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

Lipoprotein and hemostatic profiles including coagulation inhibitors were determined in 136 patients with acute ischemic stroke. Based on clinical examination, cerebral computed tomography, Doppler ultrasonography of precerebral arteries and transthoracic echocardiography, the strokes were classified as cardioembolic (n = 38), non-cardioembolic (n = 92), and mixed cardioembolic/hypertensive (n = 6). Patients with cardioembolic stroke were older than patients with non-cardioembolic stroke. Lipoprotein(a) was higher in the cardioembolic than in the non-cardioembolic group. Lipoprotein(a) was not significantly correlated to the other lipid levels and may represent an independent lipid risk factor. The non-cardioembolic group had higher levels of total cholesterol, triglycerides, total cholesterol/high-density lipoprotein cholesterol ratio, low-density lipoprotein cholesterol, apolipoprotein A1, and apolipoprotein B. The cardioembolic group had higher concentrations of fibrinogen and D-dimer, and lower levels of antithrombin, protein C, protein S and heparin cofactor 2 than the non-cardioembolic group. The differences in the hemostatic profile are consistent with thrombosis due to activated coagulation being more involved in the pathogenesis of cardioembolic than of non-cardioembolic stroke. Lipoprotein(a) seems to be more associated with coagulation markers of thrombosis than with atherosclerosis, whereas the other lipids mainly seem to be risk factors for atherosclerosis.
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PMID:Lipoprotein(a), other lipoproteins and hemostatic profiles in patients with ischemic stroke: the relation to cardiogenic embolism. 1068 49

Inflammatory reactions mediated by cytokines are involved in the pathogenesis of acute stroke. Decrease in circulating levels of protein C (PC) and protein S (PS) induced by inflammatory cytokines has been postulated as a potential mechanism for a procoagulant tendency during acute stroke. The procoagulant state associated with impairments in natural anticoagulants may induce microvascular obstruction leading to a tissue perfusion reduction that worsens cerebral ischemia. Interleukin-6 (IL-6) regulate the synthesis of C4b-binding protein (C4BP), an acute-phase protein that also regulates PS plasma levels. We measured IL-6, C4BP, erythrocyte sedimentation rate (ESR), total and free PS and PC in 44 patients with acute ischemic stroke to determine if IL-6 decreases circulating levels of natural anticoagulants through the C4BP pathway and if these acute changes in natural anticoagulants may have clinical implications. Patients with higher levels of IL-6 had more severe neurologic deficits on admission, greater infarct size, higher levels of acute-phase reactants, and lower levels of free PS. IL-6 was significantly correlated with C4BP, ESR, and free PS levels. PC levels were also lower in the group of patients with greater IL-6, but differences were not statistically significant. No correlations were found between C4BP and natural anticoagulants. Severe neurologic deficit, greater infarct volume, atrial fibrillation, increased levels of inflammatory parameters (ESR and IL-6), and reduced levels of free PS were associated with disabling stroke at 3 months, but only neurologic severity and ESR remained as independent predictors of stroke disability on multiple regression analysis. Inflammatory reactions mediated by IL-6 during the acute phase of stroke influence the modulation of free PS. However, variations in free PS levels do not have implications for clinical outcome in stroke patients. The link between proinflammatory cytokines and free PS in the acute phase of stroke is not related to the C4BP pathway.
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PMID:Interaction between interleukin-6 and the natural anticoagulant system in acute stroke. 1076 81

Although first-time miscarriages are usually caused by chromosomal defects, about 55% of recurrent miscarriages are caused by procoagulant defects that induce thrombosis and infarction of placental vessels. Of recurrent miscarriages, about 7% are caused by chromosome defects, 15% to hormonal defects, and 10% to 15% to anatomical defects. Recurrent miscarriage involves more than 500,000 women in the United States each year. During the past 4 years, 179 patients, prescreened for chromosomal, hormonal, and anatomical defects, and found to harbor none, underwent hemostasis defect evaluation. A total of 160 of these have been analyzed. A hemostasis defect was found in 150 of 160 women (n = 94% of screened women). The mean age was 33 years; the mean number of miscarriages before referral was three. All women with a procoagulant defect (149) were treated with preconception ASA at 81 mg/d, and unfractionated porcine heparin at 5000 U every 12 hours was added immediately postconception; both agents were used to term delivery. Only two of 149 patients failed therapy. The defects found were as follows: antiphospholipid syndrome, 67%; sticky platelet syndrome, 21%; tissue plasminogen activator (TPA) deficiency, 9%; factor V Leiden, 7%; high PAI-1, 6%; protein S, 5%; high LP(a), 3%; AT, 2%; protein C, 1%. Thirty-eight patients had more than one defect. In the group with antiphospholipid syndrome, 24% only had a subgroup antibody (antiphosphatidyl-serine, -inositol, -ethanolamine, -choline, -glycerol) or antiphosphatidic acid antibody, in the absence of anticardiolipin antibody or lupus anticoagulant. This finding is similar to that recently reported in early age ischemic stroke patients (<50 years old). In summary, about 55% of patients with recurrent miscarriage harbor a procoagulant defect to account for placental vascular occlusion. More than 98% will have a normal term delivery with preconception aspirin (ASA) and addition of postconception heparin to term. Patients should be screened by an obstetrician or by reproductive specialists for hormonal and anatomic defects before initiating a procoagulant evaluation; if such prescreening is done, the yield of a defect is high and appropriate therapy leads to an excellent outcome.
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PMID:Recurrent miscarriage syndrome due to blood coagulation protein/platelet defects: prevalence, treatment and outcome results. DRW Metroplex Recurrent Miscarriage Syndrome Cooperative Group. 1089 70

