Determination of small field synthetic single-crystal diamond detector correction factors for CyberKnife, Leksell Gamma Knife Perfexion and linear accelerator
Abstrakt
Purpose: The aim of this study was to determine small field correction factors for a synthetic single-crystal diamond detector (PTW microDiamond) for routine use in clinical dosimetric measurements. Materials and methods: Correction factors following small field Alfonso formalism were calculated by comparison of PTW microDiamond measured ratio M-Qclin(fclin)/M-Qmsr(fmsr) with Monte Carlo (MC) based field output factors Omega(fclin,fmsr)(Qclin,Qmsr) determined using Dosimetry Diode E or with MC simulation itself.
Diode measurements were used for the CyberKnife and Varian Clinac 2100C/D linear accelerator. PTW microDiamond correction factors for Leksell Gamma Knife (LGK) were derived using MC simulated reference values from the manufacturer.
Results: PTW microDiamond correction factors for CyberKnife field sizes 25-5mm were mostly smaller than 1% (except for 2.9% for 5 mm Iris field and 1.4% for 7.5 mm fixed cone field). The correction of 0.1% and 2.0% for 8 mm and 4 mm collimators, respectively, needed to be applied to PTW microDiamond measurements for LGK Perfexion.
Finally, PTW microDiamond M-Qclin(fclin)/M-Qmsr(fmsr) for the linear accelerator varied from MC corrected Dosimetry Diode data by less than 0.5% (except for 1 x 1 cm(2) field size with 1.3% deviation). Conclusions: Regarding low resulting correction factor values, the PTW microDiamond detector may be considered an almost ideal tool for relative small field dosimetry in a large variety of stereotactic and radiosurgery treatment devices.