紫杉醇的非线性药代动力学、代谢及其在人体中的药代动力学/药效动力学关系

Nonlinear pharmacokinetics and metabolism of paclitaxel and its pharmacokinetic/pharmacodynamic relationships in humans.

作者信息

Gianni L, Kearns C M, Giani A, Capri G, Viganó L, Lacatelli A, Bonadonna G, Egorin M J

机构信息

Division of Medical Oncology, Instituto Nazinale per lo Studio e la Cura dei Tumori, Milano, Italy.

出版信息

J Clin Oncol. 1995 Jan;13(1):180-90. doi: 10.1200/JCO.1995.13.1.180.

DOI:10.1200/JCO.1995.13.1.180

PMID:7799018

Abstract

PURPOSE

To characterize and model the disposition of paclitaxel in humans and define a pharmacodynamic relationships between paclitaxel disposition and its toxicity and efficacy.

PATIENTS AND METHODS

Paclitaxel pharmacokinetics were studied in 55 courses of therapy in 30 patients. Paclitaxel was administered at 135 mg/m2 or 175 mg/m2 by either a 3- or a 24-hour infusion schedule to patients with advanced ovarian cancer (n = 15), or at 225 mg/m2 by 3-hour infusion to patients with advanced breast cancer (n = 15). Paclitaxel and 6 alpha-hydroxylpaclitaxel were quantified by high-performance liquid chromatography (HPLC). Pharmacokinetics were assessed by noncompartmental and model-dependent methods. Pharmacodynamic correlations were evaluated statistically and by regression models.

RESULTS

Paclitaxel disposition is nonlinear in humans and, on the 3-hour schedule, 6 alpha-hydroxylpaclitaxel was identified in the plasma of all patients treated. The plasma disposition of paclitaxel and 6 alpha-hydroxylpaclitaxel was well described by a model that featured multiple nonlinear processes. Neutropenia was not related to the areas under the curves (AUCs) of paclitaxel or 6 alpha-hydroxylpaclitaxel, or to palitaxel peak concentrations (Cmax). Neutropenia was related to the duration that plasma concentrations were > or = 0.05 mumol/L, a relationship that is well described by a sigmoid maximum response (Emax) model.

CONCLUSION

The disposition of paclitaxel in humans is nonlinear. Paclitaxel metabolism to 6 alpha-hydroxylpaclitaxel is likely an important detoxification pathway. Myelosuppression is related to the duration that plasma paclitaxel concentrations are > or = 0.05 mumol/L. Trials of new doses and schedules of paclitaxel should take into account its nonlinear disposition to rule out adverse clinical consequences, especially if the drug is administered by short infusion. Our pharmacokinetic model should prove to be a powerful tool in predicting paclitaxel disposition, regardless of dose and schedule, and should facilitate further pharmacodynamic investigations.

摘要

目的

描述和模拟紫杉醇在人体内的处置过程，并确定紫杉醇处置与其毒性和疗效之间的药效学关系。

患者与方法

对30例患者的55个疗程进行了紫杉醇药代动力学研究。晚期卵巢癌患者（n = 15）接受135mg/m²或175mg/m²的紫杉醇，采用3小时或24小时输注方案给药；晚期乳腺癌患者（n = 15）接受225mg/m²的紫杉醇，采用3小时输注方案给药。通过高效液相色谱法（HPLC）对紫杉醇和6α-羟基紫杉醇进行定量。采用非房室和模型依赖方法评估药代动力学。通过统计和回归模型评估药效学相关性。

结果

紫杉醇在人体内的处置呈非线性，在3小时给药方案中，所有接受治疗的患者血浆中均检测到6α-羟基紫杉醇。一个具有多个非线性过程的模型很好地描述了紫杉醇和6α-羟基紫杉醇的血浆处置情况。中性粒细胞减少与紫杉醇或6α-羟基紫杉醇的曲线下面积（AUC）以及紫杉醇的峰浓度（Cmax）无关。中性粒细胞减少与血浆浓度≥0.05μmol/L的持续时间有关，这种关系可用S型最大反应（Emax）模型很好地描述。

结论

紫杉醇在人体内的处置呈非线性。紫杉醇代谢为6α-羟基紫杉醇可能是一条重要的解毒途径。骨髓抑制与血浆紫杉醇浓度≥0.05μmol/L的持续时间有关。新的紫杉醇剂量和给药方案的试验应考虑其非线性处置，以排除不良临床后果，特别是在短时间输注给药时。我们的药代动力学模型应被证明是预测紫杉醇处置的有力工具，无论剂量和给药方案如何，并应有助于进一步的药效学研究。