de Jonge Milly E, Huitema Alwin D R, Holtkamp Marjo J, van Dam Selma M, Beijnen Jos H, Rodenhuis Sjoerd
Department of Pharmacy & Pharmacology, The Netherlands Cancer Institute/Slotervaart Hospital, Louwesweg 6, 1066, EC, Amsterdam, The Netherlands.
Cancer Chemother Pharmacol. 2005 Oct;56(4):370-8. doi: 10.1007/s00280-005-1005-4. Epub 2005 Apr 19.
Patients receiving the highly emetogenic high-dose chemotherapy regimen with cyclophosphamide, thiotepa and carboplatin (CTC) may benefit from the neurokin-1 receptor antagonist aprepitant in addition to standard anti-emetic therapy. As aprepitant has been shown to be a moderate inhibitor of the cytochrome P450 (CYP) 3A4 isoenzyme, its effect on the pharmacokinetics and metabolism of cyclophosphamide and thiotepa was evaluated. Moreover, preliminary results on the clinical efficacy of aprepitant in the CTC regimen are reported.
Six patients were enrolled in a protocol that employed a 4-day course of CTC high-dose chemotherapy with cyclophosphamide (1,500 mg/m2/day), thiotepa (120 mg/m2/day) and carboplatin (AUC 5 mg min/ml/day). Two patients received the tCTC protocol, which comprises two-third of the dose of CTC. In addition to standard anti-emetic therapy, the patients received aprepitant from one day before the start of their course until 3 days after chemotherapy. Blood samples were collected on days one and three of the course and analyzed for cyclophosphamide and its activated metabolite 4-hydroxycyclophosphamide, thiotepa and its main active metabolite tepa. The influence of aprepitant on the pharmacokinetics of cyclophosphamide and thiotepa was analyzed using a population pharmacokinetic analysis including a reference population of 49 patients receiving the same chemotherapy regimen without aprepitant and sampled under the same conditions. The frequency of nausea and vomiting in the six patients receiving CTC was compared with those of the last 22 consecutive patients receiving CTC chemotherapy without aprepitant. Inhibitory activity of aprepitant on cyclophosphamide and thiotepa metabolism was also tested in human liver microsomes.
In our patient population, the rate of autoinduction of cyclophosphamide (P=0.040) and the formation clearance of tepa (P<0.001) were reduced with 23% and 33% when aprepitant was co-administered, respectively. Exposures to the active metabolite 4-hydroxycyclophosphamide and tepa were therefore reduced (5% and 20%, respectively) in the presence of aprepitant. In human liver microsomes, the 50% inhibitory concentrations (IC50) of aprepitant for inhibition of cyclophosphamide (IC50=1.3 microg/ml) and thiotepa (IC50=0.27 microg/ml) metabolism were within the therapeutic range. Patients receiving aprepitant experienced less frequently CINV both during and after the CTC course compared with the reference population (nausea 3.7 days vs. 5.8 days, P=0.052; vomiting 0.5 days vs. 4.8 days, P<0.001).
Aprepitant inhibited both cyclophosphamide and thiotepa metabolism, most probably due to inhibition of the CYP 3A4 and/or 2B6 isoenzymes. The effects of this interaction are, however, small compared to the total variability. Addition of aprepitant may provide superior protection against vomiting in patients receiving the highly emetogenic high-dose CTC chemotherapy.
接受含环磷酰胺、噻替派和卡铂(CTC)的高致吐性大剂量化疗方案的患者,除标准止吐治疗外,可能从神经激肽-1受体拮抗剂阿瑞匹坦中获益。由于阿瑞匹坦已被证明是细胞色素P450(CYP)3A4同工酶的中度抑制剂,因此评估了其对环磷酰胺和噻替派药代动力学及代谢的影响。此外,还报告了阿瑞匹坦在CTC方案中的临床疗效的初步结果。
6名患者纳入一项方案,该方案采用为期4天的含环磷酰胺(1500mg/m²/天)、噻替派(120mg/m²/天)和卡铂(AUC 5mg·min/ml/天)的CTC大剂量化疗。2名患者接受tCTC方案,其包含三分之二剂量的CTC。除标准止吐治疗外,患者从疗程开始前1天至化疗后3天接受阿瑞匹坦治疗。在疗程的第1天和第3天采集血样,分析环磷酰胺及其活性代谢物4-羟基环磷酰胺、噻替派及其主要活性代谢物替派。使用群体药代动力学分析,包括49名接受相同化疗方案但未使用阿瑞匹坦且在相同条件下采样的患者的参考群体,分析阿瑞匹坦对环磷酰胺和噻替派药代动力学的影响。将6名接受CTC治疗的患者的恶心和呕吐频率与最后22名连续接受不含阿瑞匹坦的CTC化疗的患者进行比较。还在人肝微粒体中测试了阿瑞匹坦对环磷酰胺和噻替派代谢的抑制活性。
在我们的患者群体中,当联合使用阿瑞匹坦时,环磷酰胺的自身诱导率(P = 0.040)和替派的生成清除率(P < 0.001)分别降低了23%和33%。因此,在存在阿瑞匹坦的情况下,活性代谢物4-羟基环磷酰胺和替派的暴露量降低(分别为5%和20%)。在人肝微粒体中,阿瑞匹坦抑制环磷酰胺(IC50 = 1.3μg/ml)和噻替派(IC50 = 0.27μg/ml)代谢的50%抑制浓度(IC50)在治疗范围内。与参考群体相比,接受阿瑞匹坦的患者在CTC疗程期间和之后发生化疗引起的恶心和呕吐(CINV)的频率较低(恶心3.7天对5.8天,P = 0.052;呕吐0.5天对4.8天,P < 0.001)。
阿瑞匹坦抑制环磷酰胺和噻替派的代谢,很可能是由于抑制了CYP 3A4和/或2B6同工酶。然而,与总变异性相比,这种相互作用的影响较小。添加阿瑞匹坦可能为接受高致吐性大剂量CTC化疗的患者提供更好的防呕吐保护。
