Comparative antithrombotic effects of heparin, recombinant hirudin and argatroban in a hamster femoral vein platelet-rich mural thrombosis model.

The antithrombotic properties of bolus i.v. injections of heparin, of recombinant hirudin (r-hirudin) or of the synthetic competitive thrombin inhibitor Argatroban were investigated in a quantitative hamster femoral vein platelet-rich mural thrombosis model. Heparin at a dose of 100 U/kg prolonged the activated partial thromboplastin time from 26 +/- 15 to 177 +/- 45 sec (P = .001), but did not significantly inhibit platelet-rich thrombus formation (7 +/- 44% inhibition, P = NS vs. placebo). However, 400 U/kg of heparin produced total inhibition of thrombus formation (101 +/- 14+, P less than .06 vs. control). R-hirudin and argatroban inhibited thrombus formation in a dose-dependent manner: 50% inhibition was obtained with 1.4 mg/kg for r-hirudin and with 2.0 mg/kg for Argatroban. A linear correlation was observed between the percentage of inhibition of thrombus formation vs. Activated partial thromboplastin time (r = 0.57, P = .003 for r-hirudin and r = 0.66, P = .002 for Argatroban). These results suggest that thrombin plays a pivotal role in platelet-rich mural thrombus formation, that this small animal model may be useful for investigation of the pharmacodynamics of synthetic thrombin inhibitors and that platelet-rich thrombus formation is inhibited effectively by heparin, r-hirudin and Argatroban. However, r-hirudin and Argatroban cause less profound changes in the coagulant function at doses that inhibit platelet-rich thrombus formation than heparin.     

Prevention of catheter thrombosis increases survival, but does not modify lung injury in rats receiving long-term parenteral nutrition

It has previously been shown that rats receiving total parenteral nutrition (TPN) or each component of TPN die within 40 days of treatment. Central catheter thrombosis and lung injury were constant findings. The aim of the present study was to examine the impact of central thrombosis on lung injury and survival in rats receiving long-term parenteral nutrition. In the first part of the study TPN was infused via the jugular vein and incidence of central venous thrombosis and rate of survival were recorded. Addition of low molecular weight heparin (LMWH) reduced central thrombosis from 6 out of 7 animals to 2 out of 7 animals (p=0.027) and increased survival from 17.1+/-4.5 days to 32.4+/-4.9 days (p=0.04). In the second part of the study four infusion groups were established. Group 1 (controls) received saline 100 mL/kg/day via the jugular vein (n=6). Group 2 received Intralipid 40 mL/kg/day via the jugular vein (n = 7). Group 3 received Intralipid 40 mL/kg/day via the portal vein (n = 7). Group 4 received Intralipid 40 mL/kg/day with added LMWH 70 U/kg/day (n = 7). Lung injury and occurrence of central thrombosis were investigated. Lung injury was assessed by measuring pulmonary arterial pressure (Ppa), clearance of serotonin by the vascular endothelium and the capillary filtration coefficient (CFC). Either infusion via the portal vein or the addition of LMWH to the infusion via the jugular vein prevented central thrombus formation, but the lung injury was not modified by this method compared with infusing Intralipid via the jugular vein without LMWH. In conclusion, central thrombus formation contributes to death in rats receiving parenteral nutrition. The mechanism of the injurious effect of central thrombosis remains unknown, but central thrombus formation seems not to increase lung injury caused by Intralipid.     

Active site-blocked factor IXa prevents intravascular thrombus formation in the coronary vasculature without inhibiting extravascular coagulation in a canine thrombosis model.

To assess the contribution of Factor IX/IXa, to intravascular thrombosis, a canine coronary thrombosis model was studied. Thrombus formation was initiated by applying current to a needle in the circumflex coronary artery. When 50% occlusion of the vessel developed, the current was stopped and animals received an intravenous bolus of either saline, bovine glutamyl-glycyl-arginyl-Factor IXa (IXai), a competitive inhibitor of Factor IXa assembly into the intrinsic Factor X activation complex, bovine Factor IX, or heparin. Animals receiving saline or Factor IX developed coronary occlusion due to a fibrin/platelet thrombus in 70 +/- 11 min. In contrast, infusion of IXai prevented thrombus formation completely (greater than 180 min) at doses of 460 and 300 micrograms/kg, and partially blocked thrombus formation at 150 micrograms/kg. IXai attenuated the accumulation of 125I-fibrinogen/fibrin at the site of the thrombus by approximately 67% (P less than 0.001) and resulted in approximately 26% decrease in serotonin release from platelets in coronary sinus (P less than 0.05). Hemostatic variables in animals receiving IXai, remained within normal limits. Animals given heparin in a concentration sufficient to prevent occlusive thrombosis had markedly increased bleeding, whereas heparin levels that maintained extravascular hemostasis did not prevent intracoronary thrombosis. This suggests that Factor IX/IXa can contribute to thrombus formation, and that inhibition of IXa participation in the clotting mechanism blocks intravascular thrombosis without impairing extravascular hemostasis.     

