Beneficial effect of low-molecular-weight heparin against lipopolysaccharide-induced disseminated intravascular coagulation in rats is abolished by coadministration of tranexamic acid.

OBJECTIVE: We examined the role of coagulation and fibrinolysis in lipopolysaccharide (LPS) induced disseminated intravascular coagulation (DIC) in rats, studying their contribution to fibrin deposition and organ failure in rats with LPS-induced DIC by concurrent administration of low molecular weight heparin (LMWH) with or without tranexamic acid (TA). METHODS: DIC was induced in male Wistar rats by a 4-h infusion of LPS (30 mg/kg) via the tail vein (LPS group). In the LPS+LMWH group LMWH (200 u/kg) was administered to rats from 30 min before the infusion of LPS for 4.5 h. In the LPS+LMWH+TA group LMWH (200 microg/kg) and TA (50 mg/kg) were administered to rats from 30 min before the infusion of LPS for 4.5 h. RESULTS: In the LPS+LMWH group lower plasma levels of TAT, D dimer, creatinine, and alanine aminotransferase were observed, along with less glomerular fibrin deposition and improved survival over rats administered LPS alone. However, these effects of LMWH were completely eliminated and damage beyond that observed in rats administered LPS alone resulted from combined administration of TA (LPS+LMWH+TA group), except that TAT and D dimer levels remained lower than in the group administered LPS alone. CONCLUSIONS: Suppression of fibrinolysis by TA (despite coadministration of LMWH) resulted in increased organ damage in this study, suggesting that depressed fibrinolysis plays a large role in organ failure resulting from LPS-induced DIC, even though hemostatic activation is moderately suppressed by LMWH.

Relationship between endothelin and the pathophysiology of tissue factor-induced and lipopolysaccharide-induced disseminated intravascular coagulation in rats: a study examining the effect of an endothelin receptor antagonist.

We investigated the relationship between endothelin, a potent vasoconstrictor peptide, and the pathophysiology of disseminated intravascular coagulation (DIC), using two models of DIC. Experimental DIC was induced by sustained infusion of 50 mg/kg lipopolysaccharide (LPS), or 3.75 U/kg thromboplastin, for 4 h via the rat tail vein. The effect of administration of a non-selective endothelin receptor antagonist (TAK-044) (2, 10, or 50 mg/kg, from -0.5 to 4 h) on thromboplastin-induced DIC was not significant. However, LPS-induced elevation of alanine aminotransferase, creatinine and glomerular fibrin deposition was significantly suppressed by co-administration of TAK-044 in a dose-dependent manner, although no effect of TAK-044 was observed on the platelet count, fibrinogen concentration or the level of thrombin-antithrombin complex. Moreover, plasma levels of D-dimer, which reflect the grade of fibrinolysis of cross-linked fibrin, were significantly increased by co-administration of each dose of TAK-044 in the LPS-induced DIC model in rats. Our results suggest that vasoconstriction, as well as depressed fibrinolysis, contribute to severe organ dysfunction in LPS-induced, but not thromboplastin-induced, DIC, and that endothelin plays a role in the development of organ injury in LPS-induced DIC in rats.

Significance of decreased plasma D-dimer levels following lipopolysaccharide-induced disseminated intravascular coagulation in rats.

