Flame without 1st level directories

FSL’s fMRI modelling tool, FEAT, is a great tool and is easy to use if you use FSL from start to finish, in the recommended fashion. However, sometimes you might want to get FEAT group results when you don’t have all of the individual 1st level FEAT directories. This tip is for the case when you have just the 4D COPE image and the 4D VARCOPE images (all subjects, of course, already in MNI space), and you just want to do a one-sample t-test.

In the code below, I’m assuming that the following files are around:

  • 4dcope 4D COPE image
  • 4dvarcope 4D VARCOPE image
  • design.mat, design.con and design.con for a 1-sample t-test; use Glm_gui if you need help creating these.
  • mask mask image
  • example_func an example image for ‘underlay’ in the figures
$FSLDIR/bin/flameo --cope=4dcope --vc=4dvarcope --mask=mask --ld=stats --dm=design.mat --cs=design.grp --tc=design.con --runmode=flame1
echo $($FSLDIR/bin/fslnvols 4dcope) - 1 | bc -l  > stats/dof
/bin/rm -f stats/zem* stats/zols* stats/mask*
$FSLDIR/bin/smoothest -d $(cat stats/dof) -m mask -r stats/res4d > stats/smoothness
rm -f stats/res4d*
awk '/VOLUME/ {print $2}' stats/smoothness > thresh_zstat1.vol
awk '/DLH/ {print $2}' stats/smoothness > thresh_zstat1.dlh
$FSLDIR/bin/fslmaths stats/zstat1 -mas mask thresh_zstat1
$FSLDIR/bin/cluster -i thresh_zstat1 -c stats/cope1 -t 2.3 -p 0.05 -d $(cat thresh_zstat1.dlh) --volume=$(cat thresh_zstat1.vol) --othresh=thresh_zstat1 -o cluster_mask_zstat1 --connectivity=26 --mm --olmax=lmax_zstat1_tal.txt > cluster_zstat1_std.txt
$FSLDIR/bin/cluster2html . cluster_zstat1 -std
MinMax=$($FSLDIR/bin/fslstats thresh_zstat1 -l 0.0001 -R)
$FSLDIR/bin/overlay 1 0 example_func -a thresh_zstat1 $MinMax rendered_thresh_zstat1
$FSLDIR/bin/slicer rendered_thresh_zstat1 -S 2 750 rendered_thresh_zstat1.png
/bin/cp $FSLDIR/etc/luts/ramp.gif .ramp.gif

You don’t get the full, pretty output from FEAT, but you do get a pretty PNG overlay, and the HTML table of significant clusters. Generalizing to more complicated group-level models is simply a matter of changing the design.mat and design.con files, and adjusting the degrees-of-freedom calculation on the second line.

This is really just a quick hack. I hope it is of some use.

Quick addition: The code above gives you corrected cluster-wise inference. To get corrected voxel-wise inference, replace the line with the ”$FSLDIR/bin/cluster” command with these four lines:

RESELcount=$(awk '$1~/VOLUME/{v=$2};$1~/RESELS/{r=$2};END{printf("%g",1.0*v/r)}' stats/smoothness)
FWEthresh=$(ptoz 0.05 -g $RESELcount)
$FSLDIR/bin/fslmaths thresh_zstat1 -thr $FWEthresh thresh_zstat1
$FSLDIR/bin/cluster -i thresh_zstat1 -c stats/cope1 -t $FWEthresh --othresh=thresh_zstat1 -o cluster_mask_zstat1 --connectivity=26 --mm --olmax=lmax_zstat1_tal.txt > cluster_zstat1_std.txt

Or, if you want to use an uncorrected threshold, use this snippet instead (replacing 2.3 with your favorite threshold).

$FSLDIR/bin/cluster -i thresh_zstat1 -c stats/cope1 -t $UnCorrThresh --othresh=thresh_zstat1 -o cluster_mask_zstat1 --connectivity=26 --mm --olmax=lmax_zstat1_tal.txt > cluster_zstat1_std.txt

Make Word act like Emacs

Follow-up to Mac Goodness from the NISOx blog (formerly Neuroimaging Statistics Tips & Tools)

I’ve gone on about how great it is to change keyboard shortcuts with System Preferences -> Keyboards, but not all Word commands are accessible through that facility. In particular, it is possible to make Word respond to Emacs editing commands!

In Word, go to Tools -> Customize Keyboard… . Under Categories, select “All Commands” to show everything. In the Commands box find a command, and then add the corresponding key as follows:

  • Command StartOfLine – Shortcut Control+A
  • Command EndOfLine – Shortcut Control+E
  • Command EditCut – Shortcut Control+W
  • Command EditPaste – Shortcut Control+Y
  • Command EditFind – Shortcut Control+S