Gating has a negligible impact on dose delivered in MRI-guided online adaptive radiotherapy of prostate cancer

Abstract

Background and purpose: MR-guided radiotherapy (MRgRT) allows real-time beam-gating to compensate for intra-fractional target position variations. This study investigates the dosimetric impact of beam-gating and the impact of PTV margin on prostate coverage for prostate cancer patients treated with online-adaptive MRgRT.

Materials and methods: 20 consecutive prostate cancer patients were treated with online-adaptive MRgRT SBRT with 36.25 Gy in 5 fractions (PTV D_95% ≥ 95% (N = 5) and PTV D_95% ≥ 100% (N = 15)). Sagittal 2D cine MRIs were used for gating on the prostate with a 3 mm expansion as the gating window. We computed motion-compensated dose distributions for (i) all prostate positions during treatment (simulating non-gated treatments) and (ii) for prostate positions within the gating window (gated treatments). To evaluate the impact of PTV margin on prostate coverage, we simulated coverage with smaller margins than clinically applied both for gated and non-gated treatments. Motion-compensated fraction doses were accumulated and dose metrics were compared.

Results: We found a negligible dosimetric impact of beam-gating on prostate coverage (median of 0.00 Gy for both D_95% and D_mean). For 18/20 patients, prostate coverage (D_95% ≥ 100%) would have been ensured with a prostate-to-PTV margin of 3 mm, even without gating. The same was true for all but one fraction.

Conclusion: Beam-gating has negligible dosimetric impact in online-adaptive MRgRT of prostate cancer. Accounting for motion, the clinically used prostate-to-PTV margin could potentially be reduced from 5 mm to 3 mm for 18/20 patients.

Keywords: Adaptive radiotherapy; Beam-gating; Deformable image registration; Dose accumulation; MR-guided radiotherapy; Margin assessment; Motion-mitigation; Prostate cancer; Prostate motion; Radiotherapy.