CPT: Pharmacometrics & Systems Pharmacology (Nov 2019)

Quantifying Drug‐Induced Bone Marrow Toxicity Using a Novel Haematopoiesis Systems Pharmacology Model

  • Chiara Fornari,
  • Lenka Oplustil O'Connor,
  • Carmen Pin,
  • Aaron Smith,
  • James W.T. Yates,
  • S.Y. Amy Cheung,
  • Duncan I. Jodrell,
  • Jerome T. Mettetal,
  • Teresa A. Collins

DOI
https://doi.org/10.1002/psp4.12459
Journal volume & issue
Vol. 8, no. 11
pp. 858 – 868

Abstract

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Haematological toxicity associated with cancer therapeutics is monitored by changes in blood cell count, and their primary effect is on proliferative progenitors in the bone marrow. Using observations in rat bone marrow and blood, we characterize a mathematical model that comprises cell proliferation and differentiation of the full haematopoietic phylogeny, with interacting feedback loops between lineages in homeostasis as well as following carboplatin exposure. We accurately predicted the temporal dynamics of several mature cell types related to carboplatin‐induced bone marrow toxicity and identified novel insights into haematopoiesis. Our model confirms a significant degree of plasticity within bone marrow cells, with the number and type of both early progenitors and circulating cells affecting cell balance, via feedback mechanisms, through fate decisions of the multipotent progenitors. We also demonstrated cross‐species translation of our predictions to patients, applying the same core model structure and considering differences in drug‐dependent and physiology‐dependent parameters.