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Unlocking Robust Segmentation Across All Age Groups via Continual Learning (2404.13185v1)

Published 19 Apr 2024 in eess.IV and cs.CV

Abstract: Most deep learning models in medical imaging are trained on adult data with unclear performance on pediatric images. In this work, we aim to address this challenge in the context of automated anatomy segmentation in whole-body Computed Tomography (CT). We evaluate the performance of CT organ segmentation algorithms trained on adult data when applied to pediatric CT volumes and identify substantial age-dependent underperformance. We subsequently propose and evaluate strategies, including data augmentation and continual learning approaches, to achieve good segmentation accuracy across all age groups. Our best-performing model, trained using continual learning, achieves high segmentation accuracy on both adult and pediatric data (Dice scores of 0.90 and 0.84 respectively).

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References (10)
  1. Technical note: Evaluation of a V-Net autosegmentation algorithm for pediatric CT scans: Performance, generalizability, and application to patient-specific CT dosimetry. Med. Phys., 49(4):2342–2354, April 2022.
  2. Cpfnet: Context pyramid fusion network for medical image segmentation. IEEE Transactions on Medical Imaging, 39(10):3008–3018, 2020. 10.1109/TMI.2020.2983721.
  3. Lifelong nnu-net: a framework for standardized medical continual learning. Scientific Reports, 13(1):9381, Jun 2023. ISSN 2045-2322. 10.1038/s41598-023-34484-2. URL https://doi.org/10.1038/s41598-023-34484-2.
  4. nnu-net: Self-adapting framework for u-net-based medical image segmentation, 2018.
  5. nnu-net: a self-configuring method for deep learning-based biomedical image segmentation. Nature methods, 18(2):203–211, 2021.
  6. Deep-learning-assisted detection and segmentation of rib fractures from CT scans: Development and validation of FracNet. EBioMedicine, 62(103106):103106, 2020.
  7. Pediatric chest-abdomen-pelvis and abdomen-pelvis ct images with expert organ contours. Medical physics, 49(5):3523–3528, 2022.
  8. Deep learning in radiology. Acad. Radiol., 25(11):1472–1480, 2018.
  9. A large annotated medical image dataset for the development and evaluation of segmentation algorithms, 2019.
  10. Totalsegmentator: Robust segmentation of 104 anatomic structures in ct images. Radiology: Artificial Intelligence, 5(5), 2023.
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Authors (6)
  1. Chih-Ying Liu (2 papers)
  2. Jeya Maria Jose Valanarasu (31 papers)
  3. Curtis Langlotz (24 papers)
  4. Andrew Ng (21 papers)
  5. Sergios Gatidis (35 papers)
  6. Camila Gonzalez (40 papers)

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