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KUL_VBG.sh
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KUL_VBG.sh
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#!/bin/bash
# set -x
# Ahmed Radwan [email protected]
# Stefan Sunaert [email protected]
# this script is in dev for S61759
#####################################
v="0.61_23112021_beta"
# This script is meant to allow a decent recon-all/antsMALF output in the presence of a large brain lesion
# The main idea is to replace the lesion with a hole and fill the hole with information from the a synthetic image
# this maintains subject specificity and diseased hemisphere information but replaces lesioned tissue with sham brain
# to do:
# (1) Add MSBP
# (2) Add a quick parcellation solution using labelpropagation in ANTs
# (3) Add a MALP-EM based parcellation stream
# ----------------------------------- MAIN ---------------------------------------------
# this script uses "preprocessing control", i.e. if some steps are already processed it will skip these
kul_lesion_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` preps structural images with lesions and runs recon-all.
Usage examples:
`basename $0` -S Subject_ID -l /fullpath/lesion_mask.nii.gz -z T1 -b -B (1 or 2)
or
`basename $0` -S Subject_ID -a /fullpath/Subject_ID_T1w.nii.gz -l /fullpath/lesion_mask.nii.gz -z T1 -B (1 or 2) -n 10 -v 1
Purpose:
The purpose of this workflow is to generate a lesion filled image, with healthy looking synthetic tissue in place of the lesion
Essentially excising the lesion and grafting over the brain tissue defect in the MR image space
How to use:
- You need to use the cook_template_4VBG script once for your study - if you have only 1 scanner
- cook_template_4VBG requires two brains with unilateral lesions on opposing sides
- it is meant to facilitate the grafting process and minimize intensity differences
- You need a high resolution T1 WI and a lesion mask in the same space for VBG to run
- If you end up with an empty image, it is possible you have a mismatch between the T1 and lesion mask
Required arguments:
-S: BIDS subject/participant name (anonymised name of the subject without the "sub-" prefix)
-b: if data is in BIDS
-l: full path and file name to lesion mask file per session
-z: space of the lesion mask used (only T1 supported in this version)
-a: Input precontrast T1WIs
Optional arguments:
-s: session (of the participant)
-t: Use the VBG template to derive the fill patch (if used, template tissue is used alongside native tissue to create the donor brain)
-E: Treat as an extra-axial lesion (skip VBG bulk, fill lesion patch with 0s, run FS and subsequent steps)
-B: specify brain extraction method (1 = HD-BET, 2 = ANTs-BET), if not set ANTs-BET will be used by default
-P: Run parcellation (1 = FreeSurfer recon-all, 2 = FastSurfer, 3 = FastSurfer and FreeSurfer hybrid)
-p: In case of pediatric patients - use pediatric template (NKI_under_10 in MNI)
-m: full path to intermediate output dir
-o: full path to output dir (if not set reverts to default output ./VBG_output)
-n: number of cpu for parallelisation (default is 6)
-v: show output from mrtrix commands
-h: prints help menu
Notes:
- You can use -b and the script will find your BIDS files automatically
- If your data is not in BIDS, then use -a without -b
- This version is for validation only.
- In case of trouble with HD-BET see lines (1124 - 1200)
USAGE
exit 1
}
# CHECK COMMAND LINE OPTIONS -------------
#
# Set defaults
# this works for ANTsX scripts and FS
ncpu=8
# Set required options
S_flag=0
b_flag=0
s_flag=0
l_flag=0
l_spaceflag=0
t1_flag=0
t_flag=0
o_flag=0
m_flag=0
n_flag=0
P_flag=0
E_flag=0
p_flag=0
if [ "$#" -lt 1 ]; then
Usage >&2
exit 1
else
while getopts "S:a:l:z:s:o:m:n:B:P:bvhtEp" OPT; do
case $OPT in
S) #subject
S_flag=1
subj="sub-${OPTARG}"
;;
b) #BIDS or not ?
