Author:
Esplen Nolan,Egoriti Luca,Planche Thomas,Rädel Stephanie,Koay Hui-Wen,Humphries Brandon,Ren Xi,Ford Nancy,Hoehr Cornelia,Gottberg Alexander,Bazalova-Carter Magdalena
Abstract
AbstractA first irradiation platform capable of delivering 10 MV X-ray beams at ultra-high dose rates (UHDR) has been developed and characterized for FLASH radiobiological research at TRIUMF. Delivery of both UHDR (FLASH mode) and low dose-rate conventional (CONV mode) irradiations was demonstrated using a common source and experimental setup. Dose rates were calculated using film dosimetry and a non-intercepting beam monitoring device; mean values for a 100 μA pulse (peak) current were nominally 82.6 and 4.40 × 10−2 Gy/s for UHDR and CONV modes, respectively. The field size for which > 40 Gy/s could be achieved exceeded 1 cm down to a depth of 4.1 cm, suitable for total lung irradiations in mouse models. The calculated delivery metrics were used to inform subsequent pre-clinical treatments. Four groups of 6 healthy male C57Bl/6J mice were treated using thoracic irradiations to target doses of either 15 or 30 Gy using both FLASH and CONV modes. Administration of UHDR X-ray irradiation to healthy mouse models was demonstrated for the first time at the clinically-relevant beam energy of 10 MV.
Funder
Social Sciences and Humanities Research Council of Canada
Natural Sciences and Engineering Research Council of Canada
Canada Research Chairs
Publisher
Springer Science and Business Media LLC