Plasma D-dimer (DD) is considered to be one of the most useful markers in the diagnosis and assessment of disseminated intravascular coagulation (DIC). The present study was performed to clarify the role of DD in a rat model of lipopolysaccharide (LPS)-induced DIC in which low-molecular-weight heparin (LMWH) and tranexamic acid (TA) were used. We investigated whether a relationship exists between plasma DD levels and severity of DIC. Experimental DIC was induced in rats by a sustained 4-hour infusion of 30 mg/kg LPS administered via the tail vein (LPS group). Rats received either LPS alone (LPS group) or LPS combined with 200 U/kg LMWH (LPS+LMWH group) or 50 mg/kg TA (LPS+TA group) from -30 minutes to 4 hours. Blood was drawn from each rat at 4, 8, and 12 hours. Plasma levels of thrombin-antithrombin complex (TAT) and creatinine were suppressed in the LPS+LMWH group, and less glomerular fibrin deposition was observed compared with the LPS group. On the other hand, an increased level of creatinine and increased glomerular fibrin deposition were observed in the LPS+TA group compared with the LPS group. LMWH demonstrated a protective effect against LPS-induced DIC, resulting in increased survival at 12 hours, whereas TA had the opposite effect. From these results, it appears that LMWH protects against LPS-induced DIC, but TA exacerbates LPS-induced DIC. It was interesting that plasma levels of DD were almost completely suppressed by concurrent administration of either TA or LMWH in this LPS-induced DIC model. This finding suggested that plasma levels of DD were suppressed by inhibition of coagulation (reduced deposition of fibrin) in the LPS+LMWH group and that DD levels were also suppressed by inhibition of fibrinolysis (reduced degradation of fibrin by plasmin) in the LPS+TA group. Thus care should be taken when evaluating the significance of plasma DD levels, because suppressed levels can occur with progressive fibrin deposition and worsening organ dysfunction or improvement in the course of DIC.

An idiopathic skin eruption resembling a butterfly rash in a septic patient with disseminated intravascular coagulation following bone marrow transplantation.

A 31-year-old man who underwent chemotherapy and bone marrow transplantation to treat acute myeloblastic leukemia was admitted to our department complaining of high fever and hypotension. His physical examination revealed warm shock state, eruptions resembling that seen in systemic lupus erythematosus on his face and cyanosis in his fingers. We diagnosed septic shock and idiopathic skin eruption on his face. Following treatment with blood transfusion, anticoagulant, antibiotics, respirator and continuous arteriovenous hemofiltration and dialysis, the patient's condition gradually improved. The eruptions on his face first observed at admission progressed with a worsening of his disseminated intravascular coagulation (DIC), and subsided with an improvement in his DIC. A biopsy of the eruption was taken and pathological findings of the eruption revealed multiple micro-fibrin depositions of the dermis. The skin necrosis in purpura fulminans often begins in the distal extremities. But our patient developed this uncommon skin eruption on his face. Patients with an idiopathic skin eruption resembling a butterfly rash in a septic patient should be considered to complicate DIC as in the present case.

Antithrombotic role of nitric oxide in rats under physiological conditions.

Although sepsis-induced release of nitric oxide (NO) is known to have an antithrombotic effect, it is unknown if NO exerts this same effect under physiological conditions. We have there-fore attempted to determine whether or not NO protects against thrombus formation in normal Wistar rats injected with various amounts (0.8, 4.0, 20.0 and 100 mg/kg/4 hr) of L-NAME (N (omega)-nitro-l-arginine methyl ester), an NO synthase inhibitor, via the tail vein. Plasma levels of D-dimer fragments of fibrin were significantly increased in rats receiving L-NAME (0.21+/-0.04, 0.22+/-0.05, 0.26+/-0.07, 0.59+/-0.17 micro g/mL, means+/-SE; p<0.05, 0.05, 0.05, 0.01: L-NAME 0.8, 4, 20, 100, respectively, compared with control levels: <0.06 micro g/mL), and thrombin-anti-thrombin complex (TAT) levels were significantly increased in rats receiving 20mg/kg/4 hr or greater doses of L-NAME (4.5+/-1.1, 4.7+/-1.4, 18.7+/-4.9, 42.5+/-4.0 ng/mL, NS, NS, p<0.05, 0.01, respectively, compared with control levels: 3.8+/-1.2 ng/mL). Glomerular fibrin deposition was increased in a dose-dependent manner in rats receiving L-NAME (6.8+/-1.5, 13.9+/-1.6, 32.4+/-2.6, 49.2+/-5.2%, p<0.05, 0.05, 0.01, 0.01, respectively, com-pared with control levels: 0.0+/-0.0%). Renal dysfunction and hepatic dysfunction were observed in rats receiving 20mg/kg/4 hr or greater, or 100mg/kg/4 hr, doses of L-NAME, respectively. Mean blood pressure was also elevated in rats receiving L-NAME in a dose-dependent manner. These findings suggest that NO, in addition to regulating blood pressure, is involved in prevention of thrombus formation under physiological circumstances.

