Journal of Radiation Research
2024
Author(s):
Alexander Hart (1), Jan P Dudzic (1), Jameson W Clarke (1), Jonathan Eby (2), Steve J Perlman (1), Magdalena Bazalova-Carter (1)
Institution(s):
University of Victoria, BC – CANADA, University of Toronto, ON – CANADA
About this publication:
This article explores the potential of using low-energy X-rays to deliver ultrahigh dose-rate (UHDR) FLASH radiotherapy using Drosophila melanogaster as a model. For this they have compared the effects of UHDR (210 Gy/s) and conventional dose rates (0.2–0.4 Gy/s) on the eclosion and lifespan of fly larvae. The results showed that larvae treated with UHDR had higher survival rates and longer lifespans, particularly at intermediate doses, indicating a normal tissue-sparing FLASH effect.
The Medscint scintillation dosimetry detector was used to measure the response to X-rays at a very high sampling rate to confirm the time structure of the delivered radiation (i.e. the pulse width and inter-pulse spacing). Along with film measurements, they also confirmed that the doses delivered with UHDR and CONV agreed within 0.1%.