Litcius/Paper detail

Modeling of scavenging systems in water radiolysis with Geant4-DNA

Flore Chappuis, Veljko Grilj, Hoang Ngoc Tran, Sara A. Zein, François Bochud, Claude Bailat, S. Incerti, L. Desorgher

2023Physica Medica24 citationsDOIOpen Access PDF

Abstract

PurposeThis paper presents the capabilities of the Geant4-DNA Monte Carlo toolkit to simulate water radiolysis with scavengers using the step-by-step (SBS) or the independent reaction times (IRT) methods. It features two examples of application areas: (1) computing the escape yield of H2O2 following a 60Co γ-irradiation and (2) computing the oxygen depletion in water irradiated with 1 MeV electrons.MethodsTo ease the implementation of the chemical stage in Geant4-DNA, we developed a user interface that helps define the chemical reactions and set the concentration of scavengers. The first application area example required two computational steps to perform water radiolysis using NO2- and NO3- as scavengers and a 60Co irradiation. The oxygen depletion computation technique for the second application area example consisted of simulating track segments of 1 MeV electrons and determining the radio-induced loss and gain of oxygen molecules.ResultsThe production of H2O2 under variable scavenging levels is consistent with the literature; the mean relative difference between the SBS and IRT methods is 7.2 % ± 0.5 %. For the oxygen depletion 1 µs post-irradiation, the mean relative difference between both methods is equal to 9.8 % ± 0.3 %. The results in the microsecond scale depend on the initial partial pressure of oxygen in water. In addition, the computed oxygen depletions agree well with the literature.ConclusionsThe Geant4-DNA toolkit makes it possible to simulate water radiolysis in the presence of scavengers. This feature offers perspectives in radiobiology, with the possibility of simulating cell-relevant scavenging mechanisms.

Topics & Concepts

RadiolysisOxygenIrradiationScavengingChemistrySolvated electronOxygen enhancement ratioMonte Carlo methodYield (engineering)ElectronRadicalRadiochemistryMaterials sciencePhysicsOrganic chemistryNuclear physicsAntioxidantMathematicsMetallurgyStatisticsEffects of Radiation ExposureRadiation Therapy and DosimetryDNA Repair Mechanisms