Validation of plastic scintillation detectors for applications in low-dose-rate brachytherapy.

PURPOSE

To develop a plastic scintillation detector (PSD) capable of accurately measuring dose around a low-dose-rate (LDR) iodine-125 (I) radioactive seed as a first step toward in vivo dosimetry for prostate LDR brachytherapy.

METHODS

Using a GEANT4 based Monte Carlo code, photon energy distribution at any position around a realistic I source model was obtained. This energy distribution was convolved with the expected energy response from a plastic scintillator and dosimetry accuracy was evaluated. A PSD was constructed and validated in a water phantom for the entire range of clinically relevant positions around an I radioactive seed.

RESULTS

The effect of energy dependence on dosimetry accuracy was shown to be limited, with a maximum relative difference of 1.2% from the calibration condition. A sophisticated approach to account for the energy dependence of PSDs is, therefore, not required if the detector is calibrated using the same model of radioactive seed or a geometrically similar one. The measurements were in good agreement with theoretical models for the entire clinical range.

CONCLUSIONS

This study shows that PSDs can be used for accurate dosimetry in real time around a single I seed used in LDR prostate brachytherapy and is promising for clinical applications.