Communications Medicine (Jan 2024)

Multi-resolution deep learning characterizes tertiary lymphoid structures and their prognostic relevance in solid tumors

  • Mart van Rijthoven,
  • Simon Obahor,
  • Fabio Pagliarulo,
  • Maries van den Broek,
  • Peter Schraml,
  • Holger Moch,
  • Jeroen van der Laak,
  • Francesco Ciompi,
  • Karina Silina

DOI
https://doi.org/10.1038/s43856-023-00421-7
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 14

Abstract

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Abstract Background Tertiary lymphoid structures (TLSs) are dense accumulations of lymphocytes in inflamed peripheral tissues, including cancer, and are associated with improved survival and response to immunotherapy in various solid tumors. Histological TLS quantification has been proposed as a novel predictive and prognostic biomarker, but lack of standardized methods of TLS characterization hampers assessment of TLS densities across different patients, diseases, and clinical centers. Methods We introduce an approach based on HookNet-TLS, a multi-resolution deep learning model, for automated and unbiased TLS quantification and identification of germinal centers in routine hematoxylin and eosin stained digital pathology slides. We developed HookNet-TLS using n = 1019 manually annotated TCGA slides from clear cell renal cell carcinoma, muscle-invasive bladder cancer, and lung squamous cell carcinoma. Results Here we show that HookNet-TLS automates TLS quantification across multiple cancer types achieving human-level performance and demonstrates prognostic associations similar to visual assessment. Conclusions HookNet-TLS has the potential to be used as a tool for objective quantification of TLS in routine H&E digital pathology slides. We make HookNet-TLS publicly available to promote its use in research.