Oellerich M, Shipkova M, Schütz E, Wieland E, Weber L, Tönshoff B, Armstrong V W
Department of Clinical Chemistry, Georg-August-University Gottingen, Germany.
Ther Drug Monit. 2000 Feb;22(1):20-6. doi: 10.1097/00007691-200002000-00004.
The need for mycophenolic acid (MPA) monitoring is still under discussion. Key issues for the PK/PD relationships of this drug are: the role of metabolites, the usefulness of AUC versus predose levels, and the need to monitor the free concentration of MPA (f-MPA). Recent advances have revealed that, in addition to 7-O-MPAG, three additional MPA metabolites are present in the plasma of transplant recipients. One of these metabolites (M-2), identified as an acyl glucuronide of MPA, was found to inhibit IMPDH-II in vitro. This active metabolite was also found to cross-react in the Emit assay for MPA. In an ongoing multicenter study, the authors are evaluating the relevance of monitoring total (t-MPA) and free mycophenolic acid (f-MPA) in pediatric renal transplant recipients. As in adults, a time-dependent increase of t-MPA-AUC(0-12h) within the first 3 months posttransplant (35 versus 64 mg x h/L, [corrected] 3 weeks versus 3 months respectively; daily dosage: 0.6 g/m2 bid) was seen. Receiver operating characteristics curve analyses were used to test the ability of predose levels or AUC(0-12h) to discriminate between cases with no complications and those with acute rejection, adverse events (severe infections, leukopenia), or gastrointestinal disorders observed during the early posttransplant course. In agreement with observations in adults, a significant (p = 0.001) association was observed between AUC(0-12h) and acute rejection. A t-MPA-AUC(0-12h) of approximately 30-60 mg x h/L [corrected], as determined by HPLC, seems to be a reasonable target for the early posttransplant period. It remains to be elucidated whether regular predose level monitoring may be of more practical value. A higher incidence of rejection was observed at predose MPA concentrations < or = 1 mg/L, as measured by HPLC. In contrast to t-MPA, f-MPA-AUC(0-12h) was significantly related to severe infections and leukopenia. The risk for severe adverse events was increased at f-MPA- AUC(0-12h) values > or =600 microg x h/L [corrected]. On the basis of these data and the observed variability in the pharmacokinetics of MPA, the development of monitoring strategies for this drug appears to be promising.
霉酚酸(MPA)监测的必要性仍在讨论之中。该药物药代动力学/药效学关系的关键问题包括:代谢物的作用、曲线下面积(AUC)与给药前水平的效用比较,以及监测游离MPA浓度(f-MPA)的必要性。最近的进展表明,除了7-O-霉酚酸葡萄糖苷(7-O-MPAG)外,移植受者血浆中还存在另外三种MPA代谢物。其中一种代谢物(M-2)被鉴定为MPA的酰基葡萄糖醛酸,在体外被发现可抑制肌苷-5'-单磷酸脱氢酶-II(IMPDH-II)。这种活性代谢物在MPA的发射法测定中也会发生交叉反应。在一项正在进行的多中心研究中,作者正在评估监测小儿肾移植受者的总霉酚酸(t-MPA)和游离霉酚酸(f-MPA)的相关性。与成人情况一样,移植后前3个月内t-MPA-AUC(0 - 12小时)呈时间依赖性增加(分别为35和64毫克·小时/升,[校正后]分别为3周和3个月;每日剂量:0.6克/平方米,每日两次)。采用受试者工作特征曲线分析来测试给药前水平或AUC(0 - 12小时)区分无并发症病例与移植后早期出现急性排斥反应、不良事件(严重感染、白细胞减少)或胃肠道疾病病例的能力。与成人的观察结果一致,观察到AUC(0 - 12小时)与急性排斥反应之间存在显著关联(p = 0.001)。通过高效液相色谱法(HPLC)测定,移植后早期t-MPA-AUC(0 - 12小时)约为30 - 60毫克·小时/升[校正后]似乎是一个合理的目标。定期监测给药前水平是否具有更大的实用价值仍有待阐明。通过HPLC测定,当给药前MPA浓度≤1毫克/升时,观察到排斥反应发生率较高。与t-MPA相反,f-MPA-AUC(0 - 12小时)与严重感染和白细胞减少显著相关。当f-MPA-AUC(0 - 12小时)值≥600微克·小时/升[校正后]时,严重不良事件的风险增加。基于这些数据以及观察到的MPA药代动力学变异性,该药物监测策略的开发似乎很有前景。