Prevention of catheter thrombosis increases survival,but does not modify lung injury in rats receiving long-term parenteral nutrition

It has previously been shown that rats receiving total parenteral nutrition (TPN) or each component of TPN die within 40 days of treatment. Central catheter thrombosis and lung injury were constant findings. The aim of the present study was to examine the impact of central thrombosis on lung injury and survival in rats receiving long-term parenteral nutrition. In the first part of the study TPN was infused via the jugular vein and incidence of central venous thrombosis and rate of survival were recorded. Addition of low molecular weight heparin (LMWH) reduced central thrombosis from 6 out of 7 animals to 2 out of 7 animals (p=0.027) and increased survival from 17.1±4.5 days to 32.4±4.9 days (p=0.04). In the second part of the study four infusion groups were established. Group 1 (controls) received saline 100?mL/kg/day via the jugular vein (n=6). Group 2 received Intralipid&;lt;formula&;gt;^®&;lt;/formula&;gt; 40?mL/kg/day via the jugular vein (n=7). Group 3 received Intralipid 40?mL/kg/day via the portal vein (n=7). Group 4 received Intralipid 40?mL/kg/day with added LMWH 70?U/kg/day (n=7). Lung injury and occurrence of central thrombosis were investigated. Lung injury was assessed by measuring pulmonary arterial pressure (Ppa), clearance of serotonin by the vascular endothelium and the capillary filtration coefficient (CFC). Either infusion via the portal vein or the addition of LMWH to the infusion via the jugular vein prevented central thrombus formation, but the lung injury was not modified by this method compared with infusing Intralipid via the jugular vein without LMWH. In conclusion, central thrombus formation contributes to death in rats receiving parenteral nutrition. The mechanism of the injurious effect of central thrombosis remains unknown, but central thrombus formation seems not to increase lung injury caused by Intralipid.     

Repeated doses of oral and subcutaneous heparins have similar antithrombotic effects in a rat carotid arterial model of thrombosis

Although heparins are usually injected intravenously or subcutaneously, antithrombotic activity is observed in rat models following single oral heparin doses. Since repetitive dosing is usually needed for thromboprophylaxis, study objectives were to determine whether repetitive oral heparin prevented arterial thrombosis and to compare effectiveness to subcutaneous administration. Wistar rats were given subcutaneous or oral unfractionated heparin ([UFH] 1 mg/kg per 48 h), low-molecular-weight heparin ([LMWH] tinzaparin, 0.1 mg/kg per 12 h), or saline for 30 days. On the last day, thrombosis was initiated by placing 30% FeCl(3)-soaked filter paper on the distal carotid. Subsequent flow measurements, for a 60-minute period, included recorded time of initial thrombus formation (time till thrombus begins [TTB]), and time until carotid occlusion (time till occlusion [TTO]). The formed thrombus was dried and weighed. The activated partial thromboplastin time (aPTT), anti-factor Xa, and antithrombin activity were determined from the plasma. Both oral and subcutaneous heparins significantly increased TTB and TTO. Time of initial thrombus formations were 12.6 ± 1.1, 21.2 ± 2.2, 25.3 ± 3.9, 21.7 ± 3.1, and 21.3 ± 1.7 minutes and TTOs were 29.3 ± 3.6, 54.8 ± 4.0, 60.0 ± 0.3, 56.7 ± 3.3, and 58.3 ± 1.7 minutes (mean ± SEM) for control, subcutaneous UFH, oral UFH, subcutaneous LMWH, and oral LMWH, respectively. Thrombus weight was 2.52 ± 0.29 g in control and was reduced to 43%, 23%, 33%, and 28% of control weight for subcutaneous UFH, oral UFH, subcutaneous LMWH, and oral LMWH, respectively. Thrombus weight was significantly less for oral compared to subcutaneous UFH. The aPTT for oral UFH, and anti-factor Xa activity in the LMWH-treated groups were significantly greater than control (two-tailed t tests). These findings confirm that orally administered heparins are absorbed. Repeated treatment with oral heparin showed similar antithrombotic activity compared to subcutaneous heparin. Oral heparin use for arterial thromboprophylaxis should be further investigated.     

