Purpose: To determine if the brain's response to single doses predicts its response to 'biologically equivalent' fractionated doses.
Methods: Young adult male Fischer 344 rats were whole-brain irradiated with either single 11, 14, or 16.5 Gy doses of (137)Cs γ rays or their 'biologically equivalent' 20, 30, or 40 Gy fractionated doses (fWBI) delivered in 5 Gy fractions, twice/week for 2, 3, or 4 weeks, respectively. At 2 months post-irradiation, cellular markers of inflammation (total, activated, and newborn microglia) and neurogenesis (newborn neurons) were measured in 40 μm sections of the dentate gyrus (DG).
Results: Although the total number of microglia in the DG/hilus was not significantly different (p > 0.7) in unirradiated, single dose, and fWBI rats, single doses produced a significant (p < 0.003) increase in the percent-activated microglia; fWBI did not (p > 0.1). Additionally, single doses produced a significant (p < 0.002) dose-dependent increase in surviving newborn microglia; fWBI did not (p < 0.8). Although total proliferation in the DG was reduced equally by single and fWBI doses, single doses produced a significant dose-dependent (p < 0.02) decrease in surviving newborn neurons; fWBI did not (p > 0.6).
Conclusions: These data demonstrate that the rat brain's cellular response to single doses often does not predict its cellular response to 'biologically equivalent' fWBI doses.
Keywords: Brain irradiation; fractionated dose responses; inflammation; neurogenesis; single dose responses.