The use of a realistic VMAT delivery emulator to optimize dynamic machine parameters for improved treatment efficiency.
Boylan, Christopher J Rowbottom, Carl G Mackay, Ranald I
Boylan, Christopher J
Rowbottom, Carl G
Mackay, Ranald I
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Abstract
The delivery of volumetric modulated arc therapy (VMAT) requires the simultaneous movement of the linear accelerator gantry, multi-leaf collimators and jaws while the dose rate is varied. In this study, a VMAT delivery emulator was developed to accurately predict the characteristics of a given treatment plan, incorporating realistic parameters for gantry inertia and the variation in leaf speed with respect to gravity. The emulator was used to assess the impact of dynamic machine parameters on the delivery efficiency, using a set of prostate and head and neck VMAT plans. Initially, assuming a VMAT system with fixed dose rate bins, the allowable leaf and jaw speeds were increased and a significant improvement in treatment time and average dose rate was observed. The software was then adapted to simulate a VMAT system with continuously varying dose rate, and the increase in delivery efficiency was quantified, along with the impact of an increased leaf and jaw speed. Finally, a set of optimal dynamic machine parameters was derived assuming an idealized scenario in which the treatment is delivered in a single arc at constant maximum gantry speed.
Affiliation
North Western Medical Physics, The Christie NHS Foundation Trust, Wilmslow Road, Manchester M20 4BX, UK.
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Date
2011-07-07
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Article
Citation
The use of a realistic VMAT delivery emulator to optimize dynamic machine parameters for improved treatment efficiency. 2011, 56 (13):4119-33 Phys Med Biol