Advances in Radiation Oncology (Jul 2018)

Multiple energy extraction reduces beam delivery time for a synchrotron-based proton spot-scanning system

  • James E. Younkin, PhD,
  • Martin Bues, PhD,
  • Terence T. Sio, MD,
  • Wei Liu, PhD,
  • Xiaoning Ding, PhD,
  • Sameer R. Keole, MD,
  • Joshua B. Stoker, PhD,
  • Jiajian Shen, PhD

Journal volume & issue
Vol. 3, no. 3
pp. 412 – 420

Abstract

Read online

Purpose: Multiple energy extraction (MEE) is a technology that was recently introduced by Hitachi for its spot-scanning proton treatment system, which allows multiple energies to be delivered in a single synchrotron spill. The purpose of this paper is to investigate how much beam delivery time (BDT) can be reduced with MEE compared with single energy extraction (SEE), in which one energy is delivered per spill. Methods and Materials: A recently developed model based on BDT measurements of our synchrotron's delivery performance was used to compute BDT. The total BDT for 2694 beam deliveries in a cohort of 79 patients treated at our institution was computed in both SEE and 9 MEE configurations to determine BDT reduction. The cohort BDT reduction was also calculated for hypothetical accelerators with increased deliverable charge and compared with the results of our current delivery system. Results: A vendor-provided MEE configuration with 4 energy layers per spill reduced the total BDT on average by 35% (41 seconds) compared with SEE, with up to 65% BDT reduction for individual fields. Adding an MEE layer reduced the total BDT by <1% of SEE BDT. However, improving charge recapture efficiency increased BDT savings by up to 42% of SEE BDT. Conclusions: The MEE delivery technique reduced the total BDT by 35%. Increasing the charge per spill and charge recapture efficiency is necessary to further reduce BDT and thereby take full advantage of our MEE system's potential to improve treatment delivery efficiency and operational throughput.