SCI
3 September 2024
Adaptive radiotherapy (up to 74 Gy) or standard radiotherapy (66 Gy) for patients with stage III non-small-cell lung cancer, according to [¹⁸F]FDG-PET tumour residual uptake at 42 Gy (RTEP7–IFCT-1402): a multicentre, randomised, controlled phase 2 trial
(Lancet Oncol, IF: 41.6)
Vera P, Thureau S, Le Tinier F, et al: Adaptive radiotherapy (up to 74 Gy) or standard radiotherapy (66 Gy) for patients with stage III non-small-cell lung cancer, according to [18F]FDG-PET tumour residual uptake at 42 Gy (RTEP7-IFCT-1402): a multicentre, randomised, controlled phase 2 trial. Lancet Oncol 25:1176–1187, 2024
Thoracic radiation intensification is debated in patients with stage III non-small-cell lung cancer (NSCLC). We aimed to assess the activity and safety of a boost radiotherapy dose up to 74 Gy in a functional sub-volume given according to on-treatment [18F]fluorodeoxyglucose ([18F]FDG)-PET results.
在 III 期非小细胞肺癌(NSCLC)患者中,胸部放疗强化是有争议的。我们的目标是根据治疗中的[18F ]氟代脱氧葡萄糖([18F ] FDG)-PET 结果,在功能亚体积内评估高达74Gy 的增强放射治疗剂量的活性和安全性。
In this multicentre, randomised, controlled non-comparative phase 2 trial, we recruited patients aged 18 years or older with inoperable stage III NSCLC without EGFR mutation or ALK rearrangement with an Eastern Cooperative Oncology Group performance status of 0-1, and who were affiliated with or a beneficiary of a social benefit system, with evaluable tumour or node lesions, preserved lung function, and who were amenable to curative-intent radiochemotherapy. Patients were randomly allocated using a central interactive web-response system in a non-masked method (1:1; minimisation method used [random factor of 0·8]; stratified by radiotherapy technique [intensity-modulated radiotherapy vs three-dimensional conformal radiotherapy] and by centre at which patients were treated) either to the experimental adaptive radiotherapy group A, in which only patients with positive residual metabolism on [18F]FDG-PET at 42 Gy received a boost radiotherapy (up to 74 Gy in 33 fractions), with all other patients receiving standard radiotherapy dosing (66 Gy in 33 fractions over 6·5 weeks), or to the standard radiotherapy group B (66 Gy in 33 fractions) over 6·5 weeks. All patients received two cycles of induction platinum-based chemotherapy cycles (paclitaxel 175 mg/m2 intravenously once every 3 weeks and carboplatin area under the curve [AUC]=6 once every 3 weeks, or cisplatin 80 mg/m2 intravenously once every 3 weeks and vinorelbine 30 mg/m2 intravenously on day 1 and 60 mg/m2 orally [or 30 mg/m2 intravenously] on day 8 once every 3 weeks). Then they concomitantly received radiochemotherapy with platinum-based chemotherapy (three cycles for 8 weeks, with once per week paclitaxel 40 mg/m2 intravenously and carboplatin AUC=2 or cisplatin 80 mg/m2 intravenously and vinorelbine 20 mg/m2 intravenously on day 1 and 40 mg/m2 orally (or 20 mg/m2 intravenously) on day 8 in 21-day cycles). The primary endpoint was the 15-month local control rate in the eligible patients who received at least one dose of concomitant radiochemotherapy. This RTEP7-IFCT-1402 trial is registered with ClinicalTrials.gov (NCT02473133), and is ongoing.
