将非格司亭纳入局限期小细胞肺癌放化疗的研究:一项Ⅰ期研究
Integration of filgrastim into chemoradiation for limited small cell lung cancer: a Phase I study.
作者信息
Glisson B, Komaki R, Lee J S, Shin D M, Fossella F, Murphy W K, Kurie J, Perez-Soler R, Schea R, Vadhan-Raj S
机构信息
Department of Thoracic/Head and Neck Medical Oncology, The University of Texas M. D. Anderson Cancer Center, Houston 77030, USA.
出版信息
Int J Radiat Oncol Biol Phys. 1998 Jan 15;40(2):331-6. doi: 10.1016/s0360-3016(97)00709-8.
PURPOSE
Recent studies document the value of early combined modality therapy of small cell lung cancer, but also indicate that early thoracic radiation adds to myelosuppression and can complicate further chemotherapy. Other studies indicate that simultaneous use of growth factors with thoracic radiation may be deleterious. However, temporal separation of growth factor use from cytotoxic therapy may allow dose intensity to be maintained/enhanced during combined modality treatment. We sought to integrate filgrastim into a novel chemoradiation regimen for patients with limited small cell lung cancer using an approach that separated growth factor administration from both chemotherapy and thoracic radiation.
METHODS AND MATERIALS
Twenty-seven patients with limited disease small cell lung cancer were enrolled in a Phase I trial of cisplatin, ifosfamide/mesna, oral etoposide, and thoracic radiation (1.5 Gy b.i.d. x 30 fractions days 1-19 cycle 1) +/- filgrastim (5 microg/kg/day). Filgrastim was given on days 20-25 of cycle 1 after completion of radiation and following completion of oral etoposide in subsequent cycles. The primary end point was determination of maximum tolerated dose (MTD) of chemotherapy. Serial cohorts were treated with and without filgrastim.
RESULTS
Because of dose-limiting thrombocytopenia, primarily, and nonhematologic toxicity, the MTDs with and without filgrastim were identical (cisplatin 20 mg/m2 i.v. and ifosfamide 1200 mg/m2 i.v., both given days 1-3, and etoposide 40 mg/m2 p.o. days 1-14). Filgrastim use shortened the duration of neutropenia at the MTD (median 4 vs. 7 days), but was not associated with a reduction in febrile neutropenia. Although growth factor administration did not allow dose escalation of this regimen, it did allow chemotherapy doses to be maintained at the MTD more frequently through four cycles of therapy. In the 24 evaluable patients, the overall response rate was 100% (71% partial and 29% complete).
CONCLUSIONS
Despite careful attention to the timing of growth factor with chemoradiation, the administration of filgrastim with this regimen did not allow dose escalation. As in many other recent studies of hematopoietic growth factors given prophylactically with chemotherapy, the duration of neutropenia at the MTD was shortened and the need for dose reduction throughout treatment was reduced in patients receiving filgrastim at the MTD.
目的
近期研究证明了小细胞肺癌早期联合治疗的价值,但也表明早期胸部放疗会加重骨髓抑制,并可能使后续化疗变得复杂。其他研究表明,生长因子与胸部放疗同时使用可能有害。然而,将生长因子的使用与细胞毒性治疗在时间上分开,可能会在联合治疗期间维持/提高剂量强度。我们试图将非格司亭纳入一种新的放化疗方案,用于局限期小细胞肺癌患者,采用一种将生长因子给药与化疗和胸部放疗分开的方法。
方法和材料
27例局限期小细胞肺癌患者参加了一项顺铂、异环磷酰胺/美司钠、口服依托泊苷和胸部放疗(1.5 Gy,每日2次,共30次,第1 - 19天为第1周期)±非格司亭(5 μg/kg/天)的I期试验。非格司亭在第1周期放疗结束后及后续周期口服依托泊苷结束后的第20 - 25天给药。主要终点是确定化疗的最大耐受剂量(MTD)。连续队列分别接受有和没有非格司亭的治疗。
结果
主要由于剂量限制性血小板减少和非血液学毒性,使用和不使用非格司亭的MTD相同(顺铂20 mg/m²静脉注射,异环磷酰胺1200 mg/m²静脉注射,均在第1 - 3天给药,依托泊苷40 mg/m²口服,第1 - 14天给药)。使用非格司亭缩短了MTD时的中性粒细胞减少持续时间(中位数分别为4天和7天),但与发热性中性粒细胞减少的减少无关。尽管生长因子的给药没有使该方案的剂量增加,但它确实使化疗剂量在四个治疗周期中更频繁地维持在MTD。在24例可评估患者中,总缓解率为100%(部分缓解71%,完全缓解29%)。
结论
尽管仔细关注了生长因子与放化疗的给药时间,但该方案使用非格司亭并没有使剂量增加。与许多近期预防性使用造血生长因子与化疗联合的其他研究一样,在MTD接受非格司亭治疗的患者中,MTD时的中性粒细胞减少持续时间缩短,整个治疗期间减少剂量的需求降低。
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