Cancer Convergence (Jan 2018)

Cancer dormancy and criticality from a game theory perspective

  • Amy Wu,
  • David Liao,
  • Vlamimir Kirilin,
  • Ke-Chih Lin,
  • Gonzalo Torga,
  • Junle Qu,
  • Liyu Liu,
  • James C. Sturm,
  • Kenneth Pienta,
  • Robert Austin

DOI
https://doi.org/10.1186/s41236-018-0008-0
Journal volume & issue
Vol. 2, no. 1
pp. 1 – 8

Abstract

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Abstract Background The physics of cancer dormancy, the time between initial cancer treatment and re-emergence after a protracted period, is a puzzle. Cancer cells interact with host cells via complex, non-linear population dynamics, which can lead to very non-intuitive but perhaps deterministic and understandable progression dynamics of cancer and dormancy. Results We explore here the dynamics of host-cancer cell populations in the presence of (1) payoffs gradients and (2) perturbations due to cell migration. Conclusions We determine to what extent the time-dependence of the populations can be quantitively understood in spite of the underlying complexity of the individual agents and model the phenomena of dormancy.

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