Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The authors studied whether haemostatic abnormalities connected with the development of cerebral circulatory disturbances can be demonstrated in young stroke patients in whom Doppler and angiographic examination failed to reveal deviations indicative of stroke. They determined the in vivo activation of the coagulation system (TAT, F 1 + 2), the degree of secondary fibrinolysis (D-dimer), the plasma levels of the markers of fibrinolysis, with special regard to inhibitors: plasminogen activator inhibitor (PAI-1), alpha 2 antiplasmin (alpha 2 AP), alpha 2 macroglobulin (alpha 2 M), the frequency of pathologic serum lipoprotein (a)-Lp(a)-values and the association of PAI-1 and Lp(a) with the fibrinolytic system. They conclude that in the acute phase of the disease, the TAT and F 1 + 2 values were significantly elevated compared to the control, without change in the D-dimer value. The results suggest that in the tested period increased thrombin generation dominated and it significantly surpassed plasmin activity since the D-dimer values of that period did not indicate substantial increase in secondary fibrinolysis. The results of the study were separately analyzed in acute, chronic TIA and stroke groups. In the TIA and acute group the F 1 + 2 values, while in stroke the TAT values were more elevated. The in vitro fibrinolytic capacity of the patients significantly decreased compared to controls, showing significant correlation with the Lp(a) level, but not with the PAI value. Examination of the marker molecules renders possible to assess the degree of hypercoaguability and of endogenous lysis. Their knowledge is held important for judging the progression of the disease and the therapeutic consequences.
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PMID:[Hemostatic abnormalities in ischemic stroke]. 981 Jan 64

We measured the serum levels of macrophage colony-stimulating factor (M-CSF) in 37 patients with an old cerebral infarction who had been surmised to have a damaged vessel wall and who had been in a stable condition for over three months after stroke onset, and those of 41 healthy control subjects. The M-CSF levels in the patients were significantly higher (P < 0.01) than those of the controls at 1320.4 +/- 410.6 unit/ml and 853.9 +/- 180.3 unit/ml, respectively. The plasma levels of von Willebrand factor (vWF) antigen (P < 0.01) and thrombomodulin (TM) (P < 0.05), as well as those of thrombin-antithrombin III (TAT) complex (P < 0.05), prothrombin fragment 1+2 (F1+2) (P < 0.02), D-dimer products of crosslinked fibrin degradation products (D-dimer) (P < 0.01), and plasmin-antiplasmin (PAP) complex (P < 0.05) in the patients were also significantly higher than those in the controls. Significant positive correlations (P < 0.01) were found between these parameters and the M-CSF level, but there was no significant correlation between the M-CSF level and the white blood cell count, serum lipids, or blood pressure. Based on these results, we suggest that an increased M-CSF level indicates vascular damage or a thrombotic state in patients with an old cerebral infarction.
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PMID:Serum macrophage colony-stimulating factor (M-CSF) level is elevated in patients with old cerebral infarction related to vascular damage. 1007 8

We performed a cross-sectional case-control study among 277 subjects with dementia and 298 control subjects drawn from participants of the Rotterdam Study, a population-based cohort study among subjects aged 55 years or over, and from participants of the Rotterdam Stroke Databank, a hospital-based stroke registry, with the objective to evaluate the association of indicators of coagulability, fibrinogen, prothrombin fragments 1+2, thrombin-antithrombin complex (TAT), and indicators of fibrinolysis, plasmin-inhibitor complex, D-dimer and tissue-type plasminogen activator (t-PA) with dementia. Increased levels of TAT, D-dimer and t-PA activity were associated with an increased risk of dementia. Additional stratified analyses indicated that an increased TAT level was the primary factor related to dementia. The present study provides evidence that predominantly increased thrombin generation is associated with dementia.
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PMID:Coagulation and fibrinolysis markers and risk of dementia. The Dutch Vascular Factors in Dementia Study. 1042 69

