Academic Department of Radiation Oncology, Manchester Academic Health Sciences Centre, The University of Manchester, Manchester, United Kingdom ; The Christie National Health Service (NHS) Foundation Trust, Manchester, United Kingdom.
Academic Department of Radiation Oncology, Manchester Academic Health Sciences Centre, The University of Manchester, Manchester, United Kingdom ; Department of Surgery and Cancer, Imperial College London, London, United Kingdom.
Transl Oncol. 2014 Feb 1;7(1):55-64. doi: 10.1593/tlo.13724. eCollection 2014 Feb.
Preclinical data have indicated the anti-epidermal growth factor receptor (EGFR) agent cetuximab (Erbitux) as a radiosensitizer in pancreatic cancer, but this has not been specifically addressed in a clinical study. We report the results of an original study initiated in 2007, where cetuximab was tested with radiotherapy (RT) alone in locally advanced pancreatic cancer in a phase II trial (PACER).
Patients (n = 21) received cetuximab loading dose (400 mg/m(2)) and weekly dose (250 mg/m(2)) during RT (50.4 Gy in 28 fractions). Toxicity and disease response end point data were prospectively assessed. A feasibility study of on-trial patient blood and skin sampling was incorporated.
Treatment was well tolerated, and toxicity was low; most patients (71%) experienced acute toxicities of grade 2 or less. Six months posttreatment, stable local disease was achieved in 90% of evaluable patients, but only 33% were free from metastatic progression. Median overall survival was 7.5 months, and actuarial survival was 33% at 1 year and 11% at 3 years, reflecting swift metastatic progression in some patients but good long-term control of localized disease in others. High-grade acneiform rash (P = .0027), posttreatment stable disease (P = .0059), and pretreatment cancer antigen 19.9 (CA19.9) level (P = .0042) associated with extended survival. Patient skin and blood samples yielded sufficient RNA and good quality protein, respectively.
The results indicate that cetuximab inhibits EGFR-mediated radioresistance to achieve excellent local control with minimal toxicity but does not sufficiently control metastatic progression in all patients. Translational studies of patient tissue samples may yield molecular information that may enable individual treatment response prediction.
临床前数据表明,表皮生长因子受体(EGFR)拮抗剂西妥昔单抗(爱必妥)可作为胰腺癌的放射增敏剂,但这并未在临床研究中得到具体证实。我们报告了一项于 2007 年启动的原创研究结果,该研究在局部晚期胰腺癌中进行了 II 期试验(PACER),单独使用西妥昔单抗联合放疗(RT)进行治疗。
患者(n=21)在 RT 期间接受西妥昔单抗负荷剂量(400 mg/m²)和每周剂量(250 mg/m²)(50.4 Gy 分 28 次)。前瞻性评估毒性和疾病反应终点数据。纳入了一项关于试验中患者血液和皮肤样本的可行性研究。
治疗耐受良好,毒性低;大多数患者(71%)出现 2 级或更低级别的急性毒性。治疗后 6 个月,可评估患者中 90%的患者局部疾病稳定,但只有 33%的患者无转移进展。中位总生存期为 7.5 个月,1 年时的生存率为 33%,3 年时的生存率为 11%,这反映了一些患者迅速发生转移进展,但另一些患者局部疾病得到了良好的长期控制。高级别痤疮样皮疹(P=0.0027)、治疗后稳定疾病(P=0.0059)和治疗前癌抗原 19.9(CA19.9)水平(P=0.0042)与延长生存时间相关。患者皮肤和血液样本分别获得了足够的 RNA 和良好质量的蛋白。
结果表明,西妥昔单抗抑制 EGFR 介导的放射抵抗,实现了极佳的局部控制,且毒性最小,但不能在所有患者中充分控制转移进展。对患者组织样本的转化研究可能会获得分子信息,从而可能实现对个体治疗反应的预测。