bids_flag=1
;;
a) #T1 WIs
t1_flag=1
t1_orig=$OPTARG
;;
s) #session
s_flag=1
ses=$OPTARG
;;
B) #session
BET_flag=1
BET_m=$OPTARG
;;
l) #lesion_mask
l_flag=1
L_mask=$OPTARG
;;
z) #lesion_mask
l_spaceflag=1
L_mask_space=$OPTARG
;;
m) #intermediate output
m_flag=1
wf_dir=$OPTARG
;;
o) #output
o_flag=1
out_dir=$OPTARG
;;
t) #template flag
t_flag=1
;;
P) #Parcellation flag
P_flag=1
parc_F=$OPTARG
;;
E) #Extra-axial flag
E_flag=1
;;
p) #Pediatric flag
p_flag=1
;;
n) #parallel
n_flag=1
ncpu=$OPTARG
;;
v) #verbose
silent=0
;;
h) #help
Usage >&2
exit 0
;;
\?)
echo "Invalid option: -$OPTARG" >&2
echo
Usage >&2
exit 1
;;
:)
echo "Option -$OPTARG requires an argument." >&2
echo
Usage >&2
exit 1
;;
esac
done
fi
lesion_wf="${cwd}/VBG_out"
# output
if [[ "$o_flag" -eq 1 ]]; then
output_m="${out_dir}"
output_d="${output_m}/output_VBG/${subj}${ses_long}"
else
output_d="${lesion_wf}/output_VBG/${subj}${ses_long}"
fi
# intermediate folder
if [[ "$m_flag" -eq 1 ]]; then
preproc_m="${wf_dir}"
preproc="${preproc_m}/proc_VBG/${subj}${ses_long}"
else
preproc="${lesion_wf}/proc_VBG/${subj}${ses_long}"
fi
# timestamp
start_t=$(date +%s)
FSLPARALLEL=$ncpu; export FSLPARALLEL
OMP_NUM_THREADS=$ncpu; export OMP_NUM_THREADS
d=$(date "+%Y-%m-%d_%H-%M-%S");
# handle the dirs
cd $cwd
long_bids_subj="${search_sessions}"
echo $long_bids_subj
bids_subj=${long_bids_subj%anat}
echo $bids_subj
######
# check for required inputs and define your workflow accordingly
# Check if the FreeSurfer License can be found
FS_lic_search[0]="$FREESURFER_HOME/license.txt"
FS_lic_search[1]="$FREESURFER_HOME/.license.txt"
FS_lic_search[3]="$FREESURFER_HOME/.license"
FS_lic_search[4]="$FS_LICENSE"
for s in ${FS_lic_search[@]}; do
if [ ! -z "$s" ]; then
if [[ -f $s ]]; then
# here we set the found FS_lic license file of freesurfer
FS_lic=$s
break
fi
fi
done
if [[ ! -f ${FS_lic} ]]; then
echo "Unable to find a FreeSurfer license file, please make sure it is located in $FREESURFER_HOME with a name of either license.txt or .license, exiting " | tee -a ${prep_log}
exit 2
fi
srch_Lmask_str=($(basename ${L_mask}))
srch_Lmask_dir=($(dirname ${L_mask}))
srch_Lmask_o=($(find ${srch_Lmask_dir} -type f | grep ${srch_Lmask_str}))
if [[ $S_flag -eq 0 ]] || [[ $l_flag -eq 0 ]] || [[ $l_spaceflag -eq 0 ]]; then
echo
echo "Inputs -S -l -z must be set." >&2
echo
exit 2
else
if [[ -z "${srch_Lmask_o}" ]]; then
echo
echo " Incorrect Lesion mask, please check the file path and name "
echo
exit 2
else
echo "Inputs are -S ${subj} -l ${L_mask} -z ${L_mask_space}"
fi
fi
if [[ "$bids_flag" -eq 1 ]] && [[ "$s_flag" -eq 0 ]]; then
# bids flag defined but not session flag
search_sessions=($(find ${cwd}/BIDS/${subj} -type d | grep anat));
num_sessions=${#search_sessions[@]};
ses_long="";
if [[ "$num_sessions" -eq 1 ]]; then
echo " we have one session in the BIDS dir, this is good."
