Hierarchical Multi-Atlas Label Fusion with Multi-Scale Feature Representation and Label-specific Patch Partition

  • Authors
  • Wu G, Kim MJ, Sanroma G, Wang Q, Shen D
  • UPF authors
  • SANROMA GÜELL, GERARD;
  • Type
  • Scholarly articles
  • Journal títle
  • NeuroImage
  • Publication year
  • 2015
  • Volume
  • 106
  • Pages
  • 34-46
  • ISSN
  • 1053-8119
  • Publication State
  • Published
  • Abstract
  • apos;s critical for the chosen patch similarity measurement to accurately capture the tissue/shape appearance of the anatomical structure. One major limitation of existing state-of-the-art label fusion methods is that they often apply a fixed size image patch throughout the entire label fusion procedure. Doing so may severely affect the fidelity of the patch similarity measurement, which in turn may not adequately capture complex tissue appearance patterns expressed by the anatomical structure. To address this limitation, we advance state-of-the-art by adding three new label fusion contributions: First, each image patch is now characterized by a multi-scale feature representation that encodes both local and semi-local image information. Doing so will increase the accuracy of the patch-based similarity measurement. Second, to limit the possibility of the patch-based similarity measurement being wrongly guided by the presence of multiple anatomical structures in the same image patch, each atlas image patch is further partitioned into a set of label-specific partial image patches according to the existing labels. Since image information has now been semantically divided into different patterns, these new label-specific atlas patches make the label fusion process more specific and flexible. Lastly, in order to correct target points that are mislabeled during label fusion, a hierarchical approach is used to improve the label fusion results. In particular, a coarse-to-fine iterative label fusion approach is used that gradually reduces the patch size. To evaluate the accuracy of our label fusion approach, the proposed method was used to segment the hippocampus in the ADNI dataset and 7.0 T MR images, sub-cortical regions in LONI LBPA40 dataset, mid-brain regions in SATA dataset from MICCAI 2013 segmentation challenge, and a set of key internal gray matter structures in IXI dataset. In all experiments, the segmentation results of the proposed hierarchical label fusion method with multi-scale feature representations and label-specific atlas patches are more accurate than several well-known state-of-the-art label fusion methods.
  • Complete citation
  • Wu G, Kim MJ, Sanroma G, Wang Q, Shen D. Hierarchical Multi-Atlas Label Fusion with Multi-Scale Feature Representation and Label-specific Patch Partition. NeuroImage 2015; 106( ): 34-46.
Bibliometric indicators
  • 78 times cited Scopus
  • 68 times cited WOS
  • Índex Scimago de 4.583(2015)