Frontiers in Oncology (Jan 2024)

Development of RLK-Unet: a clinically favorable deep learning algorithm for brain metastasis detection and treatment response assessment

  • Seungyeon Son,
  • Bio Joo,
  • Mina Park,
  • Sang Hyun Suh,
  • Hee Sang Oh,
  • Jun Won Kim,
  • Seoyoung Lee,
  • Sung Jun Ahn,
  • Jong-Min Lee

DOI
https://doi.org/10.3389/fonc.2023.1273013
Journal volume & issue
Vol. 13

Abstract

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Purpose/objective(s)Previous deep learning (DL) algorithms for brain metastasis (BM) detection and segmentation have not been commonly used in clinics because they produce false-positive findings, require multiple sequences, and do not reflect physiological properties such as necrosis. The aim of this study was to develop a more clinically favorable DL algorithm (RLK-Unet) using a single sequence reflecting necrosis and apply it to automated treatment response assessment.Methods and materialsA total of 128 patients with 1339 BMs, who underwent BM magnetic resonance imaging using the contrast-enhanced 3D T1 weighted (T1WI) turbo spin-echo black blood sequence, were included in the development of the DL algorithm. Fifty-eight patients with 629 BMs were assessed for treatment response. The detection sensitivity, precision, Dice similarity coefficient (DSC), and agreement of treatment response assessments between neuroradiologists and RLK-Unet were assessed.ResultsRLK-Unet demonstrated a sensitivity of 86.9% and a precision of 79.6% for BMs and had a DSC of 0.663. Segmentation performance was better in the subgroup with larger BMs (DSC, 0.843). The agreement in the response assessment for BMs between the radiologists and RLK-Unet was excellent (intraclass correlation, 0.84).ConclusionRLK-Unet yielded accurate detection and segmentation of BM and could assist clinicians in treatment response assessment.

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