# now we need to search for the images
# then also find which modalities are available and set wf accordingly
### STEFAN NEED TO DO: check what is the best input T1w: with or whitout Gd?
### to select use something like:
### find_T1w=($(find ${cwd}/BIDS/sub-${participant}/anat/ -name "*_T1w.nii.gz" ! -name "*gadolinium*"))
search_T1=($(find $search_sessions -type f | grep T1w.nii.gz));
# search_T2=($(find $search_sessions -type f | grep T2w.nii.gz));
# search_FLAIR=($(find $search_sessions -type f | grep FLAIR.nii.gz));
if [[ $search_T1 ]]; then
T1_orig=$search_T1
echo " We found T1 WIs ${T1_orig}"
else
echo " no T1 WIs found in BIDS dir, exiting"
exit 2
fi
else
echo " There is a problem with sessions in BIDS dir. "
echo " Please double check your data structure &/or specify one session with -s if you have multiple ones. "
exit 2
fi
if [[ "$o_flag" -eq 0 ]]; then
output_d="${cwd}/BIDS/derivatives/output_VBG/${subj}${ses_long}"
fi
if [[ "$m_flag" -eq 0 ]]; then
preproc="${cwd}/BIDS/derivatives/proc_VBG/${subj}${ses_long}"
fi
elif [[ "$bids_flag" -eq 1 ]] && [[ "$s_flag" -eq 1 ]]; then
# this is fine
ses_string="${cwd}/BIDS/${subj}/ses-${ses}"
search_sessions=($(find ${ses_string} -type d | grep anat));
num_sessions=1;
ses_long=_ses-0${num_sessions};
if [[ "$num_sessions" -eq 1 ]]; then
echo " One session " $ses " specified in BIDS dir, good."
### STEFAN NEED TO DO: check what is the best input T1w: with or whitout Gd?
# AR: This can be as added as an optional flag with the bids flag (-b )
# Which is best input to use might require some testing
### to select use something like:
### find_T1w=($(find ${cwd}/BIDS/sub-${participant}/anat/ -name "*_T1w.nii.gz" ! -name "*gadolinium*"))
search_T1=($(find $search_sessions -type f | grep T1w.nii.gz));
# search_T2=($(find $search_sessions -type f | grep T2w.nii.gz));
# search_FLAIR=($(find $search_sessions -type f | grep flair.nii.gz));
if [[ "$search_T1" ]]; then
T1_orig=$search_T1;
echo " We found T1 WIs ${T1_orig}"
else
echo " no T1 WIs found in BIDS dir, exiting "
exit 2
fi
fi
### STEFAN NEED TO DO: prefer to set KUL_compute/sub-participant/VBG as default output?
# AR: this can easily be changed using -o
# no objections to changing default behavior for -o
# We just need to keep FS output stable, as this will be needed for MSBP and other BIDS_apps
if [[ "$o_flag" -eq 0 ]]; then
output_d="${cwd}/BIDS/derivatives/output_VBG/${subj}${ses_long}"
fi
if [[ "$m_flag" -eq 0 ]]; then
preproc="${cwd}/BIDS/derivatives/proc_VBG/${subj}${ses_long}"
fi
elif [[ "$bids_flag" -eq 0 ]] && [[ "$s_flag" -eq 0 ]]; then
# this is fine if T1 and T2 and/or flair are set
# find which ones are set and define wf accordingly
num_sessions=1;
ses_long="";
if [[ "$t1_flag" ]]; then
T1_orig=$t1_orig
echo " T1 images provided as ${t1_orig} "
else
echo " No T1 WIs specified, exiting. "
exit 2
fi
elif [[ "$bids_flag" -eq 0 ]] && [[ "$s_flag" -eq 1 ]]; then
echo " Wrong optional arguments, we cant have sessions without BIDS, exiting."
