Litcius/Paper detail

CERN-based experiments and Monte-Carlo studies on focused dose delivery with very high energy electron (VHEE) beams for radiotherapy applications

Lucy Whitmore, R. Mackay, Marcel van Herk, Pierre Korysko, W. Farabolini, Alexander Malyzhenkov, R. Corsini, R.M. Jones

2024Scientific Reports19 citationsDOIOpen Access PDF

Abstract

Very High Energy Electron (VHEE) beams are a promising alternative to conventional radiotherapy due to their highly penetrating nature and their applicability as a modality for FLASH (ultra-high dose-rate) radiotherapy. The dose distributions due to VHEE need to be optimised; one option is through the use of quadrupole magnets to focus the beam, reducing the dose to healthy tissue and allowing for targeted dose delivery at conventional or FLASH dose-rates. This paper presents an in depth exploration of the focusing achievable at the current CLEAR (CERN Linear Electron Accelerator for Research) facility, for beam energies >200 MeV. A shorter, more optimal quadrupole setup was also investigated using the TOPAS code in Monte Carlo simulations, with dimensions and beam parameters more appropriate to a clinical situation. This work provides insight into how a focused VHEE radiotherapy beam delivery system might be achieved.

Topics & Concepts

Monte Carlo methodLarge Hadron ColliderQuadrupole magnetBeam (structure)PhysicsLinear particle acceleratorRadiationQuadrupoleCathode rayNuclear engineeringRadiation therapyElectronParticle acceleratorFlash (photography)Computational physicsComputer scienceNuclear physicsMedical physicsOpticsMedicineAtomic physicsMathematicsRadiologyEngineeringStatisticsRadiation Therapy and DosimetryAdvanced Radiotherapy TechniquesRadiation Detection and Scintillator Technologies
CERN-based experiments and Monte-Carlo studies on focused dose delivery with very high energy electron (VHEE) beams for radiotherapy applications | Litcius