Caponigro F, Avallone A, McLeod H, Cartenì G, De Vita F, Casaretti R, Morsman J, Blackie R, Budillon A, De Lucia L, Gravina A, Catalano G, Comella P, Comella G
Divisione Oncologia Medica A, Istituto Nazionale Tumori Napoli, Italy.
Clin Cancer Res. 1999 Dec;5(12):3948-55.
In vitro studies have shown a schedule-dependent synergism between Tomudex and 5-fluorouracil (5-FU). Incubation of different types of head and neck and colorectal cancer cells with levofolinic acid (LFA) plus 5-FU for 4 or 24 h, after 24-h incubation with Tomudex, produces a clear synergism. The purpose of this study was to evaluate the tolerability and activity of a combination of Tomudex, LFA, and 5-FU in advanced head and neck and colorectal cancer. Furthermore, the potential for 5-FU pharmacomodulation by Tomudex was also evaluated through an intrapatient assessment of dihydropyrimidine dehydrogenase (DPD) activity and 5-FU AUC with and without pretreatment with Tomudex. Eligible patients were treated with Tomudex at the starting dose of 1.5 mg/m2 on day 1, LFA at a fixed dose of 250 mg/m2 on day 2, immediately followed by bolus 5-FU at the starting dose of 600 mg/m2. Tomudex and 5-FU doses were alternately escalated. Courses were repeated every 2 weeks. In the second course, LFA and 5-FU were administered on day 1 and Tomudex on day 2; further treatment was given according to the sequence used in the first course. Plasma 5-FU concentrations were analyzed on courses 1 and 2 using a high-performance liquid chromatography assay with UV detection. DPD activity was measured in peripheral blood mononuclear cells on courses 1 and 2 using incubation of cytosol with [14C]FU and quantitation of metabolite formation. Fifty-eight patients were enrolled in the study. Dose escalation was stopped at step 8, because of the occurrence of dose-limiting toxicity in two of three patients. The dose level immediately before (3 mg/m2 Tomudex, 1050 mg/m2 5-FU) was selected for further evaluation. Tomudex and 5-FU mean dose intensities actually delivered at the seventh step were 1.32 and 462 mg/m2/week, respectively. Six of 40 patients with metastatic colorectal cancer obtained an objective response (15%; 95% confidence interval, 6-30%). In particular, three complete responses and three partial responses were observed. Six of 17 patients with locally advanced or metastatic head and neck cancer obtained an objective response (1 complete response + 5 partial responses; 35%; 95% confidence interval, 14-62%). Median duration of response in colorectal cancer patients was 12 months. 5-FU AUC was not significantly different between the two courses (median intrapatient difference, 9.3%; P = 0.28). DPD activity in course 1 was significantly higher than course 2 (P = 0.041) in the 16 patients in which values were evaluable. The combination of Tomudex, LFA, and 5-FU is well tolerated and active in colorectal and head and neck cancer. The Tomudex mean dose intensity actually delivered is higher than usually achieved in monotherapy. The absence of a clear pharmacokinetic interaction suggests that the synergism of Tomudex and 5-FU might occur at the cellular level.
体外研究表明,拓扑替康(Tomudex)与5-氟尿嘧啶(5-FU)之间存在时间依赖性协同作用。在用拓扑替康孵育24小时后,将不同类型的头颈癌和结肠直肠癌细胞与亚叶酸(LFA)加5-FU孵育4或24小时,可产生明显的协同作用。本研究的目的是评估拓扑替康、LFA和5-FU联合用药在晚期头颈癌和结肠直肠癌中的耐受性和活性。此外,还通过在患者体内评估二氢嘧啶脱氢酶(DPD)活性以及有无拓扑替康预处理时的5-FU曲线下面积(AUC),来评估拓扑替康对5-FU进行药物调节的潜力。符合条件的患者在第1天接受起始剂量为1.5mg/m²的拓扑替康治疗,第2天接受固定剂量为250mg/m²的LFA治疗,随后立即推注起始剂量为600mg/m²的5-FU。拓扑替康和5-FU的剂量交替递增。每2周重复一个疗程。在第二个疗程中,LFA和5-FU在第1天给药,拓扑替康在第2天给药;后续治疗按照第一个疗程使用的顺序进行。在第1和第2个疗程中,使用带紫外检测的高效液相色谱法分析血浆5-FU浓度。在第1和第2个疗程中,通过用[14C]FU孵育细胞溶质并定量代谢物形成,来测量外周血单核细胞中的DPD活性。58例患者入组本研究。在第8步停止剂量递增,因为3例患者中有2例出现了剂量限制性毒性。选择紧接之前的剂量水平(3mg/m²拓扑替康,1050mg/m² 5-FU)进行进一步评估。在第7步实际给予的拓扑替康和5-FU平均剂量强度分别为1.32和462mg/m²/周。40例转移性结肠直肠癌患者中有6例获得客观缓解(15%;95%置信区间,6-30%)。具体而言,观察到3例完全缓解和3例部分缓解。17例局部晚期或转移性头颈癌患者中有6例获得客观缓解(1例完全缓解+5例部分缓解;35%;95%置信区间,14-62%)。结肠直肠癌患者的中位缓解持续时间为12个月。两个疗程之间的5-FU AUC无显著差异(患者体内中位差异,9.3%;P = 0.28)。在可评估值的16例患者中,第1个疗程的DPD活性显著高于第2个疗程(P = 0.041)。拓扑替康、LFA和5-FU联合用药在结肠直肠癌和头颈癌中耐受性良好且具有活性。实际给予的拓扑替康平均剂量强度高于单药治疗通常达到的水平。缺乏明确的药代动力学相互作用表明,拓扑替康和5-FU的协同作用可能发生在细胞水平。