exit 2
fi
######
ROIs="${output_d}/ROIs"
overlap="${output_d}/overlap"
#####
# make your dirs
mkdir -p ${preproc_m} >/dev/null 2>&1
mkdir -p ${output_m} >/dev/null 2>&1
mkdir -p ${preproc} >/dev/null 2>&1
mkdir -p ${output_d} >/dev/null 2>&1
mkdir -p ${ROIs} >/dev/null 2>&1
mkdir -p ${overlap} >/dev/null 2>&1
# make your log file
prep_log="${preproc}/KUL_VBG_prep_log_${d}.txt";
if [[ ! -f ${prep_log} ]] ; then
touch ${prep_log}
else
echo "${prep_log} already created"
fi
echo " Preproc dir is ${preproc} and output dir is ${output_d}" | tee -a ${prep_log}
echo " You are using KUL_VBG.sh version ${v}" | tee -a ${prep_log}
# deal with ncpu and itk ncpu
# itk default ncpu for antsRegistration
itk_ncpu="export ITK_GLOBAL_DEFAULT_NUMBER_OF_THREADS=${ncpu}"
export $itk_ncpu
silent=1
# decide on BET method
if [[ -z "${BET_flag}" ]]; then
echo
echo " You have not specified a BET method, ANTsBET will be used by default" | tee -a ${prep_log}
echo
BET_m=2
else
if [[ ${BET_m} -eq 1 ]]; then
echo
echo " You have specified HD-BET for brain extraction, please make sure it is called correctly from within KUL_VBG"
echo " You have specified HD-BET for brain extraction, please make sure it is called correctly from within KUL_VBG" | tee -a ${prep_log}
echo " In case of BET problems see lines 1124 - 1200 "
echo
# BET_m=1
elif [[ ${BET_m} -eq 2 ]]; then
echo
echo " You have specified ANTs-BET for brain extraction, please make sure it is called correctly from within KUL_VBG"
echo " You have specified ANTs-BET for brain extraction, please make sure it is called correctly from within KUL_VBG" | tee -a ${prep_log}
echo " In case of BET problems see lines 1124 - 1200 "
echo
# BET_m=2
else
echo
echo " You have specified an incorrect value to the -B option, exiting... "
echo " Correct options for the -B flag are 1 for HD-BET or 2 for ANTs-BET"
exit 2
fi
fi
# set this manually for debugging
function_path=($(which KUL_VBG.sh | rev | cut -d"/" -f2- | rev))
mrtrix_path=($(which mrmath | rev | cut -d"/" -f3- | rev))
FS_path1=($(which recon-all | rev | cut -d"/" -f3- | rev))
if [[ -z ${function_path} ]]; then
echo "update function path to reflect funciton name line 514"
exit 2
else
echo " VBG lives in ${function_path} "
echo " VBG lives in ${function_path} " | tee -a ${prep_log}
fi
# the primary image is the noncontrast T1
prim=${T1_orig}
# this if loop will quit the script if the T1 is not found
if [[ -z "${T1_orig}" ]]; then
echo
echo " Incorrect T1 input, please check the file path and name "
echo
exit 2
else
echo "Inputs are -p ${subj} -T1 ${T1_orig} -lesion ${L_mask} -lesion_space ${L_mask_space}"
echo "Inputs are -p ${subj} -T1 ${T1_orig} -lesion ${L_mask} -lesion_space ${L_mask_space}" | tee -a ${prep_log}
fi
# REST OF SETTINGS ---
# Some parallelisation
if [[ "$n_flag" -eq 0 ]]; then
ncpu=8
echo " -n flag not set, using default 8 threads. "
echo " -n flag not set, using default 8 threads. " | tee -a ${prep_log}
else
echo " -n flag set, using " ${ncpu} " threads."
