Insights into Imaging (Feb 2020)

Deep learning workflow in radiology: a primer

  • Emmanuel Montagnon,
  • Milena Cerny,
  • Alexandre Cadrin-Chênevert,
  • Vincent Hamilton,
  • Thomas Derennes,
  • André Ilinca,
  • Franck Vandenbroucke-Menu,
  • Simon Turcotte,
  • Samuel Kadoury,
  • An Tang

DOI
https://doi.org/10.1186/s13244-019-0832-5
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 15

Abstract

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Abstract Interest for deep learning in radiology has increased tremendously in the past decade due to the high achievable performance for various computer vision tasks such as detection, segmentation, classification, monitoring, and prediction. This article provides step-by-step practical guidance for conducting a project that involves deep learning in radiology, from defining specifications, to deployment and scaling. Specifically, the objectives of this article are to provide an overview of clinical use cases of deep learning, describe the composition of multi-disciplinary team, and summarize current approaches to patient, data, model, and hardware selection. Key ideas will be illustrated by examples from a prototypical project on imaging of colorectal liver metastasis. This article illustrates the workflow for liver lesion detection, segmentation, classification, monitoring, and prediction of tumor recurrence and patient survival. Challenges are discussed, including ethical considerations, cohorting, data collection, anonymization, and availability of expert annotations. The practical guidance may be adapted to any project that requires automated medical image analysis.

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