Dosimetric characterization of a new 192Ir pulse dose rate brachytherapy source with the Monte Carlo simulation and thermoluminescent dosimeter

In this study, recommendations of the AAPM TG- 43 (U1) report have been followed to characterize the new 192Ir pulse dose rate source, provided by the Applied Radiation Research School, Nuclear Science and Technology Research Institute in Iran. Dose rate constant, radial dose function, geometry factors, and anisotropy function were calculated according to the relevant American Association of Physicists in Medicine AAPM and TG43 (U1) reports. In this study, 192Ir source was characterized using Monte Carlo simulation in water phantom, and in addition, experimental measurements were carried out using thermoluminescent dosimeters (TLD-100) in plexiglass (PMMA) phantoms. The dose-rate constant for the 192Ir PDR was found to be equal to 1.131 cGyh-1U-1 and 1.173 cGyh-1U-1 with TLD measurement and Monte Carlo simulation, respectively. Also in this study, the geometry function, radial dose functions g(r), and the anisotropy function have been calculated at distances from 0.1 to 16 cm. The dose-rate constant of these calculations has been compared with measured values for an actual 192Ir seed. The results of dosimetry parameters, presented in tabulated and graphical formats, exhibited good agreement to those reported from other commercially available PDR 192Ir sources. The results obtained in this study are in close agreement with the characteristics of the commercially available 192Ir sources. The results obtained in this study can be treated as an initial assessment of this source to be employed in the conventional treatment planning systems subsequent to complementary investigations.