Kubo S H, Cody R J
Clin Pharmacokinet. 1985 Sep-Oct;10(5):377-91. doi: 10.2165/00003088-198510050-00001.
The angiotensin converting enzyme inhibitors are an important therapeutic advance in the treatment of patients with hypertension and congestive heart failure. In addition, they are useful pharmacological probes to assess the contribution of the renin-angiotensin system to circulatory homeostasis. Captopril was the first angiotensin converting enzyme inhibitor approved for use in patients with hypertension and congestive heart failure. It is rapidly absorbed from the gastrointestinal tract, with detectable plasma concentrations apparent as early as 15 minutes. The extent of absorption is between 60 and 75% of an oral dose and peak plasma concentrations occur after approximately one hour. Captopril is primarily excreted by the kidneys via renal tubular secretion. Renal excretion is rapid, with 90% completed in the first 4 hours. The elimination half-life for unchanged captopril is about 1.7 hours and is markedly increased in the presence of renal insufficiency. Once absorbed, captopril is extensively metabolised to several forms, including a disulphide dimer of captopril, a captopril-cysteine disulphide, and other mixed disulphides with endogenous thiol compounds. It is probable that captopril and its pool of metabolites undergo reversible interconversions. Pharmacokinetic properties of captopril in patients with uncomplicated hypertension appear to be the same as in healthy subjects. However, long term administration of captopril leads to increased concentrations of total captopril, probably from the accumulation of captopril metabolites. Despite the number of potential influences on pharmacokinetic properties in patients with congestive heart failure, due to the many abnormalities in gastrointestinal tract oedema and reductions in splanchnic and renal blood flow, the available data suggest that its pharmacokinetic properties in patients with congestive heart failure resemble those in healthy subjects. However, additional data are necessary to confirm this. Enalapril is the second angiotensin converting enzyme inhibitor to become available. Enalapril is a prodrug that is well absorbed from the gastrointestinal tract, with 60 to 70% of an oral dose being absorbed. However, enalapril must be converted by hepatic esterases to the active form, enalaprilat. After the oral administration of enalapril, the tmax for enalapril is one hour, but for enalaprilat it is 4 hours. There is a prolonged terminal elimination phase with enalaprilat being detectable as late as 96 hours after dosing. Thus, enalapril has a much longer duration of action than captopril. Like captopril, enalapril is primarily excreted by the kidneys.(ABSTRACT TRUNCATED AT 400 WORDS)
血管紧张素转换酶抑制剂是治疗高血压和充血性心力衰竭患者的一项重要治疗进展。此外,它们还是评估肾素 - 血管紧张素系统对循环稳态贡献的有用药理学探针。卡托普利是首个被批准用于高血压和充血性心力衰竭患者的血管紧张素转换酶抑制剂。它能迅速从胃肠道吸收,早在15分钟后就能检测到血浆浓度。吸收程度为口服剂量的60%至75%,血浆浓度峰值约在1小时后出现。卡托普利主要通过肾小管分泌经肾脏排泄。肾脏排泄迅速,90%在最初4小时内完成。未改变的卡托普利的消除半衰期约为1.7小时,在肾功能不全时会显著延长。一旦吸收,卡托普利会广泛代谢为多种形式,包括卡托普利的二硫化物二聚体、卡托普利 - 半胱氨酸二硫化物以及与内源性硫醇化合物的其他混合二硫化物。卡托普利及其代谢产物库可能会发生可逆的相互转化。单纯高血压患者中卡托普利的药代动力学特性似乎与健康受试者相同。然而,长期服用卡托普利会导致总卡托普利浓度升高,可能是由于卡托普利代谢产物的积累。尽管充血性心力衰竭患者的药代动力学特性可能受到多种潜在影响,如胃肠道水肿、内脏和肾血流量减少等诸多异常情况,但现有数据表明其在充血性心力衰竭患者中的药代动力学特性与健康受试者相似。然而,需要更多数据来证实这一点。依那普利是第二种上市的血管紧张素转换酶抑制剂。依那普利是一种前药,能很好地从胃肠道吸收,口服剂量的60%至70%被吸收。然而,依那普利必须经肝酯酶转化为活性形式依那普利拉。口服依那普利后,依那普利拉的达峰时间为1小时,而依那普利的达峰时间为4小时。依那普利拉在给药后96小时仍可检测到,因此其终末消除期延长。因此,依那普利的作用持续时间比卡托普利长得多。与卡托普利一样,依那普利主要经肾脏排泄。(摘要截选至400字)