In vitro and in vivo studies of the novel antithrombotic agent BAY 59-7939--an oral, direct Factor Xa inhibitor.

BAY 59-7939 is an oral, direct Factor Xa (FXa) inhibitor in development for the prevention and treatment of arterial and venous thrombosis. BAY 59-7939 competitively inhibits human FXa (K(i) 0.4 nm) with > 10 000-fold greater selectivity than for other serine proteases; it also inhibited prothrombinase activity (IC(50) 2.1 nm). BAY 59-7939 inhibited endogenous FXa more potently in human and rabbit plasma (IC(50) 21 nm) than rat plasma (IC(50) 290 nm). It demonstrated anticoagulant effects in human plasma, doubling prothrombin time (PT) and activated partial thromboplastin time at 0.23 and 0.69 microm, respectively. In vivo, BAY 59-7939 reduced venous thrombosis (fibrin-rich, platelet-poor thrombi) dose dependently (ED(50) 0.1 mg kg(-1) i.v.) in a rat venous stasis model. BAY 59-7939 reduced arterial (fibrin- and platelet-rich) thrombus formation in an arteriovenous (AV) shunt in rats (ED(50) 5.0 mg kg(-1) p.o.) and rabbits (ED(50) 0.6 mg kg(-1) p.o.). Slight inhibition of FXa (32% at ED(50)) reduced thrombus formation in the venous model; to affect arterial thrombosis in the rat and rabbit, stronger inhibition of FXa (74%, 92% at ED(50)) was required. Calculated plasma levels in rabbits at the ED(50) were 14-fold lower than in the rat AV shunt model, correlating with the 14-fold lower IC(50) of FXa inhibition in rabbit compared with rat plasma; this may suggest a correlation between FXa inhibition and antithrombotic activity. Bleeding times in rats and rabbits were not significantly affected at antithrombotic doses (3 mg kg(-1) p.o., AV shunt). Based on these results, BAY 59-7939 was selected for clinical development.     

Effect of thromboxane receptor antagonists on venous thrombosis in rats

The activities of two structurally unrelated thromboxane/prostaglandin endoperoxide receptor antagonists, SQ 30,741 and BM 13,505, were compared to heparin in a model of venous thrombosis. A combination of blood stasis with osmotic and pressure stress was used to induce thrombus formation in the vena cava of anesthetized rats. Intravenous infusions of SQ 30,741 (500 micrograms/kg/min) and BM 13,505 (50 micrograms/kg/min) produced significant (P less than .01) and equivalent reductions in thrombus mass of 58 and 56%, respectively. Thrombus reduction in response to heparin (50 U/kg) was greater (95%; P less than .001) than in response to the thromboxane antagonists. Either lower doses of SQ 30,741 (50 and 100 micrograms/kg/min) or aspirin (30 and 60 mg/kg) were ineffective in altering thrombus formation. However, a subthreshold dose of SQ 30,741 (100 micrograms/kg/min) increased (P less than .01) the antithrombotic activity obtained with both threshold (0.5 U/kg) and subthreshold (0.3 U/kg) doses of heparin. SQ 30,741 (500 micrograms/kg/min) did not change activated partial thromboplastin times or inhibit platelet loss induced by contact activation in response to kaolin in vivo. This suggests that SQ 30,741 does not interfere with components of the coagulation cascade that are not dependent on platelet factors. The extent of thromboxane antagonism achieved with SQ 30,741 (50 and 500 micrograms/kg/min) and BM 13,505 (50 micrograms/kg/min) was determined from parallel shifts in dose-dependent U-46,619-induced vasoconstriction in vivo (approximately 200- and 1300-fold, respectively, for SQ 30,741 and 200-fold for BM 13,505). These data demonstrate that thromboxane antagonists inhibit venous thrombosis partially, but only at doses producing near complete receptor inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of arterial thrombogenesis by quinapril but not losartan

