PLoS ONE (Jan 2023)

Learning deep abdominal CT registration through adaptive loss weighting and synthetic data generation.

  • Javier Pérez de Frutos,
  • André Pedersen,
  • Egidijus Pelanis,
  • David Bouget,
  • Shanmugapriya Survarachakan,
  • Thomas Langø,
  • Ole-Jakob Elle,
  • Frank Lindseth

DOI
https://doi.org/10.1371/journal.pone.0282110
Journal volume & issue
Vol. 18, no. 2
p. e0282110

Abstract

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PurposeThis study aims to explore training strategies to improve convolutional neural network-based image-to-image deformable registration for abdominal imaging.MethodsDifferent training strategies, loss functions, and transfer learning schemes were considered. Furthermore, an augmentation layer which generates artificial training image pairs on-the-fly was proposed, in addition to a loss layer that enables dynamic loss weighting.ResultsGuiding registration using segmentations in the training step proved beneficial for deep-learning-based image registration. Finetuning the pretrained model from the brain MRI dataset to the abdominal CT dataset further improved performance on the latter application, removing the need for a large dataset to yield satisfactory performance. Dynamic loss weighting also marginally improved performance, all without impacting inference runtime.ConclusionUsing simple concepts, we improved the performance of a commonly used deep image registration architecture, VoxelMorph. In future work, our framework, DDMR, should be validated on different datasets to further assess its value.