npj Systems Biology and Applications (Oct 2024)

Calibrating tumor growth and invasion parameters with spectral spatial analysis of cancer biopsy tissues

  • Stefano Pasetto,
  • Michael Montejo,
  • Mohammad U. Zahid,
  • Marilin Rosa,
  • Robert Gatenby,
  • Pirmin Schlicke,
  • Roberto Diaz,
  • Heiko Enderling

DOI
https://doi.org/10.1038/s41540-024-00439-0
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 9

Abstract

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Abstract The reaction-diffusion equation is widely used in mathematical models of cancer. The calibration of model parameters based on limited clinical data is critical to using reaction-diffusion equation simulations for reliable predictions on a per-patient basis. Here, we focus on cell-level data as routinely available from tissue biopsies used for clinical cancer diagnosis. We analyze the spatial architecture in biopsy tissues stained with multiplex immunofluorescence. We derive a two-point correlation function and the corresponding spatial power spectral distribution. We show that this data-deduced power spectral distribution can fit the power spectrum of the solution of reaction-diffusion equations that can then identify patient-specific tumor growth and invasion rates. This approach allows the measurement of patient-specific critical tumor dynamical properties from routinely available biopsy material at a single snapshot in time.