肾移植患者中泮托拉唑与霉酚酸之间无相关药代动力学相互作用:一项随机交叉研究。
No relevant pharmacokinetic interaction between pantoprazole and mycophenolate in renal transplant patients: a randomized crossover study.
作者信息
Rissling Olesja, Glander Petra, Hambach Pia, Mai Marco, Brakemeier Susanne, Klonower Daniela, Halleck Fabian, Singer Eugenia, Schrezenmeier Eva-Vanessa, Dürr Michael, Neumayer Hans-Hellmut, Budde Klemens
机构信息
Department of Nephrology, Charité University Hospital Berlin, Berlin, Germany.
Institute of Pharmacy, Department of Biology, Chemistry, Pharmacy, Freie Universitaet Berlin, Berlin, Germany.
出版信息
Br J Clin Pharmacol. 2015 Nov;80(5):1086-96. doi: 10.1111/bcp.12664. Epub 2015 Jul 14.
AIMS
Mycophenolic acid (MPA) suppresses lymphocyte proliferation through inosine monophosphate dehydrogenase (IMPDH) inhibition. Two formulations have been approved: mycophenolate mofetil (MMF) and enteric-coated mycophenolate sodium (EC-MPS). Pantoprazole (PAN) inhibits gastric acid secretion, which may alter MPA exposure. Data from healthy volunteers suggest a significant drug-drug interaction (DDA) between pantoprazole and MPA. In transplant patients, a decreased MPA area under the concentration-time curve (AUC) may lead to higher IMPDH activity, which may lead to higher acute rejection risk. Therefore this DDA was evaluated in renal transplant patients under maintenance immunosuppressive therapy.
METHODS
In this single-centre, open, randomized, four-sequence, four-treatment crossover study, the influence of PAN 40 mg on MPA pharmacokinetics such as (dose-adjusted) AUC0-12 h (dAUC) was analysed in 20 renal transplant patients (>6 months post-transplantation) receiving MMF (1-2 g day(-1) ) and EC-MPS in combination with ciclosporin. The major metabolite MPA glucuronide (MPAG) and the IMPDH activity were also examined.
RESULTS
MMF + PAN intake led to a lowest mean dAUC for MPA of 41.46 ng h ml(-1) mg(-1) [95% confidence interval (CI) 32.38, 50.54], while MPA exposure was highest for EC-MPS + PAN [dAUC: 46.30 ng h ml(-1) mg(-1) (95% CI 37.11, 55.49)]. Differences in dAUC and dose-adjusted maximum concentration (dCmax) were not significant. Only for MMF [dAUC: 41.46 ng h ml(-1) mg(-1) (95% CI 32.38, 50.54)] and EC-MPS [dAUC: 43.39 ng h ml(-1) mg(-1) (95% CI 33.44, 53.34)] bioequivalence was established for dAUC [geometric mean ratio: 101.25% (90% CI 84.60, 121.17)]. Simultaneous EC-MPS + PAN intake led to an earlier time to Cmax (tmax) [median: 2.0 h (min-max: 0.5-10.0)] than EC-MPS intake alone [3 h (1.5-12.0); P = 0.037]. Tmax was not affected for MMF [1.0 h (0.5-5.0)] ± pantoprazole [1.0 h (0.5-6.0), P = 0.928). No impact on MPAG pharmacokinetics or IMPDH activity was found.
CONCLUSION
Pantoprazole influences EC-MPS and MMF pharmacokinetics but as it had no impact on MPA pharmacodynamics, the immunosuppressive effect of the drug was not impaired.
目的
霉酚酸(MPA)通过抑制肌苷单磷酸脱氢酶(IMPDH)来抑制淋巴细胞增殖。已批准两种制剂:吗替麦考酚酯(MMF)和肠溶包衣的霉酚酸钠(EC-MPS)。泮托拉唑(PAN)抑制胃酸分泌,这可能会改变MPA的暴露量。来自健康志愿者的数据表明泮托拉唑与MPA之间存在显著的药物相互作用(DDA)。在移植患者中,MPA浓度-时间曲线下面积(AUC)降低可能导致IMPDH活性升高,进而可能导致急性排斥反应风险增加。因此,在接受维持性免疫抑制治疗的肾移植患者中对这种DDA进行了评估。
方法
在这项单中心、开放、随机、四序列、四治疗交叉研究中,分析了20例肾移植患者(移植后>6个月)接受MMF(1-2g/天)和EC-MPS联合环孢素治疗时,40mg PAN对MPA药代动力学的影响,如(剂量调整后的)AUC0-12h(dAUC)。还检测了主要代谢产物MPA葡萄糖醛酸苷(MPAG)和IMPDH活性。
结果
MMF+PAN联合服用导致MPA的平均dAUC最低,为41.46ng·h·ml-1·mg-1[95%置信区间(CI)32.38,50.54],而EC-MPS+PAN联合服用时MPA暴露量最高[dAUC:46.30ng·h·ml-1·mg-1(95%CI 37.11,55.49)]。dAUC和剂量调整后的最大浓度(dCmax)差异不显著。仅对于MMF[dAUC:41.46ng·h·ml-1·mg-1(95%CI 32.38,50.54)]和EC-MPS[dAUC:43.39ng·h·ml-1·mg-1(95%CI 33.44,53.34)],dAUC的生物等效性得以确立[几何平均比值:101.25%(90%CI 84.60,121.17)]。同时服用EC-MPS+PAN导致达峰时间(tmax)比单独服用EC-MPS更早[中位数:2.0小时(最小值-最大值:0.5-10.0)] [3小时(1.5-12.0);P=0.037]。MMF[1.0小时(0.5-5.0)]±泮托拉唑[1.0小时(0.5-6.0),P=0.928]时tmax不受影响。未发现对MPAG药代动力学或IMPDH活性有影响。
结论
泮托拉唑影响EC-MPS和MMF的药代动力学,但由于其对MPA药效学无影响,该药物的免疫抑制作用未受损。
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