import numpy as np import SimpleITK as sitk import matplotlib.pyplot as plt # ######## load images ############# # path_b50 = '/data/pca-rad/datasets/radboud_new/pat0634/2016/diffusie_cro/b-50/nifti_image.nii.gz' # path_b400 = '/data/pca-rad/datasets/radboud_new/pat0634/2016/diffusie_cro/b-400/nifti_image.nii.gz' # path_b800 = '/data/pca-rad/datasets/radboud_new/pat0634/2016/diffusie_cro/b-800/nifti_image.nii.gz' # path_b1400 = '/data/pca-rad/datasets/radboud_new/pat0634/2016/diffusie_cro/b-1400/nifti_image.nii.gz' # path_adc = '/data/pca-rad/datasets/radboud_new/pat0634/2016/dADC/nifti_image.nii.gz' path_adc = '/data/pca-rad/datasets/anonymized_mri/only_nii_directory/110-M-110/2015NB/dADC_0-50-500-1000/702_.nii.gz' path_b0 = '/data/pca-rad/datasets/anonymized_mri/only_nii_directory/110-M-110/2015NB/Diffusie/b-0/701_.nii.gz' path_b800 = '/data/pca-rad/datasets/anonymized_mri/only_nii_directory/110-M-110/2015NB/Diffusie/b-800/701_.nii.gz' # path_b50 = 'X:/sfransen/train_output/adc_exp/b50_true.nii.gz' # path_b400 = 'X:/sfransen/train_output/adc_exp/b400_true.nii.gz' # path_b800 = 'X:/sfransen/train_output/adc_exp/b800_true.nii.gz' # path_b1400 = 'X:/sfransen/train_output/adc_exp/b1400_true.nii.gz' # path_adc = 'X:/sfransen/train_output/adc_exp/adc_true.nii.gz' # path_b50 = '/data/pca-rad/sfransen/train_output/adc_exp/b50_true.nii.gz' # path_b400 = '/data/pca-rad/sfransen/train_output/adc_exp/b400_true.nii.gz' # path_b800 = '/data/pca-rad/sfransen/train_output/adc_exp/b800_true.nii.gz' # path_b1400 = '/data/pca-rad/sfransen/train_output/adc_exp/b1400_true.nii.gz' # path_adc = '/data/pca-rad/sfransen/train_output/adc_exp/adc_true.nii.gz' b0_img = sitk.ReadImage(path_b0, sitk.sitkFloat32) b0 = sitk.GetArrayFromImage(b0_img) # b400_img = sitk.ReadImage(path_b400, sitk.sitkFloat32) # b400 = sitk.GetArrayFromImage(b400_img) b800_img = sitk.ReadImage(path_b800, sitk.sitkFloat32) b800 = sitk.GetArrayFromImage(b800_img) # b1400_img = sitk.ReadImage(path_b1400, sitk.sitkFloat32) # b1400_original = sitk.GetArrayFromImage(b1400_img) adc_img = sitk.ReadImage(path_adc, sitk.sitkFloat32) adc_original = sitk.GetArrayFromImage(adc_img) def show_img(greyscale_img): fig = plt.figure() plt.imshow(greyscale_img) plt.axis('on') path = f"iets.png" fig.savefig(path, dpi=300, bbox_inches='tight') def calc_adc(b50, b400, b800): "Calculates the adc based on b50, b400 and b800 DWI images/arrays." mean_dwi = (50 + 400 + 800) / 3 mean_si = np.divide(np.add(np.add(np.log(b50), np.log(b400)), np.log(b800)), 3) denominator = np.multiply((50 - mean_dwi), np.subtract(np.log(b50), mean_si)) + np.multiply((400 - mean_dwi), np.subtract(np.log(b400), mean_si)) + np.multiply((800 - mean_dwi), np.subtract(np.log(b800), mean_si)) numerator = np.power((50 - mean_dwi), 2) + np.power((400 - mean_dwi), 2) + np.power((800 - mean_dwi), 2) adc_with_zeros = np.divide(denominator, numerator) * -1000000 adc = np.clip(adc_with_zeros,0,np.amax(adc_with_zeros)) return adc def calc_adc_1(b0,b800): mean_dwi = (0 + 800) / 2 mean_si = np.divide(np.add(np.log(b0), np.log(b800)), 2) denominator = np.multiply((0 - mean_dwi), np.subtract(np.log(b0), mean_si)) + np.multiply((800 - mean_dwi), np.subtract(np.log(b800), mean_si)) numerator = np.power((0 - mean_dwi), 2) + np.power((800 - mean_dwi), 2) adc_with_zeros = np.divide(denominator, numerator) * -1000000 adc = np.clip(adc_with_zeros,0,np.amax(adc_with_zeros)) return adc def calc_adc_2(b50,b400): mean_dwi = (50 + 400) / 2 