Pathophysiology of disseminated intravascular coagulation (DIC) progresses at a different rate in tissue factor-induced and lipopolysaccharide-induced DIC models in rats.

Tissue factor (TF) and lipopolysaccharide (LPS) are frequently used to induce disseminated intravascular coagulation (DIC) in experimental animal models. Although the pathophysiology of DIC may differ depending on which agent is used for induction, previous studies on models of DIC have not distinguished which DIC-inducing agent was used. In the present paper, we evaluate the characteristics of TF-induced and LPS-induced DIC using two types of DIC models, with special reference to selected hemostatic parameters and pathological findings within the kidney. Male Wistar rats were administered TF (3.75 U/kg; sustained infusion for 4 h) or LPS (30 mg/kg; sustained infusion for 4 h) via the tail vein, and blood sampling was performed at 0, 1, 3, 4, 5, 7, 9, 11, and 28 h. Judging from changes in the levels of thrombin-antithrombin complex, fibrinogen levels, and platelet counts, it is reasonable to conclude that the severity of both types of experimental DIC is similar with regard to hemostatic activation and consumption coagulopathy. A marked elevation in the level of D-dimer was noted without any organ dysfunction or much fibrin deposition in the kidney upon administration of TF. However, a markedly prolonged period of elevation in plasminogen activator inhibitor activity, a prolonged depression in antithrombin III activity, severe organ failure, and a markedly prolonged period of fibrin deposition in the kidney was observed following LPS administration. A modest number of the rats from the TF-induced DIC model died during the experimental period, whereas a large number of rats died during LPS-induced DIC, especially after 9 h. Since the time course of the pathophysiology differed remarkably among the TF-induced and LPS-induced DIC models in rats, we recommend that TF-induced and LPS-induced DIC be approached as distinct models in order to determine the implications of their experimental and clinical use.

Marked difference in pathophysiology between tissue factor- and lipopolysaccharide-induced disseminated intravascular coagulation models in rats.

OBJECTIVE: Tissue factor and lipopolysaccharide frequently have been used to induce disseminated intravascular coagulation in experimental animal models. Although the pathophysiology of disseminated intravascular coagulation may differ according to the agents used to induce it, these previous models have not distinguished between the use of different disseminated intravascular coagulation-inducing agents. In this study, we attempted to evaluate the characteristic features of these agents in two types of disseminated intravascular coagulation models, with special reference to selected hemostatic parameters and pathologic findings in the kidney. DESIGN: Prospective, comparative, experimental study. SETTING: Laboratory at a university hospital. SUBJECTS: Twenty-seven male Wistar rats, age 6-7 wks, weighing 160-170 g. INTERVENTIONS: Three groups of animals were studied: a control group (n = 8) receiving physiologic saline, a tissue factor-treated group (n = 11) receiving tissue factor 3.75 units/kg, and a lipopolysaccharide-treated group (n = 8) receiving lipopolysaccharide 30 mg/kg; each group sustained infusion for 4 hrs via the tail vein. MEASUREMENTS AND MAIN RESULTS: The degree of hemostatic activation in both types of experimental disseminated intravascular coagulation was identical, based on the results of thrombin-antithrombin III complex levels. Markedly elevated D-dimer concentrations were observed without organ dysfunction or fibrin deposition in the kidney on administration of tissue factor, whereas markedly elevated plasminogen activator inhibitor activity, decreased antithrombin III activity, severe organ failure, and marked fibrin deposition in the kidney were observed for lipopolysaccharide administration. CONCLUSION: Because pathophysiology differed remarkably between the tissue factor- and lipopolysaccharide-induced disseminated intravascular coagulation models in rats, we recommend that they be assessed carefully as distinct entities to determine implications of their experimental and clinical use.