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KUL_dwiprep_fibertract.sh
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KUL_dwiprep_fibertract.sh
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#!/bin/bash -e
# Bash shell script to process diffusion & structural 3D-T1w MRI data
#
# Project PI's: Stefan Sunaert & Bart Nuttin
#
# Requires Mrtrix3, FSL, ants, freesurfer
#
# @ Stefan Sunaert - UZ/KUL - stefan.sunaert@uzleuven.be
#
# v0.1 - dd 14/02/2019 - alpha version
v="v0.1 - dd 14/02/2019"
# A few fixed (for now) parameters:
# sift1 filtering
# termination ratio - defined as the ratio between reduction in cost
# function, and reduction in density of streamlines.
# Smaller values result in more streamlines being filtered out.
do_sift_th=10000 # when to do sift? (if more than 5000 streamlines in tract e.g.)
term_ratio=0.5 # reduce by e.g. 50%
# tmp directory for temporary processing
tmp=/tmp
#
# ----------------------------------- MAIN ---------------------------------------------
# this script defines a few functions:
# - Usage (for information to the novice user)
# - kul_e2cl (for logging)
kul_main_dir=`dirname "$0"`
script=`basename "$0"`
source $kul_main_dir/KUL_main_functions.sh
cwd=$(pwd)
# FUNCTIONS --------------
# function Usage
function Usage {
cat <<USAGE
`basename $0` performs dMRI fibertractography.
Usage:
`basename $0` -p subject <OPT_ARGS>
Example:
`basename $0` -p pat001 -c study_config/tracto_tracts.csv -r study_config/tracto_rois.csv
Required arguments:
-p: participant (anonymised name of the subject)
-c: tractography config file (what tracts to generate & settings)
-r: tractography file with ROIs
Optional arguments:
-f: perform whole/full brain fibertractography first (and tckedit)
-w: which wmfod to use (default = dhollander_wmfod_norm_reg2T1w)
-s: session (of the participant)
-n: number of cpu for parallelisation
-v: show output from mrtrix commands
USAGE
exit 1
}
function kul_mrtrix_tracto {
if [ $f_flag -eq 1 ]; then
local a=${algorithm}_WBFT
else
local a=$algorithm
fi
local d=tracts_${a}_from_${wmfod_select}
mkdir -p ${d}
kul_e2cl " running tckgen of ${tract} tract with algorithm $a all seeds with parameters $parameters" ${log}
# make the seed string
local s=$(printf " -seed_image roi/%s.nii.gz" ${seeds[@]})
# make the include string (which is same rois as seed)
local i=$(printf " -include roi/%s.nii.gz" ${include[@]})
# make the exclude string (which is same rois as seed)
local e=$(printf " -exclude roi/%s.nii.gz" ${exclude[@]})
# make the mask string
local m="-mask dwi_preproced_reg2T1w_mask.nii.gz"
# do the tracking
if [ ! -f ${d}/${tract}.tck ]; then
#echo ${a}
#pwd
#echo $s
#echo $i
#echo $e
#echo $m
#echo $parameters
if [ $f_flag -eq 1 ]; then
#WBFT
tckedit $i $e $m ${output_wbft}.tck ${d}/${tract}.tck -nthreads $ncpu -force
else
if [[ "${a}" =~ "iFOD" ]]; then
# perform IFOD1 or 2 tckgen
tckgen $wmfod ${d}/${tract}.tck -algorithm $a $parameters $s $i $e $m -nthreads $ncpu -force
elif [[ "${a}" =~ "Tensor" ]]; then
# perform Tensor_Prob or Tensor_Det tckgen
tckgen $dwi_preproced ${d}/${tract}.tck -algorithm $a $parameters $s $i $e $m -nthreads $ncpu -force
fi
fi
else
echo " tckgen of ${tract} tract already done, skipping"
fi
# Check if any fibers have been found & log to the information file
echo " checking ${d}/${tract}"
local count=$(tckinfo ${d}/${tract}.tck | grep count | head -n 1 | awk '{print $(NF)}')
echo "$subj, $a, $tract, $count" >> tracts_info.csv
# do further processing of tracts are found
if [ ! -f ${d}/MNI_Space_${tract}_${a}.nii.gz ]; then
if [ $count -eq 0 ]; then
# report that no tracts were found and stop further processing
kul_e2cl " no streamlines were found for the ${d}/${tract}.tck" ${log}
else
# report how many tracts were found and continue processing
echo " $count streamlines were found for the ${d}/${tract}.tck"
echo " generating subject/MNI space images"
# convert the tck in nii
tckmap ${d}/${tract}.tck ${d}/${tract}.nii.gz -template $ants_anat -force
# Warp the full tract image to MNI space
input=${d}/${tract}.nii.gz
output=${d}/MNI_Space_${tract}_${a}.nii.gz
transform=${cwd}/fmriprep/sub-${subj}/anat/sub-${subj}_from-T1w_to-MNI152NLin2009cAsym_mode-image_xfm.h5
reference=$FSLDIR/data/standard/MNI152_T1_1mm.nii.gz
KUL_antsApply_Transform
# make a probabilistic image in subject and MNI space
local m=$(mrstats -quiet ${d}/${tract}.nii.gz -output max)
#echo $m
fslmaths ${d}/${tract} -div $m ${d}/Subj_Space_prob_${tract}_${a}
fslmaths ${d}/MNI_Space_${tract}_${a}.nii.gz -div $m ${d}/MNI_Space_prob_${tract}_${a}
# Warp the probabilistic image to MNI space
#input=${d}/Subj_Space_${tract}_${a}.nii.gz
#output=${d}/MNI_Space_${tract}_${a}.nii.gz
#transform=${cwd}/fmriprep/sub-${subj}/anat/sub-${subj}_from-T1w_to-MNI152NLin2009cAsym_mode-image_xfm.h5
#reference=$FSLDIR/data/standard/MNI152_T1_1mm.nii.gz
#KUL_antsApply_Transform
# Make a smoothed version of the tracts for iPlan
smooth_sigma=0.6
prob_treshold=0.15
fslmaths ${d}/Subj_Space_prob_${tract}_${a} -s $smooth_sigma -thr $prob_treshold ${d}/Subj_Space_prob_smooth_${tract}_${a}
fi
else
echo " tckshift & generation subject/MNI space images already done, skipping..."
