Relative biological effectiveness study of Lipiodol based on microdosimetric-kinetic model

Abstract Objectives We examine the contrast agent Lipiodol effect on the relative biological effectiveness (RBE) values for flattening filter free (FFF) and flattening filter (FF) beams of 6 MV-Xray (6 MVX) and 10 MVX. Methods Lipiodol was placed at 5 cm depth in water. According to the microdosimetric kinetic model, the RBE values for killing the human liver hepatocellular cells were calculated from dose and lineal energy ( yd ( y )) from Monte Carlo simulations. RBE 200kVX and RBE Co were defined as the ratios of dose using reference radiation (200 kVX, Co-ɤ) to the dose of test radiation (FFF and FF beams for 6 MV and 10 MV) to produce the same biological effects. The dose enhancement RBE (RBE DE ) was defined as the ratios of a dose without Lipiodol to with Lipiodol using to produce the same biological effects. The dose needed to achieve 10% (D 10% ) and 1% cell survival (D 1% ) was evaluated by cell surviving fraction (SF) formula. Results The deviation of mean y ‾ D values with and without Lipiodol were 3.9–4.8% for 6 MVX and 3.5–3.6% for 10 MVX. The RBE 200kVX and RBE Co with Lipiodol were larger than that without Lipiodol. The RBE DE was larger for FFF beam than for FF beam. The deviation of RBE DE for FFF and FF beams of 6 MVX was larger than that of 10 MVX. Conclusion The presence of Lipiodol seemed to locally increase the absorbed dose and to also cause an enhancement of the relative biological effectiveness.