New dose constraint reduces radiation-induced fatal pneumonitis in locally advanced non-small cell lung cancer patients treated with intensity-modulated radiotherapy.

BACKGROUND: Intensity-modulated radiotherapy (IMRT) in locally advanced non-small cell lung cancer (NSCLC) allows treatment of patients with large tumour volumes, but radiation pneumonitis (RP) remains a dose limiting complication. The incidence of severe RP using three-dimensional (3D) conformal radiotherapy, was previously reported to be 17%, with 2% lethal RP. The aim of this study was to monitor the incidence of RP following the introduction of IMRT. MATERIAL AND METHODS: IMRT was delivered using 4-8 beam arrangements and introduced in three phases. In phase I, 12 patients were treated using only one dose constraint (V20), in which the total lung volume receiving 20 Gy was limited to 40%. In phase II, 25 patients were treated with an additional dose constraint of mean lung dose (MLD) ≤ 20 Gy. In phase III, 50 patients were treated with an extra dose constraint (V5) in which the total lung volume receiving a dose of 5 Gy was ≤ 60%. RP was prospectively documented. The results of phase I & II (IMRT-1) were compared to those in phase III (IMRT-2). RESULTS: The median follow-up time was 17 months. The introduction of IMRT was associated with an increase in the incidence of RP in Phase I&II (IMRT-1) to 41%, six of 37 (16%) had grade 5 RP (IMRT-1). Introducing the dose constraint V5, led to a significant reduction in the lung volume receiving doses ≤ 20 Gy from 51 ± 2% to 41 ± 1% (p < 0.0001). Introducing V5 constraint did not decrease the incidence of severe (grade ≥ 3) RP, but significantly decreased the lethal pneumonitis to 4% (two of 50 patients), p = 0.05. CONCLUSION: Introducing IMRT resulted in an increase in the incidence of severe and fatal RP, however a new dose constraint to the volume of lung receiving low doses reduced the incidence of lethal pneumonitis.

Evaluation of factors associated with loco-regional failure and survival in limited disease small cell lung cancer patients treated with chemoradiotherapy.

BACKGROUND: Loco-regional failure (LRF) remains a significant problem in limited disease small cell lung cancer (LD-SCLC) patients treated with definitive chemoradiotherapy. Dose-escalation may be a way forward to reduce the failure rate. However, the risk of toxicity rises with increasing doses. Knowledge on factors associated with LRF could aid the selection of patients for more aggressive treatment. Therefore, the aim of this study is to evaluate factors correlated with LRF in a cohort of LD-SCLC patients treated with definitive chemoradiotherapy. Moreover, factors associated with improved survival were investigated. MATERIAL AND METHODS: We included 147 consecutive LD-SCLC patients treated from 2007 to 2013. Radiotherapy was delivered as either 45 Gy in 1.5-Gy fractions twice daily or 46-50 Gy in 2-Gy fractions once daily. Chemotherapy was etoposide combined with either carboplatin or cisplatin given mainly concomitantly with radiotherapy. Pattern of first failure and survival were evaluated retrospectively. Cumulative LRF (CLRF) and overall survival (OS) were calculated by the Kaplan-Meier method. The impact of covariates on LRF and OS was evaluated by using Cox proportional hazards model. RESULTS: With a median follow-up time of 42.2 months, 37 patients experienced LRF as first failure. Isolated LRF was seen in 16 patients, but no isolated regional failure was seen. The CLRF rate was 22% at 1-year and 43% at 3-years. N3-stage was an independent prognostic factor correlated with LRF development (p = 0.043). Median OS was 24.1 months (95% CI 19-29 months) and a three-year survival of 34%. Prognostic factors associated with improved OS were staging including a positron emission tomography (PET) scan (p = 0.004) and receiving prophylactic cranial irradiation (PCI) (p = 0.006). CONCLUSION: N3-stage was an independent prognostic factor for LRF. Receiving a pretreatment PET scan and receiving PCI were prognostic factors for improved OS. Reduction in LRF may be achieved with dose-escalation in patients with N3-stage. This can be evaluated in prospective dose-escalation trials.