fi
}
function KUL_antsApply_Transform {
# Fix bug in antsApplytransforms (add EOF at tranform file)
cp $transform /tmp/transform_tmp.txt
echo "" >> /tmp/transform_tmp.txt
antsApplyTransforms -d 3 --float 1 \
--verbose 1 \
-i $input \
-o $output \
-r $reference \
-t /tmp/transform_tmp.txt \
-n Linear
rm -rf /tmp/transform_tmp.txt
}
# CHECK COMMAND LINE OPTIONS -------------
#
# Set defaults
ncpu=6
silent=1
wmfod_select=dhollander_wmfod_norm_reg2T1w
#wmfod_select=dhollander_wmfod_norm_noGM_reg2T1w
# Set required options
p_flag=0
c_flag=0
r_flag=0
s_flag=0
f_flag=0
if [ "$#" -lt 3 ]; then
echo
echo "Please specify all required options!"
echo
Usage >&2
exit 1
else
while getopts "p:c:r:s:n:w:fvh" OPT; do
case $OPT in
p) #subject
p_flag=1
subj=$OPTARG
;;
c) #tracto-config
c_flag=1
tracts_config=$OPTARG
;;
r) #rois-config
r_flag=1
rois_config=$OPTARG
;;
s) #session
s_flag=1
ses=$OPTARG
;;
f) #session
f_flag=1
;;
n) #parallel
ncpu=$OPTARG
;;
w) #wmfod
wmfod_select=$OPTARG
;;
v) #verbose
silent=0
;;
h) #help
Usage >&2
exit 0
;;
\?)
echo "Invalid option: -$OPTARG" >&2
echo
Usage >&2
exit 1
;;
:)
echo "Option -$OPTARG requires an argument." >&2
echo
Usage >&2
exit 1
;;
esac
done
fi
# check for required options
if [ $p_flag -eq 0 ] ; then
echo
echo "Option -s is required: give the anonymised name of a subject." >&2
echo
exit 2
fi
if [ $c_flag -eq 0 ] ; then
echo
echo "Option -c is required: give the config file with tractography settings." >&2
echo
exit 2
fi
if [ $r_flag -eq 0 ] ; then
echo
echo "Option -r is required: give the config file with rois to create." >&2
echo
exit 2
fi
# MRTRIX verbose or not?
if [ $silent -eq 1 ] ; then
export MRTRIX_QUIET=1
fi
# REST OF SETTINGS ---
# timestamp
start=$(date +%s)
# Some parallelisation
FSLPARALLEL=$ncpu; export FSLPARALLEL
OMP_NUM_THREADS=$ncpu; export OMP_NUM_THREADS
d=$(date "+%Y-%m-%d_%H-%M-%S")
log=log/log_${d}.txt
# --- MAIN ----------------
bids_subj=BIDS/sub-${subj}
fmriprep_subj=fmriprep/"sub-${subj}"