mean_si = np.divide(np.add(np.log(b50), np.log(b400)), 2) denominator = np.multiply((50 - mean_dwi), np.subtract(np.log(b50), mean_si)) + np.multiply((400 - mean_dwi), np.subtract(np.log(b400), mean_si)) numerator = np.power((50 - mean_dwi), 2) + np.power((400 - mean_dwi), 2) adc_with_zeros = np.divide(denominator, numerator) * -1000000 adc = np.clip(adc_with_zeros,0,np.amax(adc_with_zeros)) return adc def calc_adc_3(b400,b800): mean_dwi = (400 + 800) / 2 mean_si = np.divide(np.add(np.log(b400), np.log(b800)), 2) denominator = np.multiply((400 - mean_dwi), np.subtract(np.log(b400), mean_si)) + np.multiply((800 - mean_dwi), np.subtract(np.log(b800), mean_si)) numerator = np.power((400 - mean_dwi), 2) + np.power((800 - mean_dwi), 2) adc_with_zeros = np.divide(denominator, numerator) * -1000000 adc = np.clip(adc_with_zeros,0,np.amax(adc_with_zeros)) return adc def calc_high_b(b_value_high,b_value,b_image,adc): """ Calculates a high b-value image. b_value_high = the requered b-value integer b_value = the b_value integer used as reference image b_value = the corresponding array adc = the corresponding adc array """" high_b = np.multiply(b_image, np.exp(np.multiply(np.subtract(b_value,b_value_high), (np.divide(adc,1000000))))) return high_b adc_0_800 = calc_adc_1(b0,b800) high_b_1400_0 = calc_high_b(1400,0,b0,adc_0_800) adc_0_800 = sitk.GetImageFromArray(adc_0_800) adc_0_800.CopyInformation(b0_img) sitk.WriteImage(adc_0_800, f"../train_output/test.nii.gz") adc_50_800 = sitk.GetImageFromArray(adc_50_800) adc_50_800.CopyInformation(adc_img) sitk.WriteImage(adc_50_800, f"../train_output/adc_exp/adc_copied_with_adc.nii.gz") # quit() # adc_50_400_800 = calc_adc(b50,b400,b800) # adc_50_800 = calc_adc_1(b50,b800) # adc_50_400 = calc_adc_2(b50,b400) # adc_400_800 = calc_adc_3(b400,b800) # high_b_1400_50 = calc_high_b(1400,50,b50,adc_50_800) # high_b_1400_all = calc_high_b(1400,50,b50,adc_50_400_800) # high_b_1400_400 = calc_high_b(1400,400,b400,adc_50_800) # high_b_1400_800 = calc_high_b(1400,800,b800,adc_50_800) # fig, (ax1, ax2, ax3) = plt.subplots(1, 3) # fig.suptitle('ADC calculated with b50 b400 b800') # ax1.imshow(adc_50_400_800[:][:][13],cmap='gray') # ax1.set_title('calculated b50 b400 b800') # ax2.imshow(adc_original[:][:][13],cmap='gray') # ax2.set_title('original') # error_map = np.subtract(adc_original[:][:][13],adc_50_800[:][:][13]) # ax3.imshow(error_map,cmap='gray') # ax3.set_title('error map') # path = f"ADC_634.png" # fig.savefig(path, dpi=300, bbox_inches='tight') # fig, (ax1, ax2, ax3) = plt.subplots(1, 3) # fig.suptitle('ADC calculated with b50 b800') # ax1.imshow(adc_50_800[:][:][13],cmap='gray') # ax1.set_title('calculated b50 b800') # ax2.imshow(adc_original[:][:][13],cmap='gray') # ax2.set_title('original') # error_map = np.subtract(adc_original[:][:][13],adc_50_800[:][:][13]) # ax3.imshow(error_map,cmap='gray') # ax3.set_title('error map') # path = f"ADC_634_1.png" # fig.savefig(path, dpi=300, bbox_inches='tight') # fig, (ax1, ax2, ax3) = plt.subplots(1, 3) # fig.suptitle('Difference between ADC calculation') # ax1.imshow(adc_50_400_800[:][:][13],cmap='gray') # ax1.set_title('calculated b50 b400 b800') # ax2.imshow(adc_50_800[:][:][13],cmap='gray') # ax2.set_title('calculated b50 b800') # error_map = np.subtract(adc_50_800[:][:][13],adc_50_400_800[:][:][13]) # ax3.imshow(error_map,cmap='gray') # ax3.set_title('error map') # path = f"ADC_634_different_calculation_1.png" # fig.savefig(path, dpi=300, bbox_inches='tight') # fig, (ax1, ax2, ax3) = plt.subplots(1, 