Abstract
To account for intrafraction motion, patients receiving intensity modulated radiation therapy (IMRT) for the definitive treatment of cervical cancer have an internal target volume (ITV) defined from bladder-full and bladder-empty CT simulation scans. We hypothesized that through daily volumetric magnetic resonance (MR) imaging for setup and treatment, we can assess cervico-uterine motion and create an intrafraction-ITV independent of interfraction bladder changes, and therefore dispense with the full-bladder to empty-bladder ITV paradigm. In this IRB-approved, study patients with locally advanced cervical cancer received IMRT with brachytherapy. IMRT was delivered on a clinical MR-guided radiotherapy (MRgRT) Linac. All patients received a pre-treatment (pre-tx) and post-treatment (post-tx) 0.35T balanced steady-state free precession MR scans in treatment position. The intrafraction cervico-uterine motion was assessed through segmentation of the clinical target volume (CTV) by a gynecological radiation oncologist on each scan. The pre-tx and post-tx MR scans were in the same frame of reference, and any residual patient motion was removed through a rigid registration of the post-tx MR scan to the pre-tx MR scan based on bony anatomy. All post-tx contours were rigidly copied to the pre-tx MR scans. The maximum and mean difference in spatial position between the pre-tx and post-tx MR scans were quantified using maximum Hausdorff distance (HD) and mean distance to agreement (MDA), respectively. Mean, standard deviation, and 95% confidence interval were calculated to determine the intrafraction MR-based internal target volume (ITVMRgRT). In total, 19 same day sessions (N = 38 scans) of intrafraction motion were assessed. Minimal patient voluntary motion was observed across rigid registrations with respect to bony anatomy. The average time between the pre-tx and post-tx MR scans was 14.3 ± 7.1 minutes (mean ± standard deviation), resembling a hypothetical time of on-table adaptation and treatment. The average maximum HD was 0.88 ± 0.46 cm (95% CI 0.668 - 1.08) and average MDA was 0.08 ± 0.07 cm (95% CI 0.05- 0.118). Due to HD’s sensitivity to outliers, a more robust metric (i.e., MDA) was utilized for margin calculation. The ITVMRgRT margin necessary to encompass the MDA for 95% of the intrafraction motion was 0.12 cm; therefore, we propose an ITVMRgRT of 0.15 cm given the non-partial voxelization of segmentation. This work supports margin reduction of the ITV to ITVMRgRT of 0.15 cm when using daily MR-guided online adaptive radiotherapy. Given the maximum setup uncertainty is limited in MRgRT to spatial resolution of the real-time cine imaging sequence, we propose an ITVMRgRT-PTV margin of 0.3 cm. Therefore, our total CTV to PTV margin is 0.45 cm.
Published Version (Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have