Diphasic Increase in Thrombin-Antithrombin III Complex in Blood from the Internal Jugular Vein Following Severe Head Injury

Intravascular coagulation: a major secondary insult in nonfatal traumatic brain injury

OBJECT

The goal of this study was to determine the frequency with which cerebral intravascular coagulation (IC) complicates traumatic brain injury (TBI). The authors also investigated the incidence of IC in relation to varying mechanisms, time courses, and severities of TBI and in different species.

METHODS

Tissue was sampled from surgical specimens of human cerebral contusions, from rats with lateral fluid-percussion injuries, and from pigs with head rotational acceleration injuries. Immunohistochemical fluorescent staining for antithrombin III was performed to detect cerebral intravascular microthrombi. Abundant IC was found in all specimens, and microthrombi had formed in arterioles and venules of all sizes, ranging from 10 to 600 microm. Although it was more pronounced in focal lesions and more severe injuries, considerable IC was also observed in mild and diffuse injuries. The authors found a strong association between the severity of coagulopathy and the density of IC.

CONCLUSIONS

These results strongly support the contention that IC is a universal response to TBI and an important secondary cerebral insult.

Amino acid concentrations in the blood of the jugular vein and peripheral artery after traumatic brain injury: decreased release of glutamate into the jugular vein in the early phase

The gross behavior of excitatory amino acids in patients with traumatic brain injury (TBI), including uptake, transport, metabolism, and clearance, was investigated by analysis of the levels of 41 amino acids in the blood of the jugular vein (JV), which is the primary venous drainage conduit of the brain, and a peripheral artery. Blood samples from the JV and a peripheral artery of eight patients with TBI were collected at 6 h, 6 to 24 h, and over 24 h after TBI, and analyzed using high performance liquid chromatography. Blood samples from 101 normal subjects were also measured. The levels of glutamate (Glu), gamma-aminobutyric acid (GABA), aspartate, glutamine, and cystine deviated from the normal range, and were considered pathological. The level of Glu in the JV was significantly lower than that in the artery (p < 0.05), and the level of GABA in the JV was significantly higher than that in the artery (p < 0.01), but the other three amino acids showed no significant differences. Significantly chronological changes in the difference between the blood levels in the JV and artery were observed for Glu. Measurement of the Glu level in the JV and artery may indicate gross metabolic change in the brain following TBI.

Implications of excessive fibrinolysis and alpha(2)-plasmin inhibitor deficiency in patients with severe head injury

OBJECTIVE

To evaluate the involvement of the fibrinolytic system, especially focused on alpha(2)-plasmin inhibitor, in patients with head injury.

METHODS

This study consisted of 47 patients with isolated blunt head trauma in whom blood sampling could be initiated within 3 hours after injury. Patients were divided into two groups according to Glasgow Outcome Scale score status at 3 months after injury. In Group 1 patients (n = 26), the outcome was characterized as good recovery or moderate disability; in Group 2 patients (n = 21), the outcome was characterized as severe disability, vegetative state, or death.

RESULTS

Concentrations of thrombin-antithrombin III complex were greater than 100 microg/L in 39 of 47 patients, and concentrations in Group 2 patients were elevated significantly beyond the concentrations in Group 1 patients. Activities of alpha(2)-plasmin inhibitor in Group 2 were significantly lower than in Group 1 (P < 0.0001). In Group 1 patients, alpha(2)-plasmin inhibitor activity was greater than 60%, while in all but four Group 2 patients, the inhibitor was reduced to less than 60% of normal activity within 3 hours of injury. All patients with alpha(2)-plasmin inhibitor activity less than 60% showed a marked bleeding tendency and/or severe brain edema. Using sandwich enzyme-linked immunosorbent assay, fibrinogen degradation product and fibrin degradation product were measured separately. A significant correlation was apparent between thrombin-antithrombin III complex and fibrinogen degradation product, as well as between the complex and fibrin degradation product. Marked decreases in alpha(2)-plasmin inhibitor were noted only in patients with thrombin-antithrombin III complex concentrations exceeding 500 microg/L.