3) # fig.suptitle('Difference between ADC calculation') # ax1.imshow(adc_50_800[:][:][13],cmap='gray') # ax1.set_title('calculated b50 b800') # ax2.imshow(adc_50_400[:][:][13],cmap='gray') # ax2.set_title('calculated b50 b400') # error_map = np.subtract(adc_50_800[:][:][13],adc_50_400[:][:][13]) # ax3.imshow(error_map,cmap='gray') # ax3.set_title('error map') # path = f"ADC_634_different_calculation_2.png" # fig.savefig(path, dpi=300, bbox_inches='tight') # fig, (ax1, ax2, ax3) = plt.subplots(1, 3) # fig.suptitle('High B calculated with b50 reference and ADC from b50&b800') # ax1.imshow(high_b_1400_50[:][:][13],cmap='gray') # ax1.set_title('calculated') # ax2.imshow(b1400_original[:][:][13],cmap='gray') # ax2.set_title('original') # error_map = np.subtract(b1400_original[:][:][13],high_b_1400_50[:][:][13]) # ax3.imshow(error_map,cmap='gray') # ax3.set_title('error map') # path = f"HighB_b50_b800_634_1.png" # fig.savefig(path, dpi=300, bbox_inches='tight') # fig, (ax1, ax2, ax3) = plt.subplots(1, 3) # fig.suptitle('High B calculated with b50 reference and ADC from b50&b400&b800') # ax1.imshow(high_b_1400_50[:][:][13],cmap='gray') # ax1.set_title('calculated') # ax2.imshow(b1400_original[:][:][13],cmap='gray') # ax2.set_title('original') # error_map = np.subtract(b1400_original[:][:][13],high_b_1400_50[:][:][13]) # ax3.imshow(error_map,cmap='gray') # ax3.set_title('error map') # path = f"HighB_b50_b800_634_2.png" # fig.savefig(path, dpi=300, bbox_inches='tight') # adc_50_400_800 = sitk.GetImageFromArray(adc_50_400_800) # adc_50_400_800.CopyInformation(b50_img) # sitk.WriteImage(adc_50_400_800, f"../train_output/adc_exp/adc_copied_with_b50.nii.gz") # adc_50_800 = sitk.GetImageFromArray(adc_50_800) # adc_50_800.CopyInformation(adc_img) # sitk.WriteImage(adc_50_800, f"../train_output/adc_exp/adc_copied_with_adc.nii.gz") # adc_50_400 = sitk.GetImageFromArray(adc_50_400) # sitk.WriteImage(adc_50_400, f"../train_output/adc_exp/output/adc_calc_b50_b400.nii.gz") # adc_400_800 = sitk.GetImageFromArray(adc_400_800) # sitk.WriteImage(adc_400_800, f"../train_output/adc_exp/output/adc_calc_b400_b800.nii.gz") # high_b_1400_50 = sitk.GetImageFromArray(high_b_1400_50) # high_b_1400_50.CopyInformation(b50_img) # sitk.WriteImage(high_b_1400_50, f"../train_output/adc_exp/hb_copied_with_b50.nii.gz") # high_b_1400_50_1 = sitk.GetImageFromArray(high_b_1400_50) # high_b_1400_50_1.CopyInformation(adc_img) # sitk.WriteImage(high_b_1400_50_1, f"../train_output/adc_exp/hb_copied_with_adc.nii.gz") # high_b_1400_400 = sitk.GetImageFromArray(high_b_1400_400) # sitk.WriteImage(high_b_1400_400, f"../train_output/adc_exp/output/b1400_ref_b400.nii.gz") # high_b_1400_800 = sitk.GetImageFromArray(high_b_1400_800) # sitk.WriteImage(high_b_1400_800, f"../train_output/adc_exp/output/b1400_ref_b800.nii.gz") ########################################################################################## # b50 = sitk.GetImageFromArray(b50) # sitk.WriteImage(b50, "./../train_output/adc_exp/b50_true.nii.gz") # b400 = sitk.GetImageFromArray(b400) # sitk.WriteImage(b400, "./../train_output/adc_exp/b400_true.nii.gz") # b800 = sitk.GetImageFromArray(b800) # sitk.WriteImage(b800, "./../train_output/adc_exp/b800_true.nii.gz") # b1400 = sitk.GetImageFromArray(b1400) # sitk.WriteImage(b1400,f"./../train_output/adc_exp/b1400_true.nii.gz") # adc = sitk.GetImageFromArray(adc) # sitk.WriteImage(adc, f"adc_true.nii.gz")