Scientific Reports (Aug 2021)

Whole blood gene expression within days after total-body irradiation predicts long term survival in Gottingen minipigs

  • Sunita Chopra,
  • Maria Moroni,
  • Jaleal Sanjak,
  • Laurel MacMillan,
  • Bernadette Hritzo,
  • Shannon Martello,
  • Michelle Bylicky,
  • Jared May,
  • C. Norman Coleman,
  • Molykutty J. Aryankalayil

DOI
https://doi.org/10.1038/s41598-021-95120-5
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 13

Abstract

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Abstract Gottingen minipigs mirror the physiological radiation response observed in humans and hence make an ideal candidate model for studying radiation biodosimetry for both limited-sized and mass casualty incidents. We examined the whole blood gene expression profiles starting one day after total-body irradiation with increasing doses of gamma-rays. The minipigs were monitored for up to 45 days or time to euthanasia necessitated by radiation effects. We successfully identified dose- and time-agnostic (over a 1–7 day period after radiation), survival-predictive gene expression signatures derived using machine-learning algorithms with high sensitivity and specificity. These survival-predictive signatures fare better than an optimally performing dose-differentiating signature or blood cellular profiles. These findings suggest that prediction of survival is a much more useful parameter for making triage, resource-utilization and treatment decisions in a resource-constrained environment compared to predictions of total dose received. It should hopefully be possible to build such classifiers for humans in the future.