# Either a session is given on the command line
# If not the session(s) need to be determined.
if [ $s_flag -eq 1 ]; then
# session is given on the command line
search_sessions=BIDS/sub-${subj}/ses-${ses}
xfm_search=($(find ${cwd}/${fmriprep_subj}/ses-${ses} -type f -name "*from-orig_to-T1w_mode-image_xfm*" ! -name "*gadolinium*"))
num_xfm=${#xfm_search[@]}
echo " Xfm files: number : $num_xfm"
echo " notably: ${xfm_search[@]}"
else
# search if any sessions exist
search_sessions=($(find BIDS/sub-${subj} -type d | grep dwi))
# Transforming the T1w to fmriprep space
xfm_search=($(find ${cwd}/${fmriprep_subj} -type f -name "*from-orig_to-T1w_mode-image_xfm*" ! -name "*gadolinium*"))
num_xfm=${#xfm_search[@]}
echo " Xfm files: number : $num_xfm"
echo " notably: ${xfm_search[@]}"
fi
num_sessions=${#search_sessions[@]}
echo " Number of BIDS sessions: $num_sessions"
echo " notably: ${search_sessions[@]}"
# ---- BIG LOOP for processing each session
for current_session in `seq 0 $(($num_sessions-1))`; do
# set up directories
cd $cwd
long_bids_subj=${search_sessions[$current_session]}
#echo $long_bids_subj
bids_subj=${long_bids_subj%dwi}
# Change the Directory to write preprocessed data in
preproc=dwiprep/sub-${subj}/$(basename $bids_subj)
#echo $preproc
cd $preproc
# STEP 1 - create the ROIS for fibertractography -------------------------------------------------------
kul_e2cl " Creating ROIS for $bids_subj from" ${log}
# Where is the freesurfer parcellation?
fs_aparc=${cwd}/freesurfer/sub-${subj}/${subj}/mri/aparc+aseg.mgz
# Where is the T1w anat?
ants_anat=T1w/T1w_BrainExtractionBrain.nii.gz
# Where is fs_labels?
#fs_labels=roi/labels_from_FS.nii.gz
#fs_wmlabels=roi/labels_wm_from_FS.nii.gz
#fmriprep_anat="${cwd}/${fmriprep_subj}/anat/sub-${subj}_desc-preproc_T1w.nii.gz"
# we read the config file (and it may be csv, tsv or ;-seperated)
while IFS=$'\t,;' read -r roi_name from_atlas space label_id; do
if [[ ! $roi_name == \#* ]]; then
if [ ! -f roi/${roi_name}.nii.gz ]; then
if [ $space = "subject" ]; then
echo " creating the $space space $roi_name ROI from $from_atlas using label_id $label_id..."
labelArray=($label_id)
#echo ${labelArray[@]}
for label_id_tmp in "${labelArray[@]}"
do
#echo $label_id_tmp
atlas_file="$(echo -e "${from_atlas}" | sed -e 's/^[[:space:]]*//')"
echo "fslmaths roi/$atlas_file -thr $label_id_tmp -uthr $label_id_tmp -bin roi/${roi_name}_${label_id_tmp}"
fslmaths roi/$atlas_file -thr $label_id_tmp -uthr $label_id_tmp -bin roi/${roi_name}_${label_id_tmp}
done
fslmerge -t roi/${roi_name}_merged roi/${roi_name}_*
fslmaths roi/${roi_name}_merged -Tmean -bin roi/${roi_name}
elif [ $space = "mni" ]; then
echo " creating the $space space $roi_name ROI from $from_atlas..."
input=${kul_main_dir}/atlasses/Local/${from_atlas}
input=${input//[[:blank:]]/}
output=roi/${roi_name}_tmp.nii.gz
transform="${cwd}/fmriprep/sub-${subj}/anat/sub-${subj}_from-MNI152NLin2009cAsym_to-T1w_mode-image_xfm.h5"
reference=$ants_anat
KUL_antsApply_Transform
input=roi/${roi_name}_tmp.nii.gz
output=roi/${roi_name}.nii.gz
transform=${xfm_search[$current_session]}
reference=$ants_anat
if [ -z "$transform" ];then
cp $input $output
else
KUL_antsApply_Transform
fi
fi
fi
fi
done < ${cwd}/$rois_config
# STEP 2 - perform fibertractography -------------------------------------------------------
wmfod=response/${wmfod_select}.mif
dwi_preproced=dwi_preproced_reg2T1w.mif
dwi_mask=dwi_preproced_reg2T1w_mask.nii.gz
#output_wbft=tracks_50_million
#input_wbft=50000000
output_wbft=WBFT_20_million_from_${wmfod_select}
input_wbft=20000000
# Check WBFT or direct tracking
if [ $f_flag -eq 1 ]; then
# WBFT
wbft_options="-maxlen 250 -minlen 10 -select $input_wbft"
echo " Performing Whole Brain Fiber Tractography first"
if [ ! -f ${output_wbft}.tck ]; then
tckgen $wmfod -seed_image $dwi_mask -mask $dwi_mask ${output_wbft}.tck $wbft_options -nthreads $ncpu
fi
fi
# Make an empty log file with information about the tracts
echo "subject, algorithm, tract, count" > tracts_info.csv
# we read the config file (and it may be csv, tsv or ;-seperated)
while IFS=$'\t,;' read -r tract_name seed_rois include_rois exclude_rois algorithm parameters; do
#echo "tract_name = $tract_name"
if [[ ! $tract_name == \#* ]]; then
tract=$tract_name
seeds=($seed_rois)
include=($include_rois)
exclude=($exclude_rois)
kul_mrtrix_tracto
fi
done < ${cwd}/$tracts_config
done