Kelly J G, O'Malley K
Institute of Biopharmaceutics, Monksland, Athlone, Ireland.
Clin Pharmacokinet. 1990 Sep;19(3):177-96. doi: 10.2165/00003088-199019030-00003.
The orally active angiotensin-converting inhibitors (ACE inhibitors) such as captopril and enalapril represent a significant therapeutic advance in the treatment of hypertension and congestive heart failure. Enalapril differs from captopril in several respects. It is a prodrug converted by hepatic esterolysis to the active (but more poorly absorbed) diacid, enalaprilat. Enalaprilat is more potent than captopril, more slowly eliminated and does not possess a sulfhydryl (SH) group. Enalapril was rapidly followed by a number of newer ACE inhibitors, the majority of which are similar to enalapril in that they are prodrugs, converted by hepatic esterolysis to a major active but poorly absorbed diacid metabolite. In one case (delapril) there are 2 active metabolites; in another (alacepril) the prodrug is converted in vivo to captopril. Lisinopril is an exception in that it is an enalaprilat-like diacid but with acceptable oral bioavailability, so that the prodrug route is not employed. The newer ACE inhibitors are at widely different stages of development, and it is not yet clear how many will reach regular clinical use. Of these newer drugs, lisinopril is the longest established and is the subject of the widest published literature. For a number there is as yet little published pharmacokinetic information. A variety of assay methods have been employed to characterise the pharmacokinetics of the ACE inhibitors, including enzymatic techniques, radioimmunoassay and chromatography. The peak plasma concentrations of the prodrugs are generally observed at around 1 hour and those of the diacid metabolites at about 2 to 4 hours. However, there is considerable variation within and between drugs, with benazepril and benazeprilat reaching peak concentrations early and enalapril and enalaprilat typical of later times to peak. Absorption of the active diacids is generally poor, and moderate (typically 30 to 70%) for the prodrugs. The bioavailability of lisinopril is about 25%. It is difficult to talk meaningfully about half-lives of the active drugs. The declines in their plasma concentrations are polyphasic and, if analytical sensitivity allows, active drug may be found at 48 hours or more following administration. This may reflect binding to ACE in plasma. Half-lives of accumulation are of the order of 12 hours; protein binding varies from little (lisinopril) to 90% (benazeprilat). Elimination is mostly renal but there may be biliary elimination for some, such as benazeprilat and fosinopril. The half-lives of the prodrugs are short. Impaired renal function decreases the elimination rate of the diacids.(ABSTRACT TRUNCATED AT 400 WORDS)
口服活性血管紧张素转换酶抑制剂(ACE抑制剂),如卡托普利和依那普利,在高血压和充血性心力衰竭的治疗方面代表了重大的治疗进展。依那普利在几个方面与卡托普利不同。它是一种前体药物,通过肝脏酯解作用转化为活性(但吸收较差)的二酸依那普利拉。依那普利拉比卡托普利更有效,消除更慢,并且不含有巯基(SH)基团。依那普利之后迅速出现了许多更新的ACE抑制剂,其中大多数与依那普利相似,即它们都是前体药物,通过肝脏酯解作用转化为主要的活性但吸收较差的二酸代谢物。在一种情况(地拉普利)中有2种活性代谢物;在另一种情况(阿拉普利)中,前体药物在体内转化为卡托普利。赖诺普利是一个例外,它是一种类似依那普利拉的二酸,但具有可接受的口服生物利用度,因此不采用前体药物途径。这些更新的ACE抑制剂处于广泛不同的开发阶段,目前尚不清楚有多少种将进入常规临床使用。在这些更新的药物中,赖诺普利是应用时间最长的,并且是发表文献最广泛的主题。对于一些药物,目前几乎没有公开的药代动力学信息。已经采用了多种测定方法来表征ACE抑制剂的药代动力学,包括酶技术、放射免疫测定和色谱法。前体药物的血浆峰值浓度一般在1小时左右出现,二酸代谢物的血浆峰值浓度在约2至4小时出现。然而,药物内部和药物之间存在相当大的差异,贝那普利和贝那普利拉较早达到峰值浓度,而依那普利和依那普利拉则是典型的较晚达到峰值的时间。活性二酸的吸收一般较差,前体药物的吸收适中(通常为30%至70%)。赖诺普利的生物利用度约为25%。很难有意义地谈论活性药物的半衰期。它们的血浆浓度下降是多相的,如果分析灵敏度允许,给药后48小时或更长时间可能会发现活性药物。这可能反映了与血浆中ACE的结合。蓄积半衰期约为12小时;蛋白结合率从很低(赖诺普利)到90%(贝那普利拉)不等。消除主要通过肾脏,但对于一些药物,如贝那普利拉和福辛普利,可能存在胆汁消除。前体药物的半衰期较短。肾功能受损会降低二酸的消除率。(摘要截断于400字)
