Momi S, Nasimi M, Colucci M, Nenci G G, Gresele P
Department of Internal Medicine, Section of Internal and Cardiovascular Medicine, University of Perugia, Italy.
Haematologica. 2001 Mar;86(3):297-302.
Thrombin-induced thromboembolism in mice is a model in which the feed-back clotting activation produced by the injected enzyme greatly contributes to fibrin accumulation in lungs and to mortality. Using this model we have previously shown that activated human protein C (aPC), by interrupting endogenous clotting activation at a high level (factors Va and VIIIa), prevents mortality inducing only a minor hemostatic impairment. With the same model we have now compared the antithrombotic and prohemorrhagic effects of two low molecular weight heparins (LMWHs), reviparin and tinzaparin, which are expected to inhibit preferentially the positive feed-back triggered by thrombin (anti Xa activity), with those of unfractionated heparin (UFH) and PEG-hirudin, which inhibit mainly or exclusively thrombin activity (anti IIa activity).
Pulmonary thromboembolism was induced in mice by i.v. injection of bovine thrombin (1,000U/kg). Drugs (from 0.12 to 1.2 mg/kg) were given as bolus injection 2 min prior to thrombin challenge and mortality was assessed within 15 min. The bleeding time was assessed by a tail tip transection model. Activated partial thromboplastin time (aPTT), thrombin clotting time (TcT), fibrinogen assay and anti Xa activity determination were performed in citrated plasma from saline- or drug-treated animals.
All drugs protected mice from thrombin-induced mortality in a dose-dependent way. At comparable antithrombotic dosages, the anti IIa activity generated in plasma (assessed by TcT) was highest with UFH, intermediate with tinzaparin and very low with reviparin. Accordingly, the fibrinogen drop, which is caused mainly by the injected thrombin, was prevented by the heparins to an extent that was fairly well related to their anti IIa activity. aPTT and bleeding time, used as measures of hemorrhagic risk, were markedly more prolonged by UFH than by reviparin. Tinzaparin, instead, had an intermediate effect. Interestingly, PEG-hirudin, at equipotent antithrombotic dosages, caused a prolongation of bleeding time comparable to that observed with UFH.
Our data show that, in our model, drugs acting at a high level of the blood clotting cascade, like LMWHs with a high anti Xa/anti IIa ratio, display a better antithrombotic/prohemorrhagic profile than drugs acting prevalently on thrombin.
小鼠凝血酶诱导的血栓栓塞是一种模型,其中注射的酶所产生的反馈性凝血激活对肺中纤维蛋白积累和死亡率有很大影响。我们之前利用该模型表明,活化的人蛋白C(aPC)通过在高水平(因子Va和VIIIa)中断内源性凝血激活,仅引起轻微的止血功能损害即可预防死亡。现在我们使用相同的模型比较了两种低分子量肝素(LMWH)瑞伐肝素和替扎肝素与普通肝素(UFH)和聚乙二醇水蛭素的抗血栓形成和促出血作用,预计前者优先抑制凝血酶触发的正反馈(抗Xa活性),而后者主要或仅抑制凝血酶活性(抗IIa活性)。
通过静脉注射牛凝血酶(1000U/kg)诱导小鼠肺血栓栓塞。在凝血酶攻击前2分钟给予药物(0.12至1.2mg/kg)进行静脉推注,并在15分钟内评估死亡率。通过尾尖横断模型评估出血时间。在来自盐水或药物处理动物的枸橼酸盐血浆中进行活化部分凝血活酶时间(aPTT)、凝血酶凝血时间(TcT)、纤维蛋白原测定和抗Xa活性测定。
所有药物均以剂量依赖性方式保护小鼠免受凝血酶诱导的死亡。在相当的抗血栓形成剂量下,血浆中产生的抗IIa活性(通过TcT评估)以UFH最高,替扎肝素居中,瑞伐肝素非常低。因此,主要由注射的凝血酶引起的纤维蛋白原下降被肝素在一定程度上预防,这与其抗IIa活性相当相关。用作出血风险指标的aPTT和出血时间,UFH比瑞伐肝素延长得更明显。相反,替扎肝素具有中间作用。有趣地是,在等效抗血栓形成剂量下,聚乙二醇水蛭素引起的出血时间延长与UFH观察到的相当。
我们的数据表明,在我们的模型中,作用于血液凝固级联高水平的药物,如具有高抗Xa/抗IIa比值的LMWH,比主要作用于凝血酶的药物表现出更好的抗血栓形成/促出血特征。
