Aymard J P, Aymard B, Netter P, Bannwarth B, Trechot P, Streiff F
Department of Pathology, University Hospital, Nancy, France.
Med Toxicol Adverse Drug Exp. 1988 Nov-Dec;3(6):430-48. doi: 10.1007/BF03259895.
Histamine H2-receptor antagonists are widely used in the treatment of gastrointestinal diseases related to gastric acid hypersecretion. Cimetidine was introduced into medical practice in 1976 and ranitidine, famotidine and nizatidine in 1981, 1985 and 1987, respectively. Haematological adverse effects are relatively uncommon and most have been reported in cases of cimetidine administration. These adverse effects are reviewed under 4 main headings: (a) blood cytopenias and leucocytosis; (b) coagulation disorders related to drug interactions with oral anticoagulants; (c) reduction of dietary iron absorption; and (d) reduction of dietary cobalamin absorption. 85 reported cases of blood cytopenias attributed to these drugs are reviewed, of which 75 (88%) were associated with cimetidine therapy. In postmarketing surveillance studies, the incidence of cimetidine-associated blood cytopenia has been evaluated at about 2.3 per 100,000 patients. Neutropenia and agranulocytosis are by far the most frequently encountered. Whatever the drug or the type of cytopenia, this adverse effect is almost always rapidly reversible when treatment is stopped. Moreover, in several cases other factors such as underlying diseases or additional drugs could have been responsible, at least partly, for the cytopenia. The pathophysiological basis of these adverse effects remains poorly explained. Various mechanisms have been proposed, which in some cases are probably associated: (a) direct toxicity for haemopoietic stem cells; (b) drug-induced immune reactions leading to blood or bone marrow cell damage, and (c) drug interactions, with increased and prolonged action of potentially haematotoxic drugs. Mechanisms (a) and (c) appear to be of particular clinical importance in cases of impaired renal elimination of H2-receptor antagonists. Cimetidine and probably to a lesser extent ranitidine potentiate the action of oral anticoagulants of both coumarin and indanedione structure. This may result in haemorrhagic complications. Such action is a consequence of the reduced hepatic metabolism of oral anticoagulants through a dose-dependent, reversible inhibition of cytochrome P450. Malabsorption of dietary iron and cobalamin appears to result from inhibition of gastric secretion by the H2-receptor antagonists. This is of no clinical importance in short term treatment, but long term use of H2-receptor antagonists may theoretically contribute to the occurrence of iron or cobalamin deficiency anaemia.
组胺H2受体拮抗剂广泛用于治疗与胃酸分泌过多相关的胃肠道疾病。西咪替丁于1976年应用于医学实践,雷尼替丁、法莫替丁和尼扎替丁分别于1981年、1985年和1987年应用于医学实践。血液学不良反应相对不常见,大多数报道发生在使用西咪替丁的病例中。这些不良反应在以下4个主要标题下进行综述:(a)血细胞减少症和白细胞增多症;(b)与药物和口服抗凝剂相互作用相关的凝血障碍;(c)膳食铁吸收减少;(d)膳食钴胺素吸收减少。本文综述了85例归因于这些药物的血细胞减少症报告病例,其中75例(88%)与西咪替丁治疗有关。在上市后监测研究中,西咪替丁相关血细胞减少症的发生率估计约为每100,000例患者中有2.3例。中性粒细胞减少症和粒细胞缺乏症是迄今为止最常遇到的。无论使用何种药物或血细胞减少症的类型,当停止治疗时,这种不良反应几乎总是迅速可逆的。此外,在一些病例中,其他因素如基础疾病或其他药物可能至少部分导致了血细胞减少症。这些不良反应的病理生理基础仍未得到很好的解释。已经提出了各种机制,在某些情况下可能是相关的:(a)对造血干细胞的直接毒性;(b)药物诱导的免疫反应导致血液或骨髓细胞损伤,以及(c)药物相互作用,导致潜在血液毒性药物的作用增强和延长。在H2受体拮抗剂肾清除受损的情况下,机制(a)和(c)似乎具有特别的临床重要性。西咪替丁以及雷尼替丁在较小程度上可增强香豆素和茚满二酮结构的口服抗凝剂的作用。这可能导致出血并发症。这种作用是口服抗凝剂肝代谢减少的结果,通过对细胞色素P450的剂量依赖性、可逆性抑制。膳食铁和钴胺素的吸收不良似乎是由于H2受体拮抗剂抑制胃酸分泌所致。在短期治疗中,这没有临床重要性,但从理论上讲,长期使用H2受体拮抗剂可能会导致缺铁性或钴胺素缺乏性贫血的发生。
