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Implications of "flash" radiotherapy for biodosimetry.

Steven G SwartsAnn Barry FloodHarold M Swartz
Published in: Radiation protection dosimetry (2023)
Extremely high dose rate radiation delivery (FLASH) for cancer treatment has been shown to produce less damage to normal tissues while having the same radiotoxic effect on tumor tissue (referred to as the FLASH effect). Research on the FLASH effect has two very pertinent implications for the field of biodosimetry: (1) FLASH is a good model to simulate delivery of prompt radiation from the initial moments after detonating a nuclear weapon and (2) the FLASH effect elucidates how dose rate impacts the biological mechanisms that underlie most types of biological biodosimetry. The impact of dose rate will likely differ for different types of biodosimetry, depending on the specific underlying mechanisms. The greatest impact of FLASH effects is likely to occur for assays based on biological responses to radiation damage, but the consequences of differential effects of dose rates on the accuracy of dose estimates has not been taken into account.
Keyphrases
  • high dose
  • gene expression
  • early stage
  • radiation induced
  • squamous cell carcinoma
  • high throughput
  • stem cell transplantation
  • rectal cancer