在这个多中心,随机,对照的非比较2期临床试验中,我们招募了18岁以上无 EGFR 突变或 ALK 重排的不能手术的 III 期非小细胞肺癌患者,其ECOG评分为0-1,并且他们隶属于或受益于社会福利系统,具有可评估的肿瘤或淋巴结病变,保留了肺功能,并且适合于根治性意向放化疗。患者以非盲方法(1:1; 使用[随机因子为0.8]的最小化方法; 通过放疗技术[调强放疗与三维适形放疗]以及患者接受治疗的中心进行分层)随机分配到实验适应性放疗组 A,其中只有42Gy 的 FDG-PET 患者接受增强放疗(高达74Gy,33次) ,所有其他患者接受标准放疗剂量(66Gy,33次/6.5周)或标准放疗组 B (66Gy,33次/33次)超过6.5周。所有患者接受两个周期的诱导性铂类化疗周期(紫杉醇175mg/m2每3周静脉注射一次,曲线下卡铂面积[ AUC ] = 6每3周一次,或顺铂80mg/m2每3周静脉注射一次,长春瑞滨30mg/m2第1天静脉注射,第8天口服60mg/m2[或30mg/m2静脉注射]每3周一次)。然后他们同时接受以铂类为基础的化疗的放化疗(3个周期8周,每周一次紫杉醇40mg/m2静脉注射,卡铂 AUC = 2或顺铂80mg/m2静脉注射,长春瑞滨20mg/m2静脉注射在第1天和40mg/m2口服(或20mg/m2静脉注射)在第8天21天的周期)。主要终点是接受至少一剂放化疗的合格患者的15个月局部控制率。这个 RTEP7-IFCT-1402试验已经在 clinicaltrials.gov 注册(NCT02473133) ,并且正在进行中。
From Nov 12, 2015, to July 7, 2021, we randomly assigned 158 patients (47 [30%] women and 111 [70%] men) to either the boosted radiotherapy group A (81 [51%]) or to the standard radiotherapy group B (77 [49%)]. In group A, 80 (99%) patients received induction chemotherapy and 68 (84%) received radiochemotherapy, of whom 48 (71%) with residual uptake on [18F]FDG-PET after 42 Gy received a radiotherapy boost. In group B, all 77 patients received induction chemotherapy and 73 (95%) received radiochemotherapy. At the final analysis, the median follow-up for eligible patients who received radiochemotherapy (n=140) was 45·1 months (95% CI 39·3-48·3). The 15-month local control rate was 77·6% (95% CI 67·6-87·6%) in group A and 71·2% (95% CI 60·8-81·6%) in group B. Acute (within 90 days from radiochemotherapy initiation) grade 3-4 adverse events were observed in 20 (29%) of 68 patients in group A and 33 (45%) of 73 patients in group B, including serious adverse events in five (7%) patients in group A and ten (14%) patients in group B. The most common grade 3-4 adverse events were febrile neutropenia (seven [10%] of 68 in group A vs 16 [22%] of 73 in group B), and anaemia (five [7%] vs nine [12%]). In the acute phase, two deaths (3%) occurred in group B (one due to a septic shock related to chemotherapy, and the other due to haemotypsia not related to study treatment), and no deaths occurred in group A. After 90 days, one additional treatment-unrelated death occurred in group A and two deaths events occurred in group B (one radiation pneumonitis and one pneumonia unrelated to treatment).
从2015年11月12日至2021年7月7日,我们随机分配了158名患者(47名[30% ]女性和111名[70% ]男性)加强放疗组 A (81[51% ])或标准放疗组 B (77[49%)]。在 A 组中,80例(99%)患者接受诱导化疗,68例(84%)接受放化疗,其中48例(71%)在42Gy 接受放疗后残留摄取[18F ] FDG-PET。B 组77例接受诱导化疗,73例(95%)接受放化疗。在最终分析中,接受放化疗的合格患者(n = 140)的中位随访时间为45.1个月(95% CI 39.3-48.3)。A 组15个月局部控制率为77.6% (95% CI 67.6-87.6%) ,B 组为71.2% (95% CI 60.8-81.6%)。急性(放化疗开始后90天内)观察到3-4级不良事件 A 组68例患者中有20例(29%) ,B 组73例患者中有33例(45%) ,其中 A 组5例(7%)患者和 B 组10例(14%)患者严重不良事件。最常见的3-4级不良事件是发热性中性粒细胞减少症(A 组68例中有7例[10% ] ,B 组73例中有16例[22% ])和贫血(5例[7% ] vs 9例[12% ])。在急性期,B 组发生2例死亡(3%)(一例由于与化疗相关的感染性休克,另一例由于与研究治疗无关的血型失常) ,A 组无死亡。90天后,A 组又发生一例与治疗无关的死亡,B 组发生两例死亡事件(一例放射性肺炎和一例与治疗无关的肺炎)。
A thoracic radiotherapy boost, based on interim [18F]FDG-PET, led to a meaningful local control rate with no difference in adverse events between the two groups in organs at risk, in contrast with previous attempts at thoracic radiation intensification, warranting a randomised phase 3 evaluation of such [18F]FDG-PET-guided radiotherapy dose adaptation in patients with stage III NSCLC.
基于中期[18F ] FDG-PET 的胸部放疗增加导致有意义的局部控制率,与以前的胸部放射增强尝试相比,两组在危险器官之间的不良事件没有差异,需要对这种[18F ] FDG-PET 引导的放疗剂量适应 III 期 NSCLC 患者进行随机3期评估。
Programme Hospitalier de Recherche Clinique National 2014.
2014年国家研究医院方案。
