PURPOSE: The understanding of how varying radiation beam parameter settings affect the induction and magnitude of the FLASH effect remains limited. We sought to systematically evaluate how the magnitude of radiation-induced gastrointestinal toxicity depends on the interplay between mean dose rate (MDR) and dose per pulse (DPP). METHODS AND MATERIALS: C57BL/6J mice received total abdominal irradiation (TAI, 11-14 Gy single fraction) through either conventional (CONV) irradiation (low-DPP and low MDR, CONV) or through various combinations of DPP and MDR up to ultra-high-dose-rate beam conditions. DPPs ranging from 1 to 6 Gy were evaluated, while the total dose and MDR (>
100 Gy/s) were kept constant
the effects of MDR were evaluated for the range of 0.3 to 1440 Gy/s, while the total dose and DPP were kept constant. Radiation-induced gastrointestinal toxicity was quantified in nontumor-bearing mice through the regenerating crypt assay and survival assessment. Tumor response was evaluated through tumor growth delay. RESULTS: Within each tested total dose using a constant MDR (>
100 Gy/s), increasing DPP led to an increase in sparing (an increase in the number of regenerating crypts), with a more prominent effect seen at 12- and 14-Gy TAI. Interestingly, at DPPs of >
4 Gy, a similar level of crypt sparing was demonstrated irrespective of the MDR used (from 0.3 to 1440 Gy/s). At a fixed high-DPP of 4.7 Gy, survival was equivalently improved relative to CONV irrespective of MDR. However, at a lower DPP of 0.93 Gy, an MDR of 104 Gy/s produced a greater survival effect compared with 0.3 Gy/s. We also confirmed that high-DPP, regardless of MDR, produced the same magnitude of tumor growth delay relative to CONV using a clinically relevant melanoma mouse model. CONCLUSIONS: This study demonstrates the strong influence that the beam parameter settings have on the magnitude of the FLASH effect. Both high-DPP and ultra-high-dose-rate appeared independently sufficient to produce FLASH sparing of gastrointestinal toxicity while isoeffective tumor response was maintained across all conditions.