CONCLUSION

Fibrinolysis and fibrinogenolysis may be involved according to the degree of coagulation activation in the pathophysiology of severe head injury. Decreased activity of alpha(2)-plasmin inhibitor indicated poor prognosis and may be an exacerbating factor in the acute phase of head trauma.

Sigmoid sinus thrombosis after mild closed head injury in an infant: diagnosis by magnetic resonance imaging in the acute phase--case report

Intracranial sinus thrombosis following a mild closed head injury without a skull fracture or intracranial hematoma is extremely rare. A 23-month-old girl presented with vomiting and gait ataxia 1 day after occipital trauma. Computed tomography revealed a slightly increased density area in the region of the left sigmoid sinus. T1-weighted magnetic resonance (MR) imaging demonstrated an isointense area in the left sigmoid sinus and T2-weighted imaging showed a hyperintense area reflecting the characteristics of oxyhemoglobin. MR angiography and cerebral angiography indicated occlusion of the left sigmoid sinus. After 4 days of conservative treatment, her symptoms subsided completely. Follow-up MR angiography and cerebral angiography showed recanalization of the sigmoid sinus. The MR images and MR angiograms were useful for both early diagnosis and follow-up. Treatment should reflect the severity of individual cases, and early diagnosis will help achieve a good outcome.

Thrombin inhibitor ameliorates secondary damage in rat brain injury: suppression of inflammatory cells and vimentin-positive astrocytes

The effects of the thrombin inhibitor argatroban on the number of inflammatory cells and reactive astrocytes were investigated in a rat brain injury model. Gelatin sponge soaked with thrombin inhibitor (treatment group) or saline (control group) was placed in the brain defect to assess the infiltration of inflammatory cells by hematoxylin-eosin and immunohistochemical staining. Expression of polymorphonuclear leukocytes (PMNs) and monocyte/macrophage (Mo/Mo) cells, and vimentin (VIM)-positive astrocytes and glial fibrillary acidic protein (GFAP)-positive astrocytes were compared between groups. In the treatment group, infiltration of both PMNs and Mo/Mo cells, and the number of VIM-positive astrocytes were significantly reduced, but the number of GFAP-positive astrocytes was not different from the control group. Thrombin inhibitor suppresses the infiltration of inflammatory cells and excessive gliosis caused by VIM-positive astrocytes, but not expression of GFAP-positive astrocytes, suggesting minimization of secondary brain damage and promotion of the conditions required for neural regeneration.

Extrinsic pathway of blood coagulation and thrombin in the cerebrospinal fluid after subarachnoid hemorrhage

OBJECTIVE

The involvement of thrombin in the pathophysiology of subarachnoid hemorrhage (SAH) was investigated by comparing thrombin expression and extrinsic pathway activation in the cerebrospinal fluid (CSF) and blood of patients with SAH with the neurological grades, outcome, and presence of delayed cerebral vasospasm.

METHODS

Blood and CSF samples were obtained from 38 patients with SAH on Days 3 through 5, 7 through 9, and 12 through 14 after the onset of SAH. CSF samples were also obtained from control patients. Thrombin-antithrombin III complex, prothrombin fragment F1 +2, tissue factor, and tissue factor pathway inhibitor were analyzed using enzyme-linked immunosorbent assay.

RESULTS

No markers in the blood or CSF were correlated with neurological grades and outcome. Thrombin-antithrombin III complex and prothrombin fragment F1 +2 levels were significantly higher in the CSF of patients with SAH than in the blood or the CSF of control patients and were significantly higher in patients with vasospasm than in patients without vasospasm on Days 7 through 9. Tissue factor levels were significantly higher in the CSF of patients with SAH than in the blood, but the levels were close to those in the CSF of control patients. Tissue factor pathway inhibitor levels in the CSF of patients with SAH and control patients were under the detection limit.