The cardioprotective effect of angiotensin converting enzyme (ACE) inhibitors and angiotensin type I (AT1) receptor blockers may relate to their antithrombotic effect. We determined the differential effects of the ACE inhibitor quinapril and the AT1 receptor blocker losartan on arterial thrombus formation in the rat. Sprague-Dawley rats were fed regular chow or chow mixed with low-dose quinapril (0. 6 mg/kg/day), high-dose quinapril (1.2 mg/kg/day), or losartan (10 mg/kg/day) for 15 days. Abdominal aorta was exposed and wrapped with Whatman paper impregnated with 29% FeCl(3) (ferric chloride). Time to occlusive thrombus formation and weight of the thrombus were recorded. Aortic superoxide anion generation, platelet aggregation, plasma angiotensin II levels, and morphology of the thrombus were also examined. Both losartan and quinapril caused similar reductions in arterial pressure. Losartan did not affect the time to thrombus formation, whereas quinapril (both low and high doses) delayed the time to thrombus formation (P<.01 vs control). Weight of the thrombus was similar in all groups of rats. Platelet aggregation was inhibited by approximately 50 in both quinapril- and losartan-treated rats. The high-dose quinapril-treated rats showed markedly reduced vascular superoxide anion generation compared with the control rats (P<.05). Plasma angiotensin II levels were unaffected by quinapril treatment but were elevated 7-fold in losartan-treated rats (P <.001 vs. control rats). The thrombi in the control rats consisted of platelet aggregates, fibrin, and red blood cells. The intravascular platelet aggregates were much smaller in the quinapril-treated rats (P<.05 vs. control), but were similar in control and losartan-treated rats. In conclusion, quinapril but not losartan prolongs time to arterial thrombus formation and results in smaller platelet aggregates in the thrombus. Both quinapril and losartan decrease platelet aggregation, but only quinapril decreases superoxide anion generation. This effect on superoxide anion generation as well as mechanisms other than AT1 receptor blockade may underlie the salutary effect of quinapril on arterial thrombogenesis.     

Bivalirudin: an anticoagulant option for percutaneous coronary intervention

Coronary artery thrombosis is usually triggered by platelet-rich thrombus superimposed on a spontaneously or mechanically disrupted atherosclerotic plaque. Thrombin and platelets both play a role in this process. Unfractionated heparin and aspirin have served as cornerstones in the prevention and treatment of intracoronary thrombus, but unfractionated heparin has several limitations that necessitate the use of adjunctive therapies, such as glycoprotein IIb/IIIa receptor inhibitors and clopidogrel, in order to reduce the risk of ischemic events. These combination therapies, however, typically increase the risk for bleeding complications, as well as the cost and complexity of treatment. Bivalirudin (Angiomax, The Medicines Company), a thrombin-specific anticoagulant, does not share heparin's limitations. Bivalirudin appears to provide clinical advantages over unfractionated heparin therapy in acute coronary syndrome patients and those undergoing percutaneous coronary intervention, without increasing cost or complexity of treatment for most patients.     

Effects of SanOrg123781A, a synthetic hexadecasaccharide, in a mouse model of electrically induced carotid artery injury: synergism with the antiplatelet agent clopidogrel

SanOrg123781A is a synthetic hexadecasaccharide that displays antithrombin-dependent inhibition of factor Xa and thrombin and potent antithrombotic effects. The antithrombotic activity of SanOrg123781A has been studied in a new mouse model of arterial thrombosis, where thrombus formation was induced by the application of an electrical current to the adventitial surface of a carotid artery. In this model, antiplatelet agents such as the ADP-receptor antagonist clopidogrel (30 mg/kg, p.o. 2 h before stimulation) and the GpIIb/IIIa antagonist SR121566A [3-(N-[4-(4-[amino(imino)methyl]phenyl)-1,3-thiazol-2-yl]-N-[1-(carboxymethyl)piperidin-4-yl]amino)propionic acid, trihydrochloride] (0.3 mg/kg, i.v. 5 min before stimulation) strongly prolonged the time to occlusion (TTO) (761 and 473% increases, respectively), whereas aspirin was devoid of antithrombotic activity. Standard heparin (2 mg/kg, i.v.), the low molecular weight heparin enoxaparin (20 mg/kg, i.v.), and the synthetic, antithrombin-dependent inhibitor of factor Xa fondaparinux (10 mg/kg, i.v.) were also active in this model (742, 707, and 602% TTO increases, respectively). Interestingly, SanOrg123781A was active at much lower doses than the other oligosaccharides (554% increase in TTO at 0.3 mg/kg, i.v. 5 min before stimulation). Low doses of SanOrg123781A administered in combination with low doses of clopidogrel led to a marked increase in TTO, which was statistically more important than the additive effects of the two compounds given alone. These results indicate that SanOrg123781A exerts a potent antithrombotic activity in a mouse model of arterial thrombosis when compared with reference compounds and show that the combination of SanOrg123781A with clopidogrel leads to a marked synergistic antithrombotic effect.     

