Neutron Capture Enhances Dose and Reduces Cancer Cell Viability in and out of Beam During Helium and Carbon Ion Therapy.
Nicholas HowellRyan J MiddletonFrederic SierroBenjamin H FraserNaomi A WyattAndrew ChaconKeith R BamberyElle LivioChristopher DobieJoseph J BevittJustin DaviesAnthony DossetoDaniel R FranklinUlf GarbeSusanna GuatelliRyoichi HirayamaNaruhiro MatsufujiAkram MohammadiKarl MutimerLouis M RendinaAnatoly B RosenfeldMitra Safavi-NaeiniPublished in: International journal of radiation oncology, biology, physics (2024)
The addition of NCAs to cancer cells during carbon and helium beam irradiation has a measurable effect on cell survival and growth in vitro. Through the capture of internally generated neutrons, NCEPT introduces the concept of a biochemically targeted radiation dose to charged particle therapy. NCEPT enables the established pharmaceuticals and concepts of neutron capture therapy to be applied to a wider range of deeply situated and diffuse tumors, by targeting this dose to microinfiltrates and cells outside of defined treatment regions. These results also demonstrate the potential for NCEPT to provide an increased dose to tumor tissue within the treatment volume, with a reduction in radiation doses to off-target tissue.