CONCLUSION

Thrombin in the blood may not reflect the pathophysiology of SAH. Imbalance between tissue factor and tissue factor pathway inhibitor in the CSF may tend to thrombin generation under normal physiological conditions and also after SAH. Thrombin in the CSF may be involved in the pathophysiology of vasospasm.

Procoagulant activity in patients with isolated severe head trauma

OBJECTIVE

To determine the degree of regional and systemic coagulation activation soon after isolated severe head injury.

DESIGN

Prospective, controlled clinical study.

SETTING

The emergency room and intensive care unit (ICU) of a trauma center in a university hospital serving a population of 5 million people.

PATIENTS

Twenty-four trauma victims: 20 patients with isolated severe head injury (head trauma group, Glasgow Coma Score of < or =8) and four patients with isolated bone fracture (control group).

INTERVENTIONS

Insertion of central venous, i.e. superior caval vein, jugular bulb, and arterial catheters for blood sampling.

MEASUREMENTS AND MAIN RESULTS

Central venous (i.e., superior caval vein) global coagulation variables (i.e., prothrombin time, activated partial thromboplastin time, fibrinogen concentration, antithrombin III activity, and platelet count) and central venous and jugular bulb activation coagulation and fibrinolysis variables (i.e., prothrombin fragment F1+2, thrombin-antithrombin III complex, soluble fibrin, and D-dimer concentration) were measured soon after trauma (<6 hrs) and 3 hrs later. When compared with the control group patients, upon ICU admission, fibrinogen concentration (p < .005) and platelet count (p < .025) were significantly decreased in the head trauma group. Thrombin-antithrombin III complex (p < .025), prothrombin fragment F1+2 (p < .025), and D-dimer (p < .005) concentrations measured at the time of ICU admission were significantly higher in the head trauma group than in the control group. Only in the head trauma group were soluble fibrin concentrations increased above the normal range; thrombin-antithrombin III complex and the prothrombin fragment F1+2 were found to be significantly higher in cerebrovenous blood than in central venous blood (p < .025). There was no cerebrocentral venous difference in the concentrations of soluble fibrin or D-dimer in either group.

CONCLUSIONS

Within 6 hrs after severe isolated head trauma, systemic procoagulant overflow from the traumatized cerebral microvasculature proceeds to the thrombin level and is then inhibited by antithrombin III. Regional and systemic hypercoagulability and increased D-dimer concentrations appear to be common among head trauma patients. Increased procoagulant and consecutive fibrinolytic turnover may, therefore, spark disseminated intravascular coagulation in this patient group.

Delayed treatment with desulfato-hirudin prevents fibrin formation in lipopolysaccharide-induced shock

Previous work has shown that pre-treatment with the thrombin inhibitor recombinant desulfato-hirudin prevented fibrin formation and respiratory dysfunction in porcine lipopolysaccharide shock. We examined the effects of delayed administration of recombinant desulfato-hirudin in bacterial lipopolysaccharide shock. Miniature pigs were studied under anaesthesia and ventilation, and received a bacterial lipopolysaccharide infusion (2 microg/kg/h) for 7 h; recombinant desulfato-hirudin was started 1 h after bacterial lipopolysaccharide in 10 animals (bolus 12.9 nmol/kg; continuous infusion 6.5 nmol/ kg/h); 10 randomised control animals received saline instead of recombinant desulfato-hirudin. Fibrin and thrombin-antithrombin complex levels in plasma were significantly lower in bacterial lipopolysaccharide+recombinant desulfato-hirudin animals than in controls. Both groups displayed a similar rise in pulmonary vascular resistance and other parameters of lung dysfunction; only lung tissue wet/dry ratio was lower in recombinant desulfato-hirudin-treated than in control animals. Both groups had similar circulatory alterations. Recombinant desulfato-hirudin interrupted coagulation activation during ongoing bacterial lipopolysaccharide-induced shock in pigs even when administered with a delay of one hour after start of the bacterial lipopolysaccharide infusion. A protective effect of delayed recombinant desulfato-hirudin administration on bacterial lipopolysaccharide-induced acute lung injury and alterations in the systemic circulation could not be demonstrated in this experiment.