Mahalati K, Kahan B D
The University of Texas-Houston Medical School, Department of Surgery, Division of Immunology and Organ Transplantation, 77030, USA.
Clin Pharmacokinet. 2001;40(8):573-85. doi: 10.2165/00003088-200140080-00002.
Sirolimus (previously known as rapamycin), a macrocyclic lactone, is a potent immunosuppressive agent. Sirolimus was recently approved by the US Food and Drug Administration, on the basis of 2 large, double-blind, prospective clinical trials, for use in kidney transplant recipients at a fixed dosage of 2 or 5 mg/day in addition to full dosages of cyclosporin and prednisone. However, despite the fixed dosage regimens used in these pivotal trials, pharmacokinetic and clinical data show that sirolimus is a critical-dose drug requiring therapeutic drug monitoring to minimise drug-related toxicities and maximise efficacy. Assays using high performance liquid chromatography coupled to mass spectrometry, although cumbersome, are the gold standard for evaluating other commonly used assays, such as liquid chromatography with ultraviolet detection, radioreceptor assay and microparticle enzyme immunoassay. Sirolimus is available in oral solution and tablet form. It has poor oral absorption and distributes widely in tissues, displaying not only a wide inter- and intrapatient variability in drug clearance, but also less than optimal correlations between whole blood concentrations and drug dose, demographic features or patient characteristics. Furthermore, the critical role of the cytochrome P450 3A4 system for sirolimus biotransformation leads to extensive drug-drug interactions, among which are increases in cyclosporin concentrations. Thus, sirolimus is now being used to reduce or eliminate exposure to cyclosporin or corticosteroids. The long elimination half-life of sirolimus necessitates a loading dose but allows once daily administration, which is more convenient and thereby could help to improve patient compliance. This review emphasises the importance of blood concentration monitoring in optimising the use of sirolimus. The excellent correlation between steady-state trough concentration (at least 4 days after inception of, or change in, therapy) and area under the concentration-time curve makes the former a simple and reliable index for monitoring sirolimus exposure. Target trough concentration ranges depend on the concomitant immunosuppressive regimen, but a range of 5 to 15 microg/L is appropriate if cyclosporin is being used at trough concentrations of 75 to 150 microg/L. Weekly monitoring is recommended for the first month and bi-weekly for the next month; thereafter,concentration measurements are necessary only if warranted clinically.
西罗莫司(以前称为雷帕霉素)是一种大环内酯类药物,是一种强效免疫抑制剂。基于两项大型、双盲、前瞻性临床试验,西罗莫司最近被美国食品药品监督管理局批准,用于肾移植受者,除了全剂量的环孢素和泼尼松外,固定剂量为每日2毫克或5毫克。然而,尽管在这些关键试验中使用了固定剂量方案,但药代动力学和临床数据表明,西罗莫司是一种需要进行治疗药物监测的临界剂量药物,以尽量减少药物相关毒性并最大化疗效。使用高效液相色谱-质谱联用的检测方法虽然繁琐,但却是评估其他常用检测方法(如带紫外检测的液相色谱法、放射受体分析法和微粒酶免疫分析法)的金标准。西罗莫司有口服溶液和片剂两种剂型。它口服吸收差,在组织中广泛分布,不仅在患者间和患者内药物清除率存在很大差异,而且全血浓度与药物剂量、人口统计学特征或患者特征之间的相关性也不理想。此外,细胞色素P450 3A4系统在西罗莫司生物转化中的关键作用导致广泛的药物相互作用,其中包括环孢素浓度升高。因此,西罗莫司现在被用于减少或消除环孢素或皮质类固醇的暴露。西罗莫司的消除半衰期长,需要负荷剂量,但允许每日一次给药,这更方便,从而有助于提高患者的依从性。本综述强调了血药浓度监测在优化西罗莫司使用中的重要性。稳态谷浓度(治疗开始或改变后至少4天)与浓度-时间曲线下面积之间的良好相关性使得前者成为监测西罗莫司暴露的简单可靠指标。目标谷浓度范围取决于同时使用的免疫抑制方案,但如果环孢素的谷浓度为75至150微克/升,则5至15微克/升的范围是合适的。建议在第一个月每周监测一次,第二个月每两周监测一次;此后,仅在临床有必要时才进行浓度测量。
