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Dose-response of deformable radiochromic dosimeters for spot scanning proton therapy

S. Jensen, Lia Valdetaro, P.R. Poulsen, Péter Balling, Jørgen B. B. Petersen, L.P. Muren

2020Physics and Imaging in Radiation Oncology22 citationsDOIOpen Access PDF

Abstract

Intrafractional motion and deformation influence proton therapy delivery for tumours in the thorax, abdomen and pelvis. This study aimed to test the dose-response of a compressively strained three-dimensional silicone-based radiochromic dosimeter during proton beam delivery. The dosimeter was read-out in its relaxed state using optical computed tomography and calibrated for the linear energy transfer, based on Monte Carlo simulations. A three-dimensional gamma analysis showed a 99.3% pass rate for 3%/3 mm and 93.9% for 2%/2 mm, for five superimposed measurements using deformation-including Monte Carlo dose calculations as reference. We conclude that the dosimeter's dose-response is unaffected by deformations.

Topics & Concepts

DosimeterProton therapyMonte Carlo methodMaterials scienceProtonNuclear medicinePhysicsDosimetryOpticsMedical physicsMedicineNuclear physicsMathematicsStatisticsAdvanced Radiotherapy TechniquesRadiation Therapy and DosimetryNuclear Physics and Applications
Dose-response of deformable radiochromic dosimeters for spot scanning proton therapy | Litcius