Initial atlas construction workflow

1.1. Select the subject that is best oriented as the template image

1.2. Manually identify the ICC in the template subject.

1.3. Perform intensity calibration to the template.

1.4. 12 DOF registration of each of the subjects to the template.

1.5. Skull-strip each subject using dilated ICC of the template.

1.1. n/a

1.2. manual in SNAP.

1.3. Slicer Histogram Matching module

1.4. FSL/Flirt

1.5. Slicer Mask, Editor modules (verify the mask encloses actual ICC!)

2.1. Use the affine registered image from Step 1.6 as the template to repeat Steps 1.1-1.6.

2.2. Perform non-rigid alignment of the subjects affinely registered to the template.

2.3. Compute the atlas as the average.

2.1 see above

2.2. Slicer BRAINSFit extension (BSpline), possibly Groupwise BSpline registration by Balci et al. [2]

2.3. Tool from step 1.6.

3.1. Segment WM/GM/CSF from the averaged template, manually edit to ensure accuracy

3.2. Slightly smooth the segmentations Styner et al. recommend kernel of 0.4 mm variance.

3.3. Back-propagate WM/GM/CSF segmentations to the training subjects using the deformation field from Step 2.2.

3.4. Construct the probabilistic atlas by averaging of the tissue maps, normalize locally to 1, construct rejection class by inverting the sum of WM+GM+CSF.

3.1. Slicer editor module (thresholding, manual editing)

3.2. Gaussian smoothing module (check availability)

3.3. Slicer applyDeformation module (command line accessible only!)

3.4. Tool from Step 1.6, tool to be developed, Slicer Editor module