McAreavey D, Robertson J I
Department of Cardiology, Western General Hospital, Edinburgh, Scotland.
Drugs. 1990 Sep;40(3):326-45. doi: 10.2165/00003495-199040030-00002.
Recently there has been extensive development of orally active angiotensin converting enzyme (ACE) inhibitors in addition to those already marketed, for example, captopril, enalapril, lisinopril and ramipril. It was initially thought that ACE inhibitors were likely to be most useful as antihypertensive agents in conditions in which circulating renin and angiotensin II were elevated. However, it is now clear that they can also lower arterial pressure when plasma renin is not high. In addition, they have beneficial effects in cardiac failure. Thus, captopril, enalapril, lisinopril and ramipril can be used in the treatment of mild to moderate hypertension either alone or in conjunction with diuretics or calcium antagonists. Broadly speaking, efficacy appears to be similar to that of beta-blockers or diuretics. Unfortunately, however, there are no long term studies comparing one ACE inhibitor with another or with other classes of antihypertensive agents. Furthermore, there are no prognostic studies which show that use of ACE inhibitors reduces morbidity or mortality in hypertension. Many new ACE inhibitors are undergoing clinical assessment, including alacepril, cilazapril, fosenopril, perindopril, quinapril and ramipril. The drugs vary, in that some exist in the active form whereas others are prodrugs which are converted to the active agent following absorption. In addition they each possess one of several ligands, for example, carboxyl, phosphinyl or sulfhydryl groups, and so vary in their affinity for ACE. Although many of these agents are renally excreted, a small number are metabolised via the liver (e.g. quinapril and spirapril) and this may prove advantageous in the presence of renal impairment. In common with captopril and enalapril, the new ACE inhibitors inhibit the renin-angiotensin system and initial results suggest that they are effective in lowering blood pressure in essential hypertension. Furthermore, they reduce systemic vascular resistance in the absence of a reflex tachycardia. There are a number of adverse effects which are attributable to the pharmacological mechanism of the ACE inhibitors as a group; these include hypotension, particularly in patients with high renin levels, prior diuretic use, renal impairment or in the elderly. Additional adverse effects may relate to chemical structure. The high incidence of adverse effects noted in early studies related to excess dosage and to the presence of a sulfhydryl group, which the more recently developed ACE inhibitors lack. The adverse effects most commonly reported with established and new ACE inhibitors include headache and fatigue, cough, skin rashes, hypotension and diarrhoea. As a group, ACE inhibitors have an acceptable but not negligible adverse effect burden.(ABSTRACT TRUNCATED AT 400 WORDS)
除了已上市的口服活性血管紧张素转换酶(ACE)抑制剂,如卡托普利、依那普利、赖诺普利和雷米普利外,最近又有大量此类药物得到开发。最初人们认为,ACE抑制剂在循环肾素和血管紧张素II升高的情况下作为抗高血压药物可能最为有用。然而,现在很清楚,当血浆肾素不高时它们也能降低动脉血压。此外,它们对心力衰竭也有有益作用。因此,卡托普利、依那普利、赖诺普利和雷米普利可单独或与利尿剂或钙拮抗剂联合用于治疗轻至中度高血压。一般来说,其疗效似乎与β受体阻滞剂或利尿剂相似。然而,遗憾的是,目前尚无比较一种ACE抑制剂与另一种ACE抑制剂或与其他类抗高血压药物的长期研究。此外,也没有预后研究表明使用ACE抑制剂可降低高血压患者的发病率或死亡率。许多新型ACE抑制剂正在进行临床评估,包括阿拉普利、西拉普利、福辛普利、培哚普利、喹那普利和雷米普利。这些药物各不相同,有些以活性形式存在,而有些是前体药物,吸收后转化为活性剂。此外,它们各自具有几种配体之一,例如羧基、膦酰基或巯基,因此对ACE的亲和力也不同。尽管这些药物中的许多经肾脏排泄,但少数药物通过肝脏代谢(如喹那普利和螺普利),在肾功能损害的情况下这可能具有优势。与卡托普利和依那普利一样,新型ACE抑制剂抑制肾素-血管紧张素系统,初步结果表明它们对降低原发性高血压的血压有效。此外,它们在无反射性心动过速的情况下降低全身血管阻力。ACE抑制剂作为一个群体存在一些归因于其药理机制的不良反应;这些不良反应包括低血压,尤其是肾素水平高、先前使用利尿剂、肾功能损害或老年患者。其他不良反应可能与化学结构有关。早期研究中注意到的不良反应发生率高与剂量过大和存在巯基有关,而最近开发的ACE抑制剂则没有巯基。已上市和新型ACE抑制剂最常报告的不良反应包括头痛、疲劳、咳嗽、皮疹、低血压和腹泻。作为一个群体,ACE抑制剂的不良反应负担可以接受但并非微不足道。(摘要截选至400字)
