Development of a portable hypoxia chamber for ultra-high dose rate laser-driven proton radiobiology applications.
Pankaj ChaudharyDeborah C GwynneBoris OdlozilikAaron McMurrayGiuliana MilluzzoCarla MaiorinoDomenico DoriaHamad AhmedLorenzo RomagnaniAaron AlejoHersimerjit PaddaJames GreenDavid CarrollNicola BoothPaul McKennaSatyabrata KarGiada PetringaRoberto CatalanoFrancesco P CammarataGiuseppe A P CirroneStephen J McMahonKevin M PriseMarco BorghesiPublished in: Radiation oncology (London, England) (2022)
We demonstrated the design and application of portable hypoxia chambers for studying cellular radiobiological endpoints after exposure to laser-driven protons at ultra-high dose, conventional protons and X-rays. Suitable levels of reduced oxygen concentration could be maintained in the absence of external gassing to quantify hypoxic effects. The data obtained provided indication of an enhanced residual DNA DSB damage under hypoxic conditions at ultra-high dose rate compared to the conventional protons or X-rays.