Bivalirudin: an anticoagulant option for percutaneous coronary intervention

Coronary artery thrombosis is usually triggered by platelet-rich thrombus superimposed on a spontaneously or mechanically disrupted atherosclerotic plaque. Thrombin and platelets both play a role in this process. Unfractionated heparin and aspirin have served as cornerstones in the prevention and treatment of intracoronary thrombus, but unfractionated heparin has several limitations that necessitate the use of adjunctive therapies, such as glycoprotein IIb/IIIa receptor inhibitors and clopidogrel, in order to reduce the risk of ischemic events. These combination therapies, however, typically increase the risk for bleeding complications, as well as the cost and complexity of treatment. Bivalirudin (Angiomax^®, The Medicines Company), a thrombin-specific anticoagulant, does not share heparin’s limitations. Bivalirudin appears to provide clinical advantages over unfractionated heparin therapy in acute coronary syndrome patients and those undergoing percutaneous coronary intervention, without increasing cost or complexity of treatment for most patients.     

Human activated protein C variants in a rat model of arterial thrombosis

Background

Activated protein C (APC) inhibits coagulation by degrading activated factor V (FVa) and factor VIII (FVIIIa), protein S (PS) functioning as a cofactor to APC.

Methods

By mutagenesis of the vitamin K-dependent Gla domain of APC, we have recently created an APC variant having enhanced anticoagulant activity due to increased affinity for negatively charged phospholipid membranes. In the present study, the potential antithrombotic effects of this APC variant, and of a variant APC that is additionally mutated in the serine protease domain, have been evaluated in a blind randomized study in a rat model of arterial thrombosis. In this model, we have previously found the combination of bovine APC and PS to be highly antithrombotic. Four treatment groups each containing 10 rats were, in a blind random fashion, given intravenous bolus injections of wild-type or mutant variants of APC (0.8 mg/kg) together with human PS (0.6 mg/kg) or human PS (0.6 mg/kg) alone. A control group with 20 animals where given vehicle only.

Results

A trend to increased patency rates was noted in a group receiving one of the APC variants, but it did not reach statistical significance.

Conclusion

In conclusion, administration of human APC variants having enhanced anticoagulant efficacy together with human PS in a rat model of arterial thrombosis did not give an efficient antithrombotic effect. The lack of effect may be due to species-specific differences between the human protein C system and the rat hemostatic system.     

Local Delivery of an Ultra-short-acting Nitric Oxide-releasing Compound, DMHD/NO, Is Highly Effective in Inhibiting Acute Platelet-Thrombus Formation on Injured Arterial Strips

BACKGROUND: Nitric oxide (NO) plays an important role in modulating platelet-vessel wall interaction following vascular injury. We exampled the effects of local infusion of an ultra-short-acting NO-releasing compound: NO adduct of N, N'-dimethylhexanediamine (DMHD/NO), sodium nitroprusside, intravenous nitroglycerin, and aspirin on acute platelet-thrombus formation under conditions of high-shear blood flow in a rabbit extracorporeal perfusion model. MATERIALS AND METHODS: Strips of porcine aortic media were perfused in a Badimon chamber with arterial blood from 20 New Zealand White rabbits for 10 minutes at a shear rate of 1700 s(-1). Thrombus formation was quantified by morphometric analysis of thrombus area. Effects on collagen-induced platelet aggregation, blood pressure, bleeding time, and activated clotting time were also examined. RESULTS: DMHD/NO inhibited thrombus area and platelet aggregation in a dose-dependent manner with a 90% reduction in thrombus area (0.018 +/- 0.039 vs 0.215 +/- 0.085 mm(2)/mm control, P <.001) and a 50% reduction in platelet aggregation (4.8 +/- 4.4 vs 9.9 +/- 4.1 Omicron control, P =.04) at the highest dose of 1.0 nM/kg and 100 μM/L, respectively, without any effects on blood pressure, bleeding time, or activated clotting time. In contrast, equimolar concentrations of sodium nitroprusside and intravenous nitroglycerin had significantly reduced effects on thrombus area compared to DMHD/NO and were associated with significant reductions in blood pressure and prolongation of bleeding time. Aspirin had no effect on thrombus area at 1 μM/kg but reduced thrombus area and prolonged bleeding time at 2 and 5 μM/kg. CONCLUSIONS: Local delivery of DMHD/NO produced a 90% inhibition of experimental acute platelet-thrombosis under high-shear flow conditions without producing adverse systemic hemodynamic or hemostatic effects. Thus, inhibition of thrombus formation by local delivery of a rapidly acting NO donor may be an effective strategy for prevention of arterial injury-induced thrombosis.     

Effects of factor IX or factor XI deficiency on ferric chloride-induced carotid artery occlusion in mice.