To evaluate the role of the coagulation and fibrinolysis abnormalities in the pathogenesis of ischemic stroke of undetermined etiology, we assayed plasma concentration of fibrinopeptide-A and thrombin-antithrombin III complex, both sensitive markers for thrombin activation and fibrin formation, and D-dimer, a marker of plasmin activity and fibrinolysis. Hemostatic markers were measured in 32 patients with acute stroke and 20 patients with chronic stroke, and compared with 21 normal subjects. Fibrinopeptide-A and thrombin-antithrombin III complex levels were not elevated significantly, whereas the D-dimer level was markedly raised in acute (p<0.001) and chronic (p<0.05) phases of ischemic stroke in comparison with the control group. Prolonged elevation of D-dimer concentration suggests that hemostatic abnormalities have a primary role in the pathogenesis of ischemic stroke. The measurement of D-dimer concentration may help to better decide the indications for therapy of the patients with ischemic stroke of undetermined etiology.
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PMID:Hemostatic markers in ischemic stroke of undetermined etiology. 1058 58

The role of cerebral hemorrhagic transformation, either as clinically silent hemorrhagic infarction or disastrous parenchymal hemorrhage, is crucial for any risk/benefit analysis of thrombolysis. Especially, thrombolysis in acute ischemic stroke increases the risk of severe, life-threatening hemorrhagic complications up to 10 times compared to untreated controls. In this paper, previous proposed concepts for the development of intracerebral hemorrhage and hemorrhagic transformation are presented. The role of the cerebral microvasculature will be emphasized. In experimental focal cerebral ischemia a significant loss of basal lamina components of the cerebral microvessels has been demonstrated. This loss in vessel wall integrity is associated with the development of petechial hemorrhage. The mechanisms for this microvascular damage may include the plasmin-generated laminin degradation, matrix metalloproteinases activation, and the transmigration of leukocytes through the vessel wall. The attenuation of the microvascular integrity loss with subsequent reduction in hemorrhage is theoretically possible 1) by an improvement in the definition of an individual time window of therapy (by means of imaging techniques), 2) by a biochemical quantification of the basal lamina damage to avoid dangerous interventions, and 3) by pharmacological strategies to protect the basal lamina during thrombolysis.
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PMID:[Mechanisms for the development of intracranial hemorrhage. Possible implications for thrombolysis in cerebral infarct]. 1063 20

To analyse the risk/benefit of cerebral thrombolysis the role of hemorrhagic transformation, either as clinically silent hemorrhagic infarction or disastrous parenchymal hemorrhage, is crucial. Thrombolysis in acute ischemic stroke increases the risk of severe, life-threatening hemorrhagic complications by up to 10 times compared to controls. In this paper, previous proposed concepts for the development of intracerebral hemorrhage and hemorrhagic transformation are presented. The role of the cerebral microvasculature will be emphasized. In experimental focal cerebral ischemia a significant loss of basal lamina components of the cerebral microvessels has been demonstrated. This loss in vessel wall integrity is associated with the development of petechial hemorrhage. The mechanisms for this microvascular damage may include plasmin-generated laminin degradation, matrix metalloproteinases activation, transmigration of leukocytes through the vessel wall, and other processes. We propose that attenuation of the microvascular integrity loss with subsequent reduction in hemorrhage is theoretically possible 1) by an improvement in the definition of an individual time window of therapy (by means of imaging techniques), 2) by a biochemical quantification of the basal lamina damage to avoid dangerous interventions, and 3) by pharmacological strategies to protect the basal lamina during thrombolysis.
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PMID:Hemorrhagic transformation of cerebral infarction--possible mechanisms. 1069 95

In focal cerebral ischemia the plasminogen-plasmin system plays a role in the fibrinolysis of vessel-occluding clots and also in the proteolysis of extracellular matrix components, which potentially contributes to brain edema and bleeding complications. The authors investigated the plasminogen activation after middle cerebral artery occlusion with and without reperfusion (reperfusion intervals 9 and 24 hours) in rats by histologic zymography and compared areas of increased plasminogen activation to areas of structural injury, which were detected immunohistochemically. After 3 hours of ischemia, increased plasminogen activation was observed in the ischemic hemisphere. The affected area measured 5.2%+/-8.5% and 19.4%+/-30.1% of the total basal ganglia and cortex area, respectively. Reperfusion for 9 hours after 3 hours of ischemia led to a significant expansion of plasminogen activation in the basal ganglia (68.8%+/-42.2%, P < 0.05) but not in the cortex (43.0%+/-34.6%, P = 0.394). In the basal ganglia, areas of increased plasminogen activation were related to areas of structural injury (r = 0.873, P < 0.001). No such correlation was found in the cortex (r = 0.299, P = 0.228). In this study, increased plasminogen activation was demonstrated early in focal cerebral ischemia. This activation may promote early secondary edema formation and also secondary hemorrhage after ischemic stroke.
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PMID:Plasminogen activation in focal cerebral ischemia and reperfusion. 1069 71

