Schultz K R, Nevill T J, Balshaw R F, Toze C L, Corr T, Currie C J, Strong D K, Keown P A
Department of Pediatrics, University of British Columbia and British Columbia's Children's Hospital, Vancouver, Canada.
Bone Marrow Transplant. 2000 Sep;26(5):545-51. doi: 10.1038/sj.bmt.1702545.
Cyclosporin A (CsA) absorption is highly variable in BMT patients. Neoral, a new microemulsion formulation of CsA, permits increased absorption with less variable pharmacokinetic parameters in non-BMT patients. We evaluated the pharmacokinetics of CsA after BMT in patients received microemulsion CsA. Two oral doses of 3mg/kg were given 48 h apart between 14 and 28 days after allogeneic BMT in 20 adults, and one dose in seven children, while subjects were receiving a continuous i.v. infusion of CsA. Whole blood samples were taken throughout the dosing interval to calculate the incremental CsA exposure using maximum concentration (Cmax), time to Cmax (tmax), concentration at 12 h after the dose (C12), the area under the concentration-time curve (AUC), and to establish inter- and intra-patient pharmacokinetic variability. Drug exposure was substantially lower in children than adults, with an AUC of 861+/-805 vs 2629+/-1487 micromg x h/l (P = 0.001), respectively, and absorption was delayed and diminished in both groups by comparison with solid organ recipients. Intra-patient variability in adults for AUC was high at 0.59+/-0.34, while inter-patient variability, measured as the coefficient of variation (c.v.), was 0.55 for the first and 0.54 for the second dose. In adults, gastrointestinal (GI) inflammation due to either mucositis or GVHD resulted in a higher AUC of 3077+/-1551 microg x h/l compared to 1795+/-973 microg x h/l (P = 0.02), and a similar trend was observed in children. AUC seemed little affected by the CsA formulation (liquid or capsule), or co-administration with liquids or food. Trough (12 h) CsA levels correlated poorly with incremental AUC. Sparse sample modeling of the AUC using two-point predictors taken at 2.5 and 5 h after dosing accurately approximated AUC in adults (r2 = 0.94), while 1.5 and 5 h was superior in children (r2 = 0.98). These data suggest that 12 h postdose trough measurements of CsA may not be the most appropriate way to evaluate CsA blood concentrations in order to establish therapeutic efficacy in BMT patients. Based on this study, the dose of microemulsion CsA should be adjusted based on recipient age, and the presence of GI inflammation secondary to mucositis or GVHD. These data would suggest that sparse sampling at time points earlier than the trough more accurately reflects the AUC and may correlate more closely with therapeutic efficacy early post-BMT.
环孢素A(CsA)在骨髓移植(BMT)患者中的吸收情况差异很大。新山地明(Neoral)是CsA的一种新型微乳剂配方,在非BMT患者中可提高吸收且药代动力学参数的变异性较小。我们评估了接受微乳剂CsA的BMT患者中CsA的药代动力学。在20名成人同种异体BMT术后14至28天,每隔48小时给予两次3mg/kg的口服剂量,7名儿童给予一次剂量,同时受试者接受CsA的持续静脉输注。在整个给药间隔期间采集全血样本,以使用最大浓度(Cmax)、达峰时间(tmax)、给药后12小时的浓度(C12)、浓度-时间曲线下面积(AUC)来计算CsA的增量暴露,并确定患者间和患者内的药代动力学变异性。儿童的药物暴露显著低于成人,AUC分别为861±805与2629±1487微克·小时/升(P = 0.001),与实体器官移植受者相比,两组的吸收均延迟且减少。成人中AUC的患者内变异性较高,为0.59±0.34,而患者间变异性,以变异系数(c.v.)衡量,第一剂为0.55,第二剂为0.54。在成人中,由于黏膜炎或移植物抗宿主病(GVHD)导致的胃肠道(GI)炎症导致AUC较高,为3077±1551微克·小时/升,而相比之下为1795±973微克·小时/升(P = 0.02),儿童中也观察到类似趋势。AUC似乎受CsA配方(液体或胶囊)或与液体或食物同时给药的影响较小。谷值(12小时)CsA水平与增量AUC的相关性较差。使用给药后2.5小时和5小时的两点预测值对AUC进行稀疏样本建模,在成人中准确近似AUC(r2 = 0.94),而在儿童中1.5小时和5小时的效果更佳(r2 = 0.98)。这些数据表明,为了确定BMT患者的治疗效果,给药后12小时的谷值测量可能不是评估CsA血药浓度的最合适方法。基于这项研究,微乳剂CsA的剂量应根据受者年龄以及是否存在继发于黏膜炎或GVHD的GI炎症进行调整。这些数据表明,在谷值时间点之前的时间点进行稀疏采样能更准确地反映AUC,并且可能与BMT术后早期的治疗效果更密切相关。
