Background: The management of ultracentral thoracic tumors with ablative dose of radiotherapy remains challenging given proximity to critical central structures. We report patient outcomes, toxicity, and dosimetry for ultracentrally located tumors with hypofractionated stereotactic body radiotherapy (hfSBRT).
Methods: Seventy-eight individuals (50 initial radiotherapy, 28 re-irradiation) undergoing 10 fraction hfSBRT for ultracentrally located thoracic tumors treated between 2009 and 2020 at a single institution were retrospectively reviewed. Overall survival (OS), progression free survival (PFS), and local control (LC) were calculated. Incidence and grade of treatment related toxicity were evaluated. Dosimetric analysis of treatment plans and critical adjacent OARs was performed.
Results: At a median follow up time of 13 months, 1- and 3-year OS, PFS, and LC were 89%/63%, 37%/18%, and 84%/65%, respectively. Median dose was 65 Gy (BED10 = 107.25 Gy). Median primary bronchial tree maximum dose (Dmax) was 60 Gy (V50 = 0.96 cc). Median esophageal Dmax was 38 Gy (V40 = 0 cc). Median great vessel Dmax was 68 Gy (V50 = 3.53 cc). The most common ≥ grade 2 adverse event was pneumonitis, in 15 individuals (20%). Grade 3 or higher toxicity was observed in 9 individuals (12%): three cases of grade 3 pneumonitis (two re-irradiation, one initial radiotherapy), one grade 3 esophageal stricture following re-irradiation, two grade 3 endobronchial obstructions both following initial radiotherapy, and three grade 5 hemoptysis events (two re-irradiation, one initial radiotherapy). One hemoptysis event was categorized as "possibly" related to treatment, while the remaining two events were categorized as "unlikely" related to treatment in patients with clear evidence of disease progression.
Conclusions: hfSBRT to ultracentral lung tumors delivered over 10 fractions is a safe and effective treatment option, with acceptable rates of toxicity and good rates of tumor control.
Trial registration: IRB registration number 12573.
Keywords: Hypofractionated; Lung; Stereotactic body radiotherapy; Ultracentral.
© 2023. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.