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allow custom kernels
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Korbinian Eckstein
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Mar 15, 2024
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using DICOM, QuantitativeSusceptibilityMappingTGV, CUDA, MriResearchTools, NPZ | ||
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fn_phase = "/home/korbi/data/MRI/data/josef_streaking/P141_3depi.dicom.non-interpolated/EnhancedMRImage_EPI3D_sag_0.67mm_iso_Pha_00001.dcm" | ||
fn_mag = "/home/korbi/data/MRI/data/josef_streaking/P141_3depi.dicom.non-interpolated/EnhancedMRImage_EPI3D_sag_0.67mm_iso_Mag_00003.dcm" | ||
fn_mask = "/home/korbi/data/MRI/data/josef_streaking/P141_3depi.dicom.non-interpolated/wip_QSM_20240222T074855_Mask.npy" | ||
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phase = dcm_parse(fn_phase)[tag"PixelData"] .* 2π ./ 4096 .- π | ||
mag = dcm_parse(fn_mag)[tag"PixelData"] | ||
mask = npzread(fn_mask) .!= 0 | ||
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savenii(mask, "mask", ".") | ||
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voxel_size = [0.67, 0.67, 0.67] # in [mm] | ||
TE = 0.035 | ||
B0 = 2.8949 | ||
B0_dir = [1, 0, 0] | ||
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chi = qsm_tgv(phase, mask, voxel_size; TE=TE, fieldstrength=B0, B0_dir=B0_dir, gpu=CUDA) | ||
savenii(chi, "chi", ".") | ||
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## | ||
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phase = dcm_parse("/home/korbi/data/MRI/Siemens_QSM/data/EnhancedMRImage_3depi_0.65iso_te27_ef17_00001.dcm")[tag"PixelData"] .* 2π ./ 4096 .- π | ||
mag = dcm_parse("/home/korbi/data/MRI/Siemens_QSM/data/EnhancedMRImage_3depi_0.65iso_te27_ef17_00002.dcm")[tag"PixelData"] | ||
mask = dcm_parse("/home/korbi/data/MRI/Siemens_QSM/data/EnhancedMRImage_3depi_0.65iso_te27_ef17_Qsm_00002.dcm")[tag"PixelData"] .!= 0x0800 | ||
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minp, maxp = extrema(phase) | ||
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savenii(mask, "mask", ".") | ||
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voxel_size = [0.325521, 0.325521, 0.65] # in [mm] | ||
TE = 0.027 # in [s] | ||
fieldstrength = 2.89497 # in [T] | ||
B0_dir = [0, 0, 1] | ||
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chi_orig = qsm_tgv(phase, mask, voxel_size; iterations=1000:1000:8000, TE=TE, fieldstrength=fieldstrength, gpu=CUDA, B0_dir=B0_dir, orig_kernel=true); | ||
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for (i, chi) in enumerate(chi_orig) | ||
savenii(chi, "chi_orig_$(i*1000)", ".") | ||
end | ||
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# chi_orig = qsm_tgv(phase, mask, voxel_size; iterations=500, TE=TE, fieldstrength=fieldstrength, gpu=CUDA, B0_dir=B0_dir); | ||
# savenii(chi_orig, "chi_orig_500", ".") | ||
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## First time install NPZ for reading npy files | ||
# import Pkg | ||
# Pkg.add("NPZ") | ||
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using QuantitativeSusceptibilityMappingTGV, MriResearchTools, NPZ, CUDA | ||
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mask = npzread("/home/korbi/data/MRI/data/josef_ice_run/wip_iSWI_20220913T080705_Mask_2.npy") .!= 0; # convert to boolean | ||
phase = npzread("/home/korbi/data/MRI/data/josef_ice_run/wip_iSWI_20220913T080705_Pha_2.npy") | ||
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voxel_size = [1.0, 1.0, 1.0] # in [mm] | ||
TE = 0.021 # in [s] | ||
fieldstrength = 3 # in [T] | ||
B0_dir = [0, 0, 1] | ||
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chi = qsm_tgv(phase, mask, voxel_size; TE=TE, fieldstrength=fieldstrength, gpu=CUDA, B0_dir=B0_dir); | ||