Factor XI (FXI) and factor IX (FIX) are zymogens of plasma serine proteases required for normal hemostasis. The purpose of this work was to evaluate FXI and FIX as potential therapeutic targets by means of a refined ferric chloride (FeCl(3))-induced arterial injury model in factor-deficient mice. Various concentrations of FeCl(3) were used to establish the arterial thrombosis model in C57BL/6 mice. Carotid artery blood flow was completely blocked within 10 min in C57BL/6 mice by application of 3.5% FeCl(3). In contrast, FXI- and FIX-deficient mice were fully protected from occlusion induced by 5% FeCl(3), and were partially protected against the effect of 7.5% FeCl(3). The protective effect was comparable to very high doses of heparin (1000 units kg(-1)) and substantially more effective than aspirin. While FXI and FIX deficiencies were indistinguishable in the carotid artery injury model, there was a marked difference in a tail-bleeding-time assay. FXI-deficient and wild-type mice have similar bleeding times, while FIX deficiency was associated with severely prolonged bleeding times (>5.8-fold increase, P < 0.01). Given the relatively mild bleeding diathesis associated with FXI deficiency, therapeutic inhibition of FXI may be a reasonable strategy for treating or preventing thrombus formation.     

人胎盘抗凝蛋白变体抗凝与抗血栓形成的效应与作用时间及剂量的关系

背景肝素作为最常用的抗凝药物已广泛用于临床,但其存在明显的出血副作用,与纤维蛋白结合的凝血酶活性作用有限,并发血小板减少症等不良反应.将水蛭素C端结构域与人胎盘抗凝蛋白连接在一起构建抗凝蛋白人胎盘抗凝蛋白变体,比较其抗凝抗栓作用与肝素的差异. 目的观察抗凝蛋白质人胎盘抗凝蛋白变体抗凝和抑制动脉血栓形成的作用的量效与时效关系,并了解该药的安全性. 设计完全随机分组设计,对照实验. 单位一所市级医院心脏科. 材料实验于2000-07/2001-04在江苏省人民医院动物实验室完成.选用纯种雄性新西兰白兔32只,随机将白兔分成4组人胎盘抗凝蛋白变体大剂量组、人胎盘抗凝蛋白变体小剂量组、普通肝素组和生理盐水组,每组8只.方法肝素和人胎盘抗凝蛋白变体都用生理盐水稀释.①人胎盘抗凝蛋白变体大剂量组人胎盘抗凝蛋白变体0.7 mg/kg静脉推注,继以0.35 mg/(kg·h)维持静脉滴注2 h;人胎盘抗凝蛋白变体小剂量组人胎盘抗凝蛋白变体0.3 mg/kg静脉推注,继以0.15 mg/(kg·h)维持静脉滴注2 h;普通肝素组肝素75 IU/kg静脉推注后,以37.5 IU/(kg·h)维持静脉滴注2 h;生理盐水组采用与药物组相同体积的生理盐水和给药方法.②分别在用药前,用药后15和30及60min及停药后2 h从股静脉采血测血常规、活化部分凝血活酶时间、凝血酶时间.③用药后15 min用球囊剥脱股动脉内皮并监测股动脉远端的血压,记录脉压为0即血栓完全闭塞血管的时间.最后剪取球囊损伤的股动脉,剥离血管测量所形成血栓的长度、血栓的湿质量和干质量.④人胎盘抗凝蛋白变体毒副作用观察实验过程中监测动物的血压、心率、呼吸等生命体征,并将部分动物实验后,行腹部解剖,观察内脏出血的情况,检测血白细胞数目. 主要观察指标①人胎盘抗凝蛋白变体对凝血系统和血栓形成的影响.②人胎盘抗凝蛋白变体毒副作用. 结果白兔32只均进入结果分析.①抗凝效应活化部分凝血活酶时间值人胎盘抗凝蛋白变体大小剂量组在用药后15 min时最长[(136.86±39.46),(122.90±4.19)s],明显长于生理盐水组,短于普通肝素组[(95.14±24.64),(180.00±0.00)s,P＜0.05,0.01].用药后30 min,人胎盘抗凝蛋白变体大剂量组仍保持其抗凝疗效,明显长于生理盐水组[(124.61±40.19),(85.57±27.67)s],人胎盘抗凝蛋白变体小剂量组明显短于普通肝素组[(112.94±43.17),(179.39±1.83)s,P＜0.05].用药后60 min,人胎盘抗凝蛋白变体大小剂量组明显短于普通肝素组(P＜0.05).停药后2 h虽长于生理盐水组,但差异不明显(P＞0.05).凝血酶时间用药后15和30及60 min普通肝素组明显长于人胎盘抗凝蛋白变体大小剂量组(P＜0.05).②对动脉血栓形成的影响血栓湿重人胎盘抗凝蛋白变体组明显小于普通肝素组(P＜0.05).血栓干质量人胎盘抗凝蛋白变体大小剂量组明显小于普通肝素组,人胎盘抗凝蛋白变体大剂量组明显小于人胎盘抗凝蛋白变体小剂量组(P＜0.05).血栓长度人胎盘抗凝蛋白变体小剂量组明显小于生理盐水组(P＜0.05),人胎盘抗凝蛋白变体大剂量组明显小于普通肝素组(P＜0.05).完全闭塞时间人胎盘抗凝蛋白变体大小剂量组明显高于生理盐水组(P＜0.05).③人胎盘抗凝蛋白变体的毒副作用人胎盘抗凝蛋白变体大小剂量组白兔表现近似于其他两组,血液动力学的无明显改变,无内脏出血的情况. 结论人胎盘抗凝蛋白变体是一种安全有效的抗凝和抗栓制剂,人胎盘抗凝蛋白变体有明显的抗凝血作用,在用药后15 min抗凝作用最强,但与肝素相比,抗凝作用较弱,用药60min后抗凝作用变得很弱;人胎盘抗凝蛋白变体抗血栓形成作用强于肝素,所形成血栓的大小明显小于肝素作用后,而且呈剂量依赖性关系,大剂量人胎盘抗凝蛋白变体的抗栓作用明显强于小剂量组.     