echo " -n flag set, using " ${ncpu} " threads." | tee -a ${prep_log}
fi
echo "KUL_VBG @ ${d} with parent pid $$ "
echo "KUL_VBG @ ${d} with parent pid $$ " | tee -a ${prep_log}
# --- MAIN ----------------
# Start with your Vars for Part 1
# naming strings
str_pp="${preproc}/${subj}${ses_long}"
str_op="${output_d}/${subj}${ses_long}"
str_overlap="${overlap}/${subj}${ses_long}"
# Template stuff
# check which template to use based on
# is this a pediatric or adult brain and whether we use donor tissue or not
if [[ "${p_flag}" -eq 1 ]] && [[ "${t_flag}" -eq 0 ]]; then
# ADJUST TEMPLATES FOR NKI10U IF P=1 T=0
echo "Working with default pediatric template and priors"
echo "Working with default pediatric template and priors" | tee -a ${prep_log}
MNI_T1="${function_path}/atlasses/Templates_update/VBG_"
MNI_T1_brain="${function_path}/atlasses/Templates_update/NKI10u_temp_brain.nii.gz"
MNI_brain_mask="${function_path}/atlasses/Templates_update/NKI10u_temp_brain_mask.nii.gz"
MNI_brain_pmask="${function_path}/atlasses/Templates_update/ped_PBEM.nii.gz"
MNI_brain_emask="${function_path}/atlasses/Templates_update/ped_BET_mask.nii.gz"
new_priors="${function_path}/atlasses/Templates_update/priors/NKI10U_Prior_%d.nii.gz"
elif [[ "${p_flag}" -eq 1 ]] && [[ "${t_flag}" -eq 1 ]]; then
# ADJUST TEMPLATES FOR VBG_PED IF P=1 T=1
echo "Working with cooked template and priors"
echo "Working with cooked template and priors" | tee -a ${prep_log}
MNI_T1="${function_path}/atlasses/Templates_update/VBG_T1_temp_ped.nii.gz"
MNI_T1_brain="${function_path}/atlasses/Templates_update/VBG_T1_temp_ped_brain.nii.gz"
MNI_brain_mask="${function_path}/atlasses/Templates_update/VBG_T1_temp_ped_brain_mask.nii.gz"
MNI_brain_pmask="${function_path}/atlasses/Templates_update/ped_PBEM.nii.gz"
MNI_brain_emask="${function_path}/atlasses/Templates_update/ped_BET_mask.nii.gz"
new_priors="${function_path}/atlasses/Templates_update/priors/VBG_ped_T_Prior_%d.nii.gz"
elif [[ "${p_flag}" -eq 0 ]] && [[ "${t_flag}" -eq 1 ]]; then
echo "Working with cooked adult template and priors"
echo "Working with cooked adult template and priors" | tee -a ${prep_log}
MNI_T1="${function_path}/atlasses/Templates_update/VBG_T1_temp.nii.gz"
MNI_T1_brain="${function_path}/atlasses/Templates_update/VBG_T1_temp_brain.nii.gz"
MNI_brain_mask="${function_path}/atlasses/Templates_update/VBG_T1_temp_brain_mask.nii.gz"
MNI_brain_pmask="${function_path}/atlasses/Templates_update/adult_PBEM.nii.gz"
MNI_brain_emask="${function_path}/atlasses/Templates_update/adult_BET_mask.nii.gz"
new_priors="${function_path}/atlasses/Templates_update/priors/VBG_adult_T_Prior_%d.nii.gz"
elif [[ "${p_flag}" -eq 0 ]] && [[ "${t_flag}" -eq 0 ]]; then