chi_orig = qsm_tgv(phase, mask, voxel_size; TE=TE, fieldstrength=fieldstrength, gpu=CUDA, B0_dir=B0_dir, orig_kernel=true); | ||
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savenii(chi, "chi", ".") | ||
savenii(chi_orig, "chi_orig", ".") | ||
savenii((chi .- chi_orig) ./ chi_orig, "chi_relative", ".") # relative difference | ||
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# Change regularization strength (1-4) | ||
# chi = qsm_tgv(phase, mask, res; TE, fieldstrength, regularization=1); | ||
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## | ||
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using MriResearchTools, QuantitativeSusceptibilityMappingTGV, CUDA | ||
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phase = readphase("/home/korbi/data/MRI/data/ashley_qsm_test/bids-3depi/sub-1/ses-064mm-epi/anat/sub-1_ses-064mm-epi_run-1_part-phase_T2starw.nii") | ||
mask = niread("/home/korbi/data/MRI/data/ashley_qsm_test/result/mask.nii") .!= 0 | ||
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voxel_size = [1.0, 1.0, 1.0] # in [mm] | ||
TE = 0.021 # in [s] | ||
fieldstrength = 3 # in [T] | ||
B0_dir = [0, 0, 1] | ||
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chi_orig = qsm_tgv(phase, mask, voxel_size; TE, fieldstrength, orig_kernel=true, gpu=CUDA); | ||
chi_st = qsm_tgv(phase, mask, voxel_size; TE, fieldstrength, orig_kernel=:test, gpu=CUDA); | ||
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savenii(chi_orig, "chi_orig", ".") | ||
savenii(chi_st, "chi_st", ".") | ||
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savenii((chi_st .- chi_orig) ./ abs.(chi_orig), "chi_st_relative", ".") # relative differenceswapdims(phase, 1, 3) | ||
savenii(chi_st .- chi_orig, "chi_diff", ".") | ||
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## Rotation | ||
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# Rotate 90 degrees around y-axis | ||
phase_x = permutedims(phase, [3, 2, 1]) | ||
mask_x = permutedims(mask, [3, 2, 1]) | ||
chi_x = qsm_tgv(phase_x, mask_x, voxel_size; TE, fieldstrength, orig_kernel=dipole_kernel_orig_x(voxel_size), gpu=CUDA); | ||
savenii(chi_x, "chi_x", ".") | ||
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## | ||
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function dipole_kernel_orig_z(res) | ||
dipole_kernel = zeros(Float32, 3, 3, 3) | ||
dipole_kernel[3, 2, 2] = 1/3 / res[1]^2 | ||
dipole_kernel[2, 3, 2] = 1/3 / res[2]^2 | ||
dipole_kernel[2, 2, 3] = -2/3 / res[3]^2 | ||
dipole_kernel[2, 2, 1] = -2/3 / res[3]^2 | ||
dipole_kernel[2, 1, 2] = 1/3 / res[2]^2 | ||
dipole_kernel[1, 2, 2] = 1/3 / res[1]^2 | ||
dipole_kernel[2, 2, 2] = -sum(dipole_kernel) | ||
return dipole_kernel | ||
end | ||
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function dipole_kernel_orig_x(res) | ||
dipole_kernel = zeros(Float32, 3, 3, 3) | ||
dipole_kernel[3, 2, 2] = -2/3 / res[1]^2 | ||
dipole_kernel[2, 3, 2] = 1/3 / res[2]^2 | ||
dipole_kernel[2, 2, 3] = 1/3 / res[3]^2 | ||
dipole_kernel[2, 2, 1] = 1/3 / res[3]^2 | ||
dipole_kernel[2, 1, 2] = 1/3 / res[2]^2 | ||
dipole_kernel[1, 2, 2] = -2/3 / res[1]^2 | ||
dipole_kernel[2, 2, 2] = -sum(dipole_kernel) | ||
return dipole_kernel | ||
end | ||
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function dipole_kernel_orig_y(res) | ||
dipole_kernel = zeros(Float32, 3, 3, 3) | ||
dipole_kernel[3, 2, 2] = 1/3 / res[1]^2 | ||
dipole_kernel[2, 3, 2] = -2/3 / res[2]^2 | ||
dipole_kernel[2, 2, 3] = 1/3 / res[3]^2 | ||
dipole_kernel[2, 2, 1] = 1/3 / res[3]^2 | ||
dipole_kernel[2, 1, 2] = -2/3 / res[2]^2 | ||
dipole_kernel[1, 2, 2] = 1/3 / res[1]^2 | ||
dipole_kernel[2, 2, 2] = -sum(dipole_kernel) | ||
return dipole_kernel | ||
end |