Abstract
AimsTwenty per cent of patients with non-small cell lung cancer present with stage III locally advanced disease. Precision radiotherapy with pencil beam scanning (PBS) protons may improve outcomes. However, stage III is a heterogeneous group and accounting for complex tumour motion is challenging. As yet, it remains unclear as to whom will benefit. In our retrospective planning study, we explored if patients with superior sulcus tumours (SSTs) are a select cohort who might benefit from this treatment. Materials and methodsPatients with SSTs treated with radical radiotherapy using four-dimensional planning computed tomography between 2010 and 2015 were identified. Tumour motion was assessed and excluded if greater than 5 mm. Photon volumetric-modulated arc therapy (VMAT) and PBS proton single-field optimisation plans, with and without inhomogeneity corrections, were generated retrospectively. Robustness analysis was assessed for VMAT and PBS plans involving: (i) 5 mm geometric uncertainty, with an additional 3.5% range uncertainty for proton plans; (ii) verification plans at maximal inhalation and exhalation. Comparative dosimetric and robustness analyses were carried out. ResultsTen patients were suitable. The mean clinical target volume D95 was 98.1% ± 0.4 (97.5–98.8) and 98.4% ± 0.2 (98.1–98.9) for PBS and VMAT plans, respectively. All normal tissue tolerances were achieved. The same four PBS and VMAT plans failed robustness assessment. Inhomogeneity corrections minimally impacted proton plan robustness and made it worse in one case. The most important factor affecting target coverage and robustness was the clinical target volume entering the spinal canal. Proton plans significantly reduced the mean lung dose (by 21.9%), lung V5, V10, V20 (by 47.9%, 36.4%, 12.1%, respectively), mean heart dose (by 21.4%) and thoracic vertebra dose (by 29.2%) (P < 0.05). ConclusionsIn this planning study, robust PBS plans were achievable in carefully selected patients. Considerable dose reductions to the lung, heart and thoracic vertebra were possible without compromising target coverage. Sparing these lymphopenia-related organs may be particularly important in this era of immunotherapy.
Highlights
The aim of this retrospective planning study was to explore robust pencil beam scanning (PBS) planning of sulcus tumours (SSTs), assessing if target coverage is improved and if the dose to normal tissue can be significantly spared compared with volumetric-modulated arc therapy (VMAT)
Ten of 17 patients were identified as suitable e four patients were excluded as they did not have four-dimensional computed tomography scans and three had large tumours extending into the lower lobes where motion was >5 mm
We showed a significant reduction in dose to these lymphopenia-related organs, which may be the most advantageous role of PBSPBT in this era of immunotherapy
Summary
Patients with SSTs seem likely candidates to benefit from scanning protons and present an opportunity to develop PBS techniques in locally advanced NSCLCs as: (i) their invasion of local structures limits motion, circumventing the challenging issues of interplay; (ii) their apical location results in smaller volumes of aerated tissue surrounding them, reducing heterogeneity along proton paths. The aim of this retrospective planning study was to explore robust PBS planning of SSTs, assessing if target coverage is improved and if the dose to normal tissue can be significantly spared compared with VMAT
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