echo "Working with default adult template and priors"
echo "Working with default adult template and priors" | tee -a ${prep_log}
MNI_T1="${function_path}/atlasses/Templates_update/HR_T1_MNI.nii.gz"
MNI_T1_brain="${function_path}/atlasses/Templates_update/HR_T1_MNI_brain.nii.gz"
MNI_brain_mask="${function_path}/atlasses/Templates_update/HR_T1_MNI_brain_mask.nii.gz"
MNI_brain_pmask="${function_path}/atlasses/Templates_update/adult_PBEM.nii.gz"
MNI_brain_emask="${function_path}/atlasses/Templates_update/adult_BET_mask.nii.gz"
new_priors="${function_path}/atlasses/Templates_update/priors/HRT1_Prior_%d.nii.gz"
fi
MNI2_in_T1="${str_pp}_T1_brain_inMNI2_InverseWarped.nii.gz"
MNI2_in_T1_hm="${str_pp}_T1_brain_inMNI2_InverseWarped_HistMatch.nii.gz"
MNI_r="${function_path}/atlasses/Templates_update/Rt_hemi_mask.nii.gz"
MNI_l="${function_path}/atlasses/Templates_update/Lt_hemi_mask.nii.gz"
MNI_lw="${str_pp}_MNI_L_insubjT1_inMNI1.nii.gz"
MNI_lwr="${str_pp}_MNI_L_insubjT1_inMNI1r.nii.gz"
MNI_rwr="${str_pp}_MNI_R_insubjT1_inMNI1r.nii.gz"
L_hemi_mask="${str_pp}_L_hemi_mask_bin.nii.gz"
H_hemi_mask="${str_pp}_H_hemi_mask_bin.nii.gz"
L_hemi_mask_binv="${str_pp}_L_hemi_mask_binv.nii.gz"
H_hemi_mask_binv="${str_pp}_H_hemi_mask_binv.nii.gz"
# CSF+GMC+GMB+WM and the rest
tmp_s2T1_nCSFGMC="${str_pp}_tmp_s2T1_nCSFGMC.nii.gz"
tmp_s2T1_nCSFGMCB="${str_pp}_tmp_s2T1_nCSFGMCB.nii.gz"
tmp_s2T1_nCSFGMCBWM="${str_pp}_tmp_s2T1_nCSFGMCBWM.nii.gz"
tmp_s2T1_nCSFGMCBWMr="${str_pp}_tmp_s2T1_nCSFGMCBWMr.nii.gz"
tmp_s2T1_CSFGMCBWM="${str_pp}_tmp_s2T1_CSFGMCBWM.nii.gz"
MNI2_in_T1_scaled="${str_pp}_MNI_brain_IW_scaled.nii.gz"
tissues=("CSF" "GMC" "GMBG" "WM");
priors_str="${new_priors::${#new_priors}-9}*.nii.gz"
priors_array=($(ls ${priors_str}))
if [[ -z ${priors_array} ]]; then
echo " priors are not found!"
exit 2
else
echo "priors are ${priors_array}"
fi
# arrays
declare -a Atropos1_posts
declare -a Atropos2_posts
# need also to declare tpm arrays
declare -a atropos1_tpms_Lfill
declare -a atropos2_tpms_filled
declare -a atropos2_tpms_filled_GLC
declare -a atropos2_tpms_filled_GLCbinv
declare -a atropos2_tpms_punched
declare -a NP_arr_rs
declare -a NP_arr_rs_bin
declare -a NP_arr_rs_binv
declare -a NP_arr_rs_bin2
declare -a NP_arr_rs_binv2
declare -a Atropos2_posts_bin
declare -a Atropos2_posts_bin2
declare -a Atropos1_posts_bin
declare -a T1_ntiss_At2masked
declare -a nMNI2_inT1_ntiss_sc2T1MNI1
declare -a MNI2_inT1_ntiss
declare -a Atropos2_Int_finder
declare -a R_nTiss_Norm_mean
declare -a R_nTiss_Int_map_norm
declare -a Atropos1b_ntiss_map
declare -a A1_nTiss_Norm_mean
declare -a A1_nTiss_Int_scaled
declare -a A1_nTiss_Int_scaled_fill
