10:41, 5 May 2016

We can calculate mean time course vectors calculated across all voxels within regions defined in a FreeSurfer annotation (.annot) file. Though any annotation file can be used for this purpose, we have been working at the scale of the 1000 region Lausanne parcellation. A script exists, gettimecourses.sh, that will handle this:

gettimecourses.sh

#!/bin/bash
USAGE="Usage: gettimecourses.sh annot filepattern sub1 ... subN"

if [ "$#" == "0" ]; then
        echo "$USAGE"
        exit 1
fi

#first two parameters are is the annot files and filepatterns for the \
#.nii.gz time series to be detrended, up to the hemisphere indicator
#e.g., detrend.fmcpr.sm6.self.?h.nii.gz would use detrend.fmcpr.sm6.self as the filepattern
annot="$1"
shift
filepat="$1"
shift

#subjects
subs=( "$@" );
#hemispheres
hemis=( lh rh )

for sub in "${subs[@]}"; do
source_dir=${SUBJECTS_DIR}/${sub}/bold

   if [ ! -d ${source_dir} ]; then
       #The subject_id does not exist
       echo "${source_dir} does not exist!"
   else
       cd ${source_dir}
       readarray -t runs < runs
       for hemi in "${hemis[@]}"; do
               for r in "${runs[@]}"; do
                       mri_segstats \
                       --annot ${sub} ${hemi} ${annot} \
                       --i ${source_dir}/${r}/${filepat}.${hemi}.mgh \
                       --sum ${sub}_${hemi}_${annot}_${r}.${filepat}.sum.txt \
                       --avgwf ${sub}_${hemi}_${annot}_${r}.${filepat}.wav.txt
               done
       done
    fi
done

Running the Script

A precondition of this script is that the data have been detrended following the procedure for detrending FreeSurfer data. A second precondition is that there should be a file called 'runs' in the bold/ directory. If you have followed the instructions for detrending your data, such a file should already exist.

The script is run in a terminal by specifying the name of an annot file that can be found in the $SUBJECT_ID/label/ directory, a file pattern, followed by a list of subject IDs:

gettimecourses.sh lausanne fmcpr.sm6.self FS_T1_501

The above command would look in the /label directory for subject FS_T1_501 for lh.lausanne.annot and rh.lausanne.annot, and extract the mean time series for each defined region within each .annot file for the bold data found in the file fmcpr.sm6.self.?h.mgz in the run folders indicated in the runs file. A series of output files is produced in the subject's bold/ directory. The time series files are named ${sub}_?h_${annot}_${run}.${filepattern}.wav.txt

Decoding the Regions

The time series output files are plain text files with rows=time points and columns=regions. In the case of the Lausanne 2008 parcellation, there are approximately 500 columns per file. Interpreting these data will require some sort of reference for the identity of each column.

As you might expect, there is a relationship between the column order and the segmentation ID, as confirmed by this archived email exchange involving yours truly: Extracting resting state time series from surface space using Lausanne 2008 parcellation

When you ran the gettimecourses.sh script, two files were created for each run folder: one containing the time series data (*.wav.txt) and one with some summary data (*.sum.txt). You can use the information from the 5th column of the .sum files to determine the segment labels corresponding to the columns of your time series data.

Other Information

The FreeSurfer command mris_anatomical_stats uses an .annot file to query properties of a surface. The output of this program can be used to determine anatomical characteristics of each region. These values might be useful for modeling purposes.

SUBJECT_ID=FS_T1_501
ANNOT=lausanne
HEMIS=( "lh" "rh" )
for hemi in "${HEMIS[@]}"; do
   mris_anatomical_stats -a ${SUBJECT_ID}/label/${hemi}.${ANNOT}.annot -f ${SUBJECTS_DIR}/${SUBJECT_ID}/${hemi}.${ANNOT}.stats.txt ${SUBJECT_ID} ${hemi}
done

The above BASH code snippet will report characteristics for subject FS_T1_501, using the ?h.lausanne.annot files in his/her labels/ directory. The for-loop is a concise way of ensuring that the lh and rh hemispheres are measured, with the results being written to lh.lausanne.stats.txt and rh.lausanne.stats.txt in his/her subject directory (i.e., in $SUBJECTS_DIR/FS_T1_501/)