IEEE Access (Jan 2024)

<italic>PatchLoc</italic>: Embedded Patch Localization Pretext Task for Tumor Segmentation in Medical Images

  • Ramchandra Cheke,
  • Ciaran Eising,
  • Patrick Denny,
  • Pepijn van de Ven

DOI
https://doi.org/10.1109/ACCESS.2024.3399628
Journal volume & issue
Vol. 12
pp. 66845 – 66857

Abstract

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Supervised deep learning methods have produced state-of-the-art results with large labeled datasets. However, accessing large labeled datasets is difficult in medical image analysis because of a shortage of medical experts, expensive annotations, and privacy constraints in the healthcare domain. Self-supervised learning is a branch of machine learning that exploits unlabeled data to encourage network weights toward a valid latent representation of the data during a so-called pretext task. The features learned by the model while solving pretext tasks are transferred to a downstream task where limited annotations are available. In this work, we propose PatchLoc, a novel pretext task whose objective is to find the location of a given patch from an image as a source of supervision. We validated the effectiveness of PatchLoc on a downstream segmentation task using three different medical datasets. PatchLoc yields substantial improvements compared to U-Net trained from scratch and other pretext task-based approaches in a low data regime.

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