Cook Chyung S, Berry Loren M, Bible Roy H, Hribar Jeremy D, Hajdu Elisabeth, Liu Norman W
Pfizer Corporation, Skokie, Illinois, USA.
Drug Metab Dispos. 2003 Nov;31(11):1448-55. doi: 10.1124/dmd.31.11.1448.
A pharmacokinetics and metabolism study was conducted in eight healthy human volunteers. After oral administration of [14C]eplerenone (EP) at a dose of 100 mg per person as an aqueous solution, blood, saliva, breath, urine, and fecal samples were collected at various time points. All matrices were analyzed for total radioactivity and/or for EP and its open-lactone-ring form (EPA). EP was well absorbed, and a mean EP Cmax of 1.72 mug/ml was achieved 1.2 h postdose. After the Cmax, plasma concentrations of EP declined with a half-life of 3.0 h. Plasma concentrations of EPA were much lower than EP concentrations, and the area under the plasma-concentration time curve (AUC) for EPA was only 4% of the EP AUC. Plasma protein binding was moderate (33-60%) but concentration-dependent over the therapeutic concentration range. EP and its metabolites did not preferentially partition into the red blood cells and blood concentrations of total radioactivity were lower than plasma concentrations. Approximately 66.6% and 32.0% of the radioactive dose were excreted in urine and feces, respectively. The majority of urinary and fecal radioactivity was due to metabolites, indicating extensive metabolism of EP. The major metabolic pathways were 6beta- and/or 21-hydroxylation and 3-keto reduction. There was no evidence for any alteration of the 9,11-epoxide ring or the methyl ester. As a percentage of dose, the primary metabolic products excreted in urine and feces included 6beta-hydroxy-EP (6beta-OHEP) (32.0%), 6beta,21-OHEP (20.5%), 21-OHEP (7.89%), and 2alpha,3beta,21-OHEP (5.96%). The amounts of the other metabolites excreted were less than 5% each.
在8名健康人类志愿者身上进行了一项药代动力学和代谢研究。以每人100毫克的剂量将[14C]依普利酮(EP)制成水溶液口服给药后,在不同时间点采集血液、唾液、呼出气体、尿液和粪便样本。对所有样本基质进行总放射性和/或EP及其开环内酯形式(EPA)的分析。EP吸收良好,给药后1.2小时达到平均EP Cmax为1.72微克/毫升。Cmax之后,EP的血浆浓度以3.0小时的半衰期下降。EPA的血浆浓度远低于EP浓度,EPA的血浆浓度-时间曲线下面积(AUC)仅为EP AUC的4%。血浆蛋白结合率中等(33 - 60%),但在治疗浓度范围内呈浓度依赖性。EP及其代谢产物不会优先分配到红细胞中,总放射性的血液浓度低于血浆浓度。约66.6%和32.0%的放射性剂量分别经尿液和粪便排泄。尿液和粪便中的大部分放射性是由代谢产物引起的,表明EP发生了广泛代谢。主要代谢途径为6β-和/或21-羟基化以及3-酮还原。没有证据表明9,11-环氧环或甲酯有任何改变。作为剂量的百分比,经尿液和粪便排泄的主要代谢产物包括6β-羟基-EP(6β-OHEP)(32.0%)、6β,21-OHEP(20.5%)、21-OHEP(7.89%)和2α,3β,21-OHEP(5.96%)。其他代谢产物的排泄量均小于5%。
