2014 Summer Project Week:Atlas Selection

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Key Investigators

  • Kanglin Chen (Fraunhofer MEVIS Germany)
  • Gregory Sharp (Harvard Medical School)

Project Description

Objective

Atlas selection is used for image segmentation. Normally, a single image is chosen as an atlas and the structures are segmented manually. The segmentation is transferred to patient data using non-linear image registration. However, image segmentation based on single image atlas is not stable. To improve the segmentation, we can select multiple images, which are suitable for image segmentation and after registration we can merge the segmentations to a final one. An idea to improve the atlas selection process is that we take advantage of using an average atlas. The procedure of atlas selection used for image segmentation is defined as follows:

  • Construct an atlas based on a database
  • Every image of the database is aligned to the atlas after the average atlas construction.
  • Register the average atlas to a new image and transfer the database and their segmentations to the new image.
  • Compare the transformed database with the new image in the ROI and select some well-matched images with respected to some distance measure, e.g. MI, CC, NGF.
  • Merge the segmentations of these well-matched images to a final one based on e.g. weighted voting or STAPLE algorithm.

The crucial step of atlas selection is the average atlas construction. The focus of this project lies on the construction of an average atlas using 3D datasets and validate the average atlas with the inspection of segmentations.

Approach, Plan

The average atlas construction modeling and algorithm are based on non-linear image registration and reconstruction. The algorithm does not depend on selecting a particular image as the template and the solution is optimal with respect to a minimization problem. In this project we want to construct an atlas using a database with segmentations and validate the average atlas by the visual inspection of merged segmentations.

Progress

  • We developed algorithms for the average atlas construction, finished programming in Matlab. and visualization in Slicer.
  • We constructed the average atlas of 20 datasets for H&N and merged segmentations into the average atlas.
  • We visualized the average atlas and its probability maps of segmentations in the Slicer.

Project Results

  • We have 20 datasets for H&N including lung and chest. For example

Axial orig image.png Coronal orig image.png Sagittal orig image.png

  • We select the ROI of every data excluding lung and chest. For each data there exist the segmentations of brain stem, left and right parotids. For example

Axial roi image.png Coronal roi image.png Sagittal roi image.png

  • We constructed an atlas from 20 datasets of ROI, and merged the segmentations. These segmentations are probability maps of

brain stem, left and right parotids.

Axial atlas image.png Coronal atlas image.png Sagittal atlas image.png