Double-vertebral segment SBRT via novel ring-mounted Halcyon Linac: Plan quality, delivery efficiency and accuracy.

Abstract

To evaluate the plan quality, treatment delivery efficiency, and accuracy of single-isocenter/multi-target (SIMT) volumetric modulated arc therapy (VMAT) of double-vertebral segments stereotactic body radiation therapy (SBRT) on Halcyon ring delivery system (RDS). In-house multi-target end-to-end phantom testing and independent dose verification using the MD Anderson's single-isocenter/multi-target (lung/spine targets) thorax phantom were completed. Six previously treated patients with 2-vertebral segments on thoracic and/or lumber spine were replanned on Halcyon RDS with 6MV-FFF beam using a single-isocenter placed between the vertebral segments. Three full VMAT arcs with 0° and ±10° collimator angles and advanced Acuros-based dose engine for heterogeneity corrections were used. Prescription was 35 Gy in 5 fractions to each vertebral-segment, simultaneously. For comparison, Halcyon VMAT-SBRT plans were retrospectively created on SBRT-dedicated Truebeam with a 6MV-FFF beam using identical planning geometry and optimization objectives. Target coverage, conformity index (CI), heterogeneity index (HI), gradient index (GI), dose to 2-cm away from each target (D2-cm), and dose to adjacent organs-at-risk (OAR) were evaluated per NRG-BR002 protocol. Treatment delivery parameters were evaluated for both plans. In-house phantom measurements showed acceptable spatial accuracy (< 1mm within 5-cm from the isocenter) of conebeam CT-guided Halcyon SBRT treatments. The MD Anderson phantom irradiation credentialing results met IROC requirements for protocol patients. Mean isocenter-to-tumor center distance was 3.3 ± 0.6-cm (range 2.4 to 4.3-cm). Mean combined PTV was 57.3 ± 31.3 cc (range 20.1 to 99.9 cc). Both Halcyon and Truebeam SIMT-VMAT plans met NRG-BR002 compliance criteria and show similar CI, HI, GI, D2-cm. Maximal and volumetric doses to adjacent OAR including dose to partial spinal cord were lower with Halcyon RDS. Average total monitor units, modulation, and overall treatment time were lower with Halcyon plans by 130 MU, 0.2, 3.8 min, respectively, with similar beam-on time. Average pre-treatment patient-specific portal-dosimetry QA results on Halcyon showed a high pass rate of 99.6%, compared to SBRT-dedicated Truebeam pass rate of 96.8%, for 2%/2 mm clinical gamma passing criteria, suggesting more accurate treatment delivery on Halcyon RDS. SBRT treatment of double-vertebral segments via SIMT-VMAT plans on Halcyon for selected patients is feasible and dosimetrically superior to Truebeam Linac. Faster treatment delivery (<10 min) of double-vertebral segment SBRT on Halcyon could reduce patient intolerance due to severe back pain, potentially reduce intra-fraction motion errors, and improve patient throughput, and clinic workflow.