Interactions between aspirin and COX-2 inhibitors or NSAIDs in a rat thrombosis model

Recent in vitro studies, clinical trials and epidemiological studies have suggested possible interactions between aspirin and other cyclo-oxygenase (COX) inhibitors, such as ibuprofen of the COX-2 inhibitors celecoxib and rofecoxib. The objective of this study was to test the effects of aspirin (1, 2.5 and 5 mg/kg), and ibuprofen (4 and 15 mg/kg), diclofenac (2.5 mg/kg), flurbiprofen (2 mg/kg), celecoxib (7.5 mg/kg), and rofecoxib (1 mg/kg), alone or combined on a rat model of arterial thrombosis. Drugs were given orally daily for 7 days, before insertion of an arterio-venous shunt thrombosis system, left in place for 15 min. Main parameter was thrombus weight. Five to 12 rats were used per experiment, and 35 controls overall. Aspirin inhibited thrombus formation in a dose-dependent manner. All NSAIDS given alone also inhibited thrombus formation to approximately the same level as aspirin 1 mg/kg/day. Ibuprofen, celecoxib and rofecoxib inhibited the effects of aspirin, but not diclofenac or flurbiprofen. The interactions with aspirin do not seem to affect all NSAIDs to equal levels. The clinical impact of this needs to be confirmed in adequately powered clinical trials or pharmaco-epidemiological studies.     

Activity of a synthetic hexadecasaccharide (SanOrg123781A) in a pig model of arterial thrombosis.

The activity of SanOrg123781A, a new synthetic antithrombotic drug inhibiting both factor Xa and thrombin through antithrombin (AT), was compared to that of unfractionated heparin (UFH) and of the synthetic pentasaccharide (fondaparinux, SP) in an ex vivo arterial thrombosis model in the pig. Six groups of four pigs were administered intravenously with SanOrg123781A (1, 3, 10 and 30 nmol kg(-1)), UFH (30 nmol kg(-1)) or SP (30 nmol kg(-1)). In this arterial model in which platelet thrombus was formed on a thrombogenic surface under a constant high shear rate, UFH and SP had moderate antithrombotic effects while SanOrg123781A exhibited a strong, dose-dependent inhibitory activity on platelet adhesion and platelet thrombus formation. In contrast to UFH, SanOrg123781A did not modify the activated partial thromboplastin time (aPTT) even at 30 nmol kg(-1), but strongly inhibited thrombin generation. At the same dose, despite a lower antithrombotic activity than SanOrg123781A, UFH significantly affected all the coagulation parameters. Taken together, these results show that SanOrg123781A, due to its potent and selective antifactor Xa and antifactor IIa activities is a promising new antithrombotic agent even in arterial setting.     

