Evaluating the biological impact of increased scattered radiation in single and composite field radiation beams

Maximum RBE change in 192Ir, 125I, and 169Yb brachytherapy and the corresponding effect on treatment planning

PURPOSE

The purpose of this study was to examine RBE variation as a function of distance from the radioactive source, and the potential impact of this variation on a realistic prostate brachytherapy treatment plan.

METHODS

Three brachytherapy sources (¹²⁵I, ¹⁹²Ir, and ¹⁶⁹Yb) were modelled in Geant4 Monte Carlo code, and the resulting electron energy spectrum in water in 3D space around these sources was scored (voxel size of 2 mm³). With this energy spectrum, microdosimetric techniques were used to calculate the maximum RBE, RBE_M, as a function of distance from the source. RBE_M of ¹²⁵I relative to ¹⁹²Ir was calculated in order to validate simulations against literature; all other RBE_M calculations were done by normalizing electron fluence at various distances to the source position. In order to examine the impact of RBE_M variation in treatment planning, a realistic ¹⁹²Ir prostate plan was re-evaluated in terms of RBE instead of absorbed dose.

RESULTS

The RBE_M of ¹²⁵I, ¹⁹²Ir, and ¹⁶⁹Yb at 8 cm away from the source was 0.994 (+/-0.002), 1.030 (+/-0.003), and 1.066 (+/-0.008), respectively. RBE_M in the HDR prostate treatment plan exhibited several hot (+3.6% in RBE_M) spots.

CONCLUSIONS

The large increase RBE_M observed in ¹⁶⁹Yb has not yet been described in the literature. Despite the presence of radiobiological hotspots in the HDR treatment, these variations are likely nominal and clinically insignificant.