Shionoiri H
Second Department of Internal Medicine, Yokohama City University School of Medicine, Japan.
Clin Pharmacokinet. 1993 Jul;25(1):20-58. doi: 10.2165/00003088-199325010-00003.
Angiotensin converting enzyme (ACE) inhibitors which have active moieties excreted mainly in urine require adjustment of either the dose or the interval between doses in patients with moderate to severe renal dysfunction or severe congestive heart failure. Those agents such as temocapril (CS 622) and fosinopril, excreted both in urine and bile, may not require such adjustment. Renal clearance of ACE inhibitors may be reduced and some accumulation may occur in elderly patients with mild renal dysfunction or congestive heart failure. The bioavailability of ACE inhibitors is reduced by concomitant food or antacids which may slow gastric emptying and raise gastric pH. Pharmacokinetic interactions with ACE inhibitors are unlikely in patients receiving thiazide or loop diuretics. When ACE inhibitors are given hyperkalaemia may occur in patients with renal insufficiency, those taking potassium supplements or potassium-sparing diuretics, and in diabetic patients with mild renal impairment. While no pharmacokinetic interaction precludes use of this combination, the pharmacokinetics of some ACE inhibitors are subject to greater variability when patients also receive beta-blockers. Calcium antagonists and ACE inhibitors have additive anti-hypertensive effects and pharmacokinetic interactions between these agents are unlikely. One report exists of a significant effect of coadministered hydralazine on the pharmacokinetics and urinary excretion of lisinopril. Data on interactions between ACE inhibitors and digitalis are contradictory. There is no evidence that the concomitant use of ACE inhibitors and digoxin is associated with an increased risk of digitalis toxicity. ACE inhibitors are mainly excreted by glomerular filtration and renal tubular secretion. Possible interactions between ACE inhibitors and probenecid have been noted, with renal and total body clearance of ACE inhibitors being potentially reduced in the presence of probenecid. Probenecid pretreatment may enhance the pharmacodynamic response of ACE inhibitors. Few but contradictory data exist on the effects of H2-blockers on ACE inhibitor pharmacokinetics and little information is available on interactions between ACE inhibitors and hypoglycaemic drugs. Some case reports link ACE inhibitors with the induction of lithium toxicity. Coadministration of lithium should be undertaken with caution, and frequent monitoring of lithium concentrations is recommended with all ACE inhibitors. Nonsteroidal anti-inflammatory drugs (NSAIDs) may attenuate the haemodynamic actions of ACE inhibitors. NSAIDs reduce renal excretion of ACE inhibitors, with a corresponding increase in circulating drug concentrations. There is little information available on the pharmacokinetic interaction with ACE inhibitors and cyclosporin, but caution should be employed when they are used together.(ABSTRACT TRUNCATED AT 400 WORDS)
血管紧张素转换酶(ACE)抑制剂的活性部分主要经尿液排泄,对于中重度肾功能不全或重度充血性心力衰竭患者,需要调整剂量或给药间隔。而像替莫卡普利(CS 622)和福辛普利这类经尿液和胆汁排泄的药物,可能无需进行此类调整。轻度肾功能不全或充血性心力衰竭的老年患者,ACE抑制剂的肾清除率可能降低,可能会出现一些蓄积。ACE抑制剂的生物利用度会因同时摄入食物或抗酸剂而降低,因为这可能会减慢胃排空并提高胃内pH值。接受噻嗪类或襻利尿剂的患者与ACE抑制剂之间不太可能发生药代动力学相互作用。使用ACE抑制剂时,肾功能不全患者、服用钾补充剂或保钾利尿剂的患者以及轻度肾功能损害的糖尿病患者可能会发生高钾血症。虽然没有药代动力学相互作用会妨碍使用这种联合用药,但当患者同时接受β受体阻滞剂时,一些ACE抑制剂的药代动力学变异性会更大。钙拮抗剂和ACE抑制剂具有相加的降压作用,且这些药物之间不太可能发生药代动力学相互作用。有一份报告指出,联用肼屈嗪对赖诺普利的药代动力学和尿排泄有显著影响。关于ACE抑制剂与洋地黄之间相互作用的数据相互矛盾。没有证据表明ACE抑制剂与地高辛联用会增加洋地黄中毒的风险。ACE抑制剂主要通过肾小球滤过和肾小管分泌排泄。已注意到ACE抑制剂与丙磺舒之间可能存在相互作用,丙磺舒存在时,ACE抑制剂的肾清除率和全身清除率可能会降低。丙磺舒预处理可能会增强ACE抑制剂的药效学反应。关于H2受体阻滞剂对ACE抑制剂药代动力学影响的数据很少且相互矛盾,关于ACE抑制剂与降糖药之间相互作用的信息也很少。一些病例报告将ACE抑制剂与锂中毒的诱发联系起来。联用锂时应谨慎,并建议对所有ACE抑制剂都要频繁监测锂浓度。非甾体抗炎药(NSAIDs)可能会减弱ACE抑制剂的血流动力学作用。NSAIDs会减少ACE抑制剂的肾排泄,相应地会使循环药物浓度升高。关于ACE抑制剂与环孢素之间药代动力学相互作用的信息很少,但两者联用时应谨慎。(摘要截选至400字)
