Frontiers in Oncology (Oct 2023)

An image-based modeling framework for predicting spatiotemporal brain cancer biology within individual patients

  • Kamila M. Bond,
  • Kamila M. Bond,
  • Lee Curtin,
  • Sara Ranjbar,
  • Ariana E. Afshari,
  • Leland S. Hu,
  • Leland S. Hu,
  • Joshua B. Rubin,
  • Kristin R. Swanson

DOI
https://doi.org/10.3389/fonc.2023.1185738
Journal volume & issue
Vol. 13

Abstract

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Imaging is central to the clinical surveillance of brain tumors yet it provides limited insight into a tumor’s underlying biology. Machine learning and other mathematical modeling approaches can leverage paired magnetic resonance images and image-localized tissue samples to predict almost any characteristic of a tumor. Image-based modeling takes advantage of the spatial resolution of routine clinical scans and can be applied to measure biological differences within a tumor, changes over time, as well as the variance between patients. This approach is non-invasive and circumvents the intrinsic challenges of inter- and intratumoral heterogeneity that have historically hindered the complete assessment of tumor biology and treatment responsiveness. It can also reveal tumor characteristics that may guide both surgical and medical decision-making in real-time. Here we describe a general framework for the acquisition of image-localized biopsies and the construction of spatiotemporal radiomics models, as well as case examples of how this approach may be used to address clinically relevant questions.

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