We describe the thrombophilic and clinical characteristics of a group of patients who suffered venous thrombosis (VT) (n = 36) and ischemic stroke (n = 8) while taking oral contraceptives (OC). Our purpose is to ascertain whether there are differences between users of second and third generation progestogen and to investigate the influence of concurrent congenital and acquired risk factors (other than OC) on the onset of the thrombosis. The group of patients included 36 women with VT and eight with ischemic stroke. The patients' recognized predisposing factors were recorded. We also considered age, length of time on OC, types of OC, rethrombosis, family history of VT, and the presence of thrombophilic genetic defects. In the group of patients with VT, 54% were treated with second generation OC (n = 23), and 30% (n = 11) were treated with third generation OC. We found no significant statistical differences with respect to age and length of time on OC between the two types of OC. The prevalence of genetic defects in these patients--factor V (FV) Leiden, prothrombin G20210A mutation and protein S deficiency--was 19% (n = 7), 17% (n = 6), and 8% (n = 3) respectively. We observed the shortest time lapse between initiating OC and the first thrombotic event in carriers of FV Leiden and in patients with combined defects, but the differences were not significant. In patients with ischemic stroke, 50% were treated with second generation OC and 50% were treated with third generation OC. Prothrombin G20210A mutation was detected in two patients. In both patients,the stroke occurred earlier than in the rest of the patients, but these differences were not statistically significant. With respect to preventing thrombotic events in these patients, our data suggest that OC therapy should be avoided in patients with a previous history of thrombosis and in patients with an evident thrombotic tendency in the family. In patients in whom the family history of thrombosis is not very evident, it would be recommended to screen for FV Leiden, prothrombin G20210A mutation, and protein S, and to rule out OC if the patient does in fact have one of these risk factors. Moreover, if a patient develops a thrombotic complication while taking OC, an evaluation to search for a thrombophilic defect is warranted, and at the same time, alternative methods of contraception should be considered.
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PMID:Congenital and acquired thrombotic risk factors in women using oral contraceptives: clinical aspects. 1199 Dec 47

A 15-year-old woman with a history of transient dysarthria two years before, suddenly developed weakness of right upper extremity, right facial palsy, and dysarthria. She was admitted to our hospital on the third day. She had no hypertension, heart murmur and oedema. On neurological examination, she had mild right hemiparesis including face muscles and mild dysarthria. The right knee jerk was brisk with no Babinski's sign. Ataxia and sensory disturbance were not present. T2-weighted MRI showed a hyperintensity at the posterior limb of the left internal capsule. Cerebral angiography was unremarkable. Ultracardiography and 24-hour electrocardiography were normal. Laboratory data revealed no inflammatory findings, liver dysfunction, hyperglycemia and hyperlipidemia. Antinuclear and anticardiolipin antibodies were negative. Prothrombin time was normal, but activated partial thromboplastin time was slightly prolonged (35.4 sec, normal 25.2-34.4). Protein C, protein S and antithrombin III were normal. Heparin cofactor II (HC II) activity was decreased (44%) with normal HC II antigen (79%) and so she was diagnosed as heparin cofactor II deficiency type II (heparin cofactor II abnormality). Her father manifesting thromboangitis obliterans also had low HC II activity with normal HC II antigen. However, on her genetic analysis, we didn't detect any mutations in the coding region of HC II gene. Until now she has no recurrence of cerebrovascular attacks. On the basis of these results, we suspect that HC II deficiency was a possible risk factor of cerebral infarction in this case because she was so young and had no general risk factors except for HC II. No stroke associated with HC II deficiency type II has been reported up to date. This case is worth considering etiologies of juvenile cerebral infarction.
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PMID:[Juvenile cerebral infarction associated with heparin cofactor II abnormality. A case report]. 1096 62

Childhood ischemic stroke, including arterial ischemic stroke (AIS) and sinovenous thrombosis (SVT), is relatively rare in children but can result in devastating morbidity and mortality. An understanding of the etiology of childhood stroke is important because strategies for primary and secondary prevention can be devised. Prothrombotic disorders may contribute to the etiology of childhood stroke, and include deficiencies of antithrombin, protein C, protein S, plasminogen, and presence of Factor V Leiden, Prothrombin gene G20210A, dysfibrinogenemia, antiphospholipid antibodies, hyperhomocysteinemia, and elevated lipoprotein (a). The overall incidence of prothrombotic disorders in childhood AIS is estimated to be 20% to 50% in most studies and, in childhood SVT, to be 33% to 99%. In addition, hyperlipidemia, polycythemia, iron deficiency anemia, and platelet disorders may result in a prothrombotic state associated with ischemic stroke. The etiologic contribution of these prothrombotic disorders to initial and recurrent stroke has not been clearly defined; however, additional risk factors are usually present in affected children. Given the prevalence of prothrombotic disorders in childhood stroke, and their likely causative role, children with stroke should be screened for prothrombotic disorders. Future prospective and multicenter studies will elucidate the contