Improved delivery efficiency for step and shoot intensity modulated radiotherapy using a fast-tuning magnetron

The delivery efficiency of step and shoot intensity modulated radiotherapy (IMRT) has been improved by the installation of fast-tuning magnetrons into three travelling wave linear accelerators. The IMRT delivery efficiency an d the beam start-up performance have been compared before and after install ation. Start-up and inter sub-field times were reduced by an average of 3.0 s. A typical start-up time from depression of the start button to beam on is now around 4 s. Delivery efficiency for a variety of clinical and qualit y control prescriptions was improved by an average of 30.7% (range 7.4-60.9 %), depending on a complex combination of the number of sub-fields, distanc e moved by leaves and dose rate. For the oldest accelerator (7 years old), dosimetric accuracy was significantly improved for low dose sub-fields. The dose output was within 2% for a 1 monitor unit (MU) sub-field and 1% for a 2 MU sub-field. The two newer accelerators displayed similar or better dos e characteristics even before fast-tuning, magnetron installation. Beam sym metries and flatnesses were acceptable at all energies and dose rates, and showed no obvious degradation in low dose sub-fields. It is recommended tha t fast-tuning magnetrons are adopted for accelerators of this design perfor ming step and shoot IMRT.