Litcius/Paper detail

FLASH radiotherapy with carbon ion beams

Uli Weber, Emanuele Scifoni, Marco Durante

2021Medical Physics107 citationsDOIOpen Access PDF

Abstract

FLASH radiotherapy is considered a new potential breakthrough in cancer treatment. Ultra-high dose rates (>40 Gy/s) have been shown to reduce toxicity in the normal tissue without compromising tumor control, resulting in a widened therapeutic window. These high dose rates are more easily achievable in the clinic with charged particles, and clinical trials are, indeed, ongoing using electrons or protons. FLASH could be an attractive solution also for heavier ions such as carbon and could even enhance the therapeutic window. However, it is not yet known whether the FLASH effect will be the same as for sparsely ionizing radiation when densely ionizing carbons ions are used. Here we discuss the technical challenges in beam delivery and present a promising solution using 3D range-modulators in order to apply ultra-high dose rates (UHDR) compatible with FLASH with carbon ions. Furthermore, we will discuss the possible outcome of C-ion therapy at UHDR on the level of the radiobiological and radiation chemical effects.

Topics & Concepts

Flash (photography)Ionizing radiationCarbon Ion RadiotherapyTherapeutic windowRadiation therapyIonRadiationCarbon fibersDosimetryMaterials scienceTherapeutic indexIrradiationMedical physicsNuclear medicinePhysicsMedicineOpticsRadiologyNuclear physicsPsychiatryQuantum mechanicsDrugComposite materialComposite numberPharmacologyRadiation Therapy and DosimetryRadiation Effects in ElectronicsRadiation Detection and Scintillator Technologies