Projects:RegistrationLibrary:RegLib C02

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Slicer Registration Use Case Exampe: Intra-subject Brain MR FLAIR to MR T1

this is the fixed reference image. All images are aligned into this space lleft this is the moving image. The transform is calculated by matching this to the reference image this is a passive image to which the calculated transform is applied. It is a label-map in the same space as the moving FLAIR image
lleft T1 SPGR lleft T2 FLAIR lleft LABEL-MAP
1mm isotropic
256 x 256 x 146
RAS
1.2mm isotropic
256 x 256 x 116
RAS
1.2mm isotropic
256 x 256 x 116
RAS

Objective / Background

This scenario occurs in many forms whenever we wish to align all the series from a single MRI exam/session into a common space. Alignment is necessary because the subject likely has moved in between series.

Keywords

MRI, brain, head, intra-subject, FLAIR, T1, defacing, masking, labelmap, segmentation

Input Data

  • reference: T1 SPGR , 1x1x1 mm voxel size, sagittal, RAS orientation
  • moving: T2 FLAIR 1.2x1.2x1.2 mm voxel size, sagittal, RAS orientation
  • Content preview: Have a quick look before downloading: Does your data look like this? SPGR Lighbox , FLAIR Lighbox
  • download dataset to load into slicer (~17 MB zip archive)

Registration Challenges

  • we expect the amount of misalignment to be small
  • we know the underlying structure/anatomy did not change, hence whatever residual misalignment remains is of technical origin.
  • the different series may have different FOV. The additional image data may distract the algorithm and require masking
  • the different series may have very different resolution and anisotropic voxel sizes
  • hi-resolution datasets may have defacing applied to one or both sets, and the defacing-masks may not be available
  • the different series may have different contrast.
  • individual series may contain motion or other artifacts

Key Strategies

  • the SPGR is the anatomical reference. It is also higher resolution. Unless there are overriding reasons, always use the highest resolution image as your fixed/reference.
  • the defacing of the SPGR image introduces sharp edges that can be detrimental. Best to mask that area. If you have the mask available, use it. But in this case since we already have a skull-stripping mask as part of the labelmap, that is even better. We will load the labelmap and use it as mask in finding the registration
  • because the two images are still reasonably similar in contrast, we can choose an intensity ratio as cost function, which is less stable but if successful provides a more precise alignment than mutual information.

Procedures

Registration Results