Zwitter Matjaz, Kovac Viljem, Smrdel Uros, Strojan Primoz
Institute of Oncology, Ljubljana, Slovenia.
J Thorac Oncol. 2006 Sep;1(7):662-6.
Due to potent radiosensitization and potential serious or fatal toxicity, concurrent gemcitabine and irradiation should only be applied within clinical trials. We here present experience from a phase I-II clinical trial for patients with locally advanced non-small cell lung cancer (NSCLC) treated with hyperfractionated accelerated radiotherapy and concurrent low-dose gemcitabine.
Eligible patients had locally advanced inoperable NSCLC without pleural effusion, Eastern Cooperative Oncology Group performance status 0-1, were chemotherapy naïve and had no previous radiotherapy to the chest, and had adequate hematopoietic, liver, and kidney function. Routine brain computed tomography was not performed, and positron emission tomography/computed tomography was not available. Treatment consisted of three parts: induction chemotherapy with gemcitabine and cisplatin in standard doses, local treatment with concurrent chemotherapy and radiotherapy, and consolidation chemotherapy. Patients were irradiated with opposed AP-PA and oblique fields, using 2.5-D treatment planning. Although corrections for inhomogeneous tissue were made, volume of total lung receiving > or =20 Gy (V20) could not be determined. The trial started as phase I, aimed to determine the dose-limiting toxicity and maximal tolerated dose (MTD) for concurrent hyperfractionated radiotherapy (1.4 Gy twice daily) and gemcitabine 55 mg/m twice weekly as a radiosensitizer. Phase II of the trial then continued at the level of MTD.
Twenty-eight patients with NSCLC, nine patients with stage IIIA, 16 patients with IIIB, and three patients with an inoperable recurrence after previous surgery, entered the trial. The first 12 patients entered Phase I of the trial at the initial level of 42 Gy in 30 fractions in 3 weeks. Dose-limiting toxicity was acute esophagitis; 47.6 Gy in 34 fractions in 3.5 weeks was the MTD for this regimen of concurrent chemotherapy and radiotherapy. In phase II of the trial, this dose was applied to the next 16 patients. Among all 28 patients, 13 had grade 3 or 4 acute toxicity: esophagitis (eight patients), neutropenia (eight patients), thrombocytopenia (four patients), and anemia (two patients). No pulmonary toxicity and no persistent or serious late toxicity were seen. Local and/or regional relapse was documented in nine patients, distant in five and both locoregional and distant in 10 patients. The most common sites of distant spread were the brain and lung in eight and six patients, respectively. At 2 years, progression-free survival was 43% and overall survival was 57%. After 43 to 85 months of follow-up, seven patients are alive, of whom six (21%) are without evidence of disease and may be regarded as long-term survivors. Among the long-term survivors, one was in the group irradiated to 42 Gy and six in the groups irradiated to 47.6 Gy.
Judging from current standards, the methods used in diagnostics and in planning of radiotherapy were suboptimal. Using modern radiotherapy planning, a higher MTD, possibly a different profile of toxicity, and better long-term results may be expected. The high incidence of brain relapse emphasizes the need for careful screening for unsuspected brain disease before treatment and the importance of clinical studies on prophylactic cranial irradiation for patients with locally advanced NSCLC. Although the small number of patients in this study precludes any definitive conclusion, it appears that our program of concurrent chemotherapy and radiotherapy offers a chance for disease control at least comparable to previously described programs for inoperable lung cancer.
由于吉西他滨具有强大的放射增敏作用且可能导致严重或致命毒性,吉西他滨与放疗联合应用应仅在临床试验中进行。我们在此介绍一项I-II期临床试验的经验,该试验针对局部晚期非小细胞肺癌(NSCLC)患者,采用超分割加速放疗联合低剂量吉西他滨治疗。
符合条件的患者为局部晚期无法手术切除的NSCLC,无胸腔积液,东部肿瘤协作组体能状态为0-1,未接受过化疗且既往未接受过胸部放疗,同时具备良好的造血、肝和肾功能。未进行常规脑部计算机断层扫描,也未开展正电子发射断层扫描/计算机断层扫描。治疗包括三个部分:采用标准剂量的吉西他滨和顺铂进行诱导化疗,同步放化疗进行局部治疗,以及巩固化疗。患者采用前后对穿野和斜野进行照射,使用2.5D治疗计划。尽管对不均匀组织进行了校正,但无法确定接受≥20 Gy(V20)的全肺体积。该试验作为I期开始,旨在确定同步超分割放疗(每日两次,每次1.4 Gy)联合吉西他滨55 mg/m²每周两次作为放射增敏剂的剂量限制性毒性和最大耐受剂量(MTD)。然后,该试验的II期在MTD水平继续进行。
28例NSCLC患者进入试验,其中9例为IIIA期,16例为IIIB期,3例为既往手术后无法手术切除的复发患者。前12例患者进入试验的I期,初始剂量为3周内30次分割给予42 Gy。剂量限制性毒性为急性食管炎;3.5周内34次分割给予47.6 Gy是该同步放化疗方案的MTD。在试验的II期,该剂量应用于接下来的16例患者。在所有28例患者中,13例出现3级或4级急性毒性:食管炎(8例)、中性粒细胞减少(8例)、血小板减少(4例)和贫血(2例)。未观察到肺部毒性以及持续性或严重的晚期毒性。9例患者记录有局部和/或区域复发,5例远处复发,10例局部区域和远处均复发。远处转移最常见的部位分别为脑(8例)和肺(6例)。2年时,无进展生存率为43%,总生存率为57%。经过43至85个月的随访,7例患者存活,其中6例(21%)无疾病证据,可视为长期生存者。在长期生存者中,1例在接受42 Gy照射的组中,6例在接受47.6 Gy照射的组中。
从当前标准判断,诊断和放疗计划中所采用的方法并不理想。采用现代放疗计划,可能会有更高的MTD、不同的毒性特征以及更好的长期结果。脑转移的高发生率强调了在治疗前仔细筛查未被怀疑的脑部疾病的必要性,以及针对局部晚期NSCLC患者进行预防性颅脑照射临床研究的重要性。尽管本研究中的患者数量较少,无法得出任何确定性结论,但似乎我们的同步放化疗方案至少为疾病控制提供了一个机会,与先前描述的无法手术切除肺癌的方案相当。
