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Unsupervised model for structure segmentation applied to brain computed tomography

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  • Paulo Victor dos Santos
  • Marcella Scoczynski Ribeiro Martins
  • Solange Amorim Nogueira
  • Cristhiane Gonçalves
  • Rafael Maffei Loureiro
  • Wesley Pacheco Calixto

Abstract

This article presents an unsupervised method for segmenting brain computed tomography scans. The proposed methodology involves image feature extraction and application of similarity and continuity constraints to generate segmentation maps of the anatomical head structures. Specifically designed for real-world datasets, this approach applies a spatial continuity scoring function tailored to the desired number of structures. The primary objective is to assist medical experts in diagnosis by identifying regions with specific abnormalities. Results indicate a simplified and accessible solution, reducing computational effort, training time, and financial costs. Moreover, the method presents potential for expediting the interpretation of abnormal scans, thereby impacting clinical practice. This proposed approach might serve as a practical tool for segmenting brain computed tomography scans, and make a significant contribution to the analysis of medical images in both research and clinical settings.

Suggested Citation

  • Paulo Victor dos Santos & Marcella Scoczynski Ribeiro Martins & Solange Amorim Nogueira & Cristhiane Gonçalves & Rafael Maffei Loureiro & Wesley Pacheco Calixto, 2024. "Unsupervised model for structure segmentation applied to brain computed tomography," PLOS ONE, Public Library of Science, vol. 19(6), pages 1-34, June.
    • Handle: RePEc:plo:pone00:0304017
    DOI: 10.1371/journal.pone.0304017
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