Measurement of D-dimer (fibrin degradation product) is important for determining not only the activation of fibrinolysis but also the severity of a hypercoagulable state. However, fibrin degradation products are in variable, and the reactivity to cross-linked fibrin degradation products produced during fibrin degradation differs depending on the kind of antibody used against D-dimer. In patients with disseminated intravascular coagulation or earthquake-induced mental and physical stress and in patients after percutaneous transluminal coronary angioplasty, all of which are associated with acute fibrin formation and degradation, some discrepancies between two methods of D-dimer detection, automated latex agglutination assay (LPIA) and enzyme-linked immunosorbent assay (Stago), were found. No discrepancies in persistent fibrin formation and degradation were found among the healthy elderly, patients with lacunar stroke, and patients with coronary artery disease, almost all of whom had levels under 5.0 microg/mL, as determined by both methods. Evidence of persistently increased intravascular coagulation and fibrin turnover in patients with atherosclerotic disease was found. The cleavage of cross-linked fibrin by plasmin results in a production of fibrin degradation products, mostly contained D-dimer domains. Although the clinical utility of D-dimer can be achieved by their detection with specific antibodies, measurement of D-dimer as high-molecular-weight fragments may be useful to determine whether patients will undergo further fibrin degradation. When intermediate products of the degradation process need to be assessed, D-dimer level measurement by LPIA may serve as a suitable marker for ongoing fibrinolysis.
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PMID:Fibrin D-dimer in thrombogenic disorders. 1080 90

The protective blood-brain barrier normally allows diffusion of small molecules such as oxygen and carbon dioxide, and transport of essential nutrients, but excludes large proteins and other blood constituents from the interstitial space of the CNS. However, head trauma, stroke, status epilepticus and other pathological conditions can all compromise the integrity of this barrier, and allow blood proteins as large as albumin to gain access to the extracellular spaces that surround neurons and glia. Given their possible entry into brain tissue during cerebrovascular insult, the effects of blood-derived proteases such as thrombin, tissue plasminogen activator and plasmin in the CNS have come under increasing scrutiny. Evidence now supports a role for serine proteases in the sequence of events that can lead to glial scarring, edema, seizure and neuronal death.
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PMID:Serine proteases and brain damage - is there a link? 1126 39

Ancrod is a purified fraction of venom from the Malayan pit viper, Calloselasma rhodostoma, currently under investigation for treatment of acute ischemic stroke. Treatment with ancrod leads to fibrinogen depletion. The present study investigated the mechanisms leading to the reduction of plasma fibrinogen concentration. Twelve healthy volunteers received an intravenous infusion of 0.17 U/kg body weight of ancrod for 6 hours. Blood samples were drawn and analyzed before and at various time points until 72 hours after start of infusion. Ancrod releases fibrinopeptide A from fibrinogen, leading to the formation of desAA-fibrin monomer. In addition, a considerable proportion of desA-profibrin is formed. Production of desA-profibrin is highest at low concentrations of ancrod, whereas desA-profibrin is rapidly converted to desAA-fibrin at higher concentrations of ancrod. Both desA-profibrin and desAA-fibrin monomers form fibrin complexes. A certain proportion of complexes carries exposed fibrin polymerization sites E(A), indicating that the terminal component of the protofibril is a desAA-fibrin monomer unit. Soluble fibrin complexes potentiate tissue-type plasminogen activator-induced plasminogen activation. Significant amounts of plasmin are formed when soluble fibrin in plasma reaches a threshold concentration, leading to the proteolytic degradation of fibrinogen and fibrin. In the present setting, high concentrations of soluble fibrin are detected after 1 hour of ancrod infusion, whereas a rise in fibrinogen and fibrin degradation products, and plasmin-alpha(2)-plasmin inhibitor complex levels is first detected after 2 hours of ancrod infusion. Ancrod treatment also results in the appearance of cross-inked fibrin degradation product D-dimer in plasma. (Blood. 2000;96:2793-2802)
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PMID:Analysis of fibrin formation and proteolysis during intravenous administration of ancrod. 1102 13


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