Experimental models of thrombosis and atherosclerosis

Atherothrombosis is a complex disease which includes two different pathologies: atherosclerosis, the process of plaque formation in the arterial wall and thrombosis, the formation of a blood clot mostly at the site of a ruptured atherosclerotic lesion. Animal models for both pathologies have been useful to understand their aetiology and their evolution and they were used to evaluate the efficacy of new treatments. Numerous models to study venous and arterial thrombosis have been described. Thus in the rat, venous thrombosis induced by lesion/stasis, e.g. in the vena cava, and arterial thrombosis by lesioning of the vessel wall are frequently used. The resulting blood clot formation is measured either directly (weight of the thrombus) or indirectly (reduction in blood flow). More complex models have been developed in large animals such as dogs and pigs in order to examine coronary thrombosis; the principle always being the arterial lesion that causes the thrombus formation. The effect of the TP-receptor antagonist terutroban (S 18886) on different thrombosis models has been evaluated and this has allowed to conclude on the powerful anti-thrombotic effects of this agent and has contributed to its progression into clinical development. In the past the most frequently used model of atherosclerosis was the hypercholesterolemic rabbit; both plaque formation and its consequences on vascular, endothelial, function have been largely studied in this model. More recently genetically engineered mouse models of atherosclerosis have been introduced and they are now largely studied to characterize the disease and to evaluate new drugs. The two models mostly used are the ApoE(-/-) and the LDL receptor(-/-) mice. Studies with terutroban have illustrated that this TP-receptor antagonist prevents lesion formation in mouse and rabbit models illustrating its interesting anti-atherosclerotic properties and demonstrating the role played by endothelial TP-receptors in atherogenesis. In conclusion, experimental models to study atherosclerosis and thrombosis have been developed and used to study the etiology and the evolution of atherothrombotic disease. They have also been of great value to predict anti-thrombotic and/or anti-atherosclerotic properties of new substances such as terutroban, that may become novel treatments for this complex cardiovascular disease.     

Impaired arterial neointima formation in mice with disruption of the plasminogen gene.

To define the role of plasminogen (Plg) in the smooth muscle cell response after arterial wall injury, neointima formation was evaluated after electric injury of the femoral artery in plasminogen-deficient (Plg-/-) mice. The injury destroyed all medial smooth muscle cells, denuded the injured segment of intact endothelium, and induced transient platelet-rich mural thrombosis. In wild-type (Plg+/+) mice, vascular wound healing was characterized by lysis of the thrombus, transient infiltration of inflammatory cells, and progressive removal of necrotic debris and thrombosis. Topographic analysis revealed repopulation of the media and accumulation in the neointima of smooth muscle cells originating from the noninjured borders, which progressed into the necrotic center. In Plg-/- mice, wound healing was significantly impaired with delayed removal of necrotic debris, reduced leucocyte infiltration and smooth muscle cell accumulation, and decreased neointima formation. Smooth muscle cells accumulated at the uninjured borders, but failed to migrate into the necrotic center. Proliferation of smooth muscle cells was not affected by Plg deficiency. Evans blue staining revealed no genotypic differences in reendothelialization. Thus, Plg plays a significant role in vascular wound healing and arterial neointima formation after injury, most likely by affecting cellular migration.     

Nonpeptide factor Xa inhibitors II. Antithrombotic evaluation in a rabbit model of electrically induced carotid artery thrombosis

SK549 (mol. wt. 546 Da) is a synthetic, selective inhibitor of human coagulation factor Xa (fXa) (K(i) = 0.52 nM). This study compared the antithrombotic effects of SK549 and a series of benzamidine isoxazoline fXa inhibitors with aspirin, DuP 714 (a direct thrombin inhibitor), recombinant tick anticoagulant peptide, or heparin in a rabbit model of electrically induced carotid arterial thrombosis. Compounds were infused i.v. continuously from 60 min before electrical stimulation to the end of the experiment. Values of ED(50) (dose that increases the carotid blood flow to 50% of the control) were 0.12 micromol/kg/h for SK549, 0.56 micromol/kg/h for aspirin, 0.14 micromol/kg/h for DuP 714, 0.06 micromol/kg/h for recombinant tick anticoagulant peptide, and >100 U/kg/h for heparin. The EC(50) (plasma concentration that increased blood flow to 50% of the control) for SK549 was 97 nM. Unlike aspirin and heparin, SK549 was efficacious and, at 1.5 micromol/kg/h i.v. (n = 9), maintained carotid blood flow at 87 +/- 6% of control level for greater than 90 min. Unlike heparin, SK549 inhibited ex vivo fXa activity but not ex vivo thrombin activity. There was a highly significant correlation between K(i) (fXa) and ED(50) of a series of fXa inhibitors (r = 0. 85, P <.001). Therefore, these results suggest that SK549 is a novel, potent, and effective antithrombotic agent in a rabbit model of arterial thrombosis. It is likely that SK549 exerts its antithrombotic effect through selective inhibition of fXa. Furthermore, SK549 may be clinically useful for the prevention of arterial thrombosis.