declare -a R_nTiss_map_filled
# input variables
# lesion stuff
Lmask_o=$L_mask
L_mask_reori="${str_pp}_L_mask_reori.nii.gz"
L_mask_reori1="${str_pp}_L_mask_reori1.nii.gz"
Lmask_FS_reori="${str_pp}_Lmask_FS_reori.nii.gz"
L_mask_affMNI1="${str_pp}_L_mask_r_MNI1aff.nii.gz"
L_mask_MNI1c_bin="${str_pp}_L_mask_r_MNI1aff_bin.nii.gz"
L_mask_MNI1c_binv="${str_pp}_L_mask_r_MNI1aff_binv.nii.gz"
L_O_binv="${str_pp}_L_mask_reori_binv.nii.gz"
Lmask_bin="${str_pp}_L_mask_orig_bin.nii.gz"
Lmask_in_T1="${str_pp}_L_mask_in_T1.nii.gz"
Lmask_in_T1_bin="${str_pp}_L_mask_in_T1_bin.nii.gz"
Lmask_in_T1_binv="${str_pp}_L_mask_in_T1_binv.nii.gz"
Lmask_bin_s3="${str_pp}_Lmask_in_T1_bins3.nii.gz"
Lmask_bin_s3_flat="${str_pp}_Lmask_in_T1_bins3_flat.nii.gz"
Lmask_binv_s3_nobrain="${str_pp}_Lmask_in_T1_binvs3_nobrain.nii.gz"
Lmask_binv_s3="${str_pp}_Lmask_in_T1_binvs3.nii.gz"
brain_mask_minL="${str_pp}_antsBET_BrainMask_min_L.nii.gz"
brain_mask_minL_inMNI1="${str_pp}_brainmask_minL_inMNI1.nii.gz"
brain_mask_minL_inMNI2="${str_pp}_brainmask_minL_inMNI2.nii.gz"
brain_mask_minL_atropos2="${str_pp}_brainmask_minL_atropos2.nii.gz"
Lmask_bin_inMNI1="${str_pp}_Lmask_bin_inMNI1.nii.gz"
Lmask_binv_inMNI1="${str_pp}_Lmask_binv_inMNI1.nii.gz"
Lmask_bin_inMNI1_s3="${str_pp}_Lmask_bin_s3_inMNI1.nii.gz"
Lmask_bin_inMNI1_dilx2="${str_pp}_Lmask_bin_inMNI1_dilmx2.nii.gz"
Lmask_binv_inMNI1_dilx2="${str_pp}_Lmask_binv_inMNI1_dilmx2.nii.gz"
Lmask_binv_inMNI1_s3="${str_pp}_Lmask_binv_s3_inMNI1.nii.gz"
Lmask_bin_inMNI2_s3="${str_pp}_Lmask_bin_s3_inMNI2.nii.gz"
Lmask_binv_inMNI2_s3="${str_pp}_Lmask_binv_s3_inMNI2.nii.gz"
Lmask_bin_inMNI2="${str_pp}_Lmask_bin_inMNI2.nii.gz"
fbrain_mask_minL_inMNI1="${str_pp}_fbrainmask_minL_inMNI1.nii.gz"
L_fill_T1="${str_pp}_T1_Lfill_inMNI2.nii.gz"
nat_T1_filled1="${str_pp}_T1inMNI2_fill1.nii.gz"
stitched_T1_temp="${str_pp}_stitched_T1_brain_temp.nii.gz"
stitched_T1_nat="${str_pp}_stitched_T1_brain_nat.nii.gz"
stitched_T1_innat="${str_pp}_stitched_T1_brain_bk2nat.nii.gz"
# stitched_T1_temp_innat="${str_pp}_stitched_T1_brain_temp_bk2nat.nii.gz"
# stitched_T1="${str_pp}_stitched_T1_brain.nii.gz"
T1_bk2nat1_str="${str_pp}_T1_brain_bk2anat1_"
Temp_L_hemi="${str_pp}_Temp_L_hemi_filler.nii.gz"
Temp_L_fill_T1="${str_pp}_Temp_L_fill_T1.nii.gz"
Temp_T1_bilfilled1="${str_pp}_T1_brain_Temp_bil_Lmask_filled1.nii.gz"
Temp_bil_Lmask_fill1="${str_pp}_Temp_bil_Lmask_fill1.nii.gz"
Temp_T1_filled1="${str_pp}_Temp_T1inMNI2_filled1.nii.gz"
T1_filled_bk2nat1="${str_pp}_T1_brain_bk2anat1_InverseWarped.nii.gz"
filled_segm_im="${str_pp}_atropos1_Segmentation_2nat.nii.gz"
real_segm_im="${str_pp}_atropos2_Segmentation_2nat.nii.gz"
Lfill_segm_im="${str_pp}_Lfill_segmentation_im.nii.gz"
atropos2_segm_im_filled="${str_pp}_filled_atropos2_segmentation_im.nii.gz"
atropos2_segm_im_filled_nat="${str_pp}_filled_atropos2_segmentation_im.nii.gz"
lesion_left_overlap="${str_overlap}_L_lt_overlap.nii.gz"
lesion_right_overlap="${str_overlap}_L_rt_overlap.nii.gz"
smoothed_binLmask15="${str_pp}_smoothedLmaskbin15.nii.gz"
smoothed_binvLmask15="${str_pp}_smoothedLmaskbinv15.nii.gz"
# last lesion related vars (hopefully)
L_mask_reori_scaled="${str_pp}_L_mask_reori_scaled99.nii.gz"
bmc_minL_conn="${str_pp}_brain_mask_cleaned_minL_conn.nii.gz"
bmc_minL_true="${str_pp}_brain_mask_cleaned_minL.nii.gz"
L_mask_reori_ero1="${str_pp}_L_mask_reori_ero1.nii.gz"
bmc_minL_ero1="${str_pp}_brain_mask_cleaned_minL_ero1.nii.gz"
L_mask_reori_ero2="${str_pp}_L_mask_reori_ero2.nii.gz"
bmc_minL_ero2="${str_pp}_brain_mask_cleaned_minL_ero2.nii.gz"
# img vars for part 1 and 2
T1_reori_mat="${str_pp}_T1_reori2std_matrix.mat"
T1_reori_mat_inv="${str_pp}_T1_reori2std_matrix_inv.mat"
# T1_pp1="${str_pp}_T1_bfc.nii.gz"
T1_pp1="${str_pp}_T1_dn_thr.nii.gz"
T1_brain="${str_pp}_antsBET_BrainExtractionBrain.nii.gz"
brain_mask="${str_pp}_antsBET_BrainExtractionMask.nii.gz"
T1_inMNI_aff_str="${str_pp}_T1_inMNI_aff"
T1_inMNI_aff="${str_pp}_T1_inMNI_aff_Warped.nii.gz"
KULBETp="${str_pp}_atropos4BET"
rough_mask="${str_pp}_rough_mask.nii.gz"
rough_mask_minL="${str_pp}_rough_mask_minL.nii.gz"
clean_mask_nat_binv="${str_pp}_clean_brain_mask_nat_binv.nii.gz"
T1_brain_clean="${str_pp}_Brain_clean.nii.gz"
MNI_bm_BET_innat="${str_pp}_MNI_BM_inNat.nii.gz"
clean_mask_nat="${str_pp}_Brain_clean_mask.nii.gz"
clean_BM_mgz="${str_pp}_Brain_clean_mask.mgz"
hdbet_str="${str_pp}_Brain_clean"
BET_mask_s2="${str_pp}_antsBET_Mask_s2.nii.gz"
BET_mask_binvs2="${str_pp}_antsBET_Mask_binv_s2.nii.gz"
T1_skull="${str_pp}_T1_skull.nii.gz"
T1_brMNI1_str="${str_pp}_T1_brain_inMNI1_"
T1_brain_inMNI1="${str_pp}_T1_brain_inMNI1_Warped.nii.gz"
# T1_noise_inMNI1="${str_pp}_T1_noise_inMNI1.nii.gz"
# fT1_noise_inMNI1="${str_pp}_fT1_noise_inMNI1.nii.gz"
# T1_noise_H_hemi="${str_pp}_T1_noise_Hhemi_inMNI1.nii.gz"
# stitched_noise_MNI1="${str_pp}_T1_stitched_noise_inMNI1.nii.gz"
# stitched_noise_nat="${str_pp}_T1_stitched_noise_nat.nii.gz"
T1_brMNI2_str="${str_pp}_T1_brain_inMNI2_"
T1_brain_inMNI2="${str_pp}_T1_brain_inMNI2_Warped.nii.gz"
fT1brain_inMNI1="${str_pp}_fT1_brain_inMNI1_Warped.nii.gz"
fT1_brMNI2_str="${str_pp}_fT1_brain_inMNI2_"
fT1brain_inMNI2="${str_pp}_fT1_brain_inMNI2_Warped.nii.gz"
brain_mask_inMNI1="${str_pp}_brain_mask_inMNI1.nii.gz"
# MNI_brain_mask_in_nat="${str_pp}_MNI_brain_mask_in_nat.nii.gz"
T1_sti2fil_str="${str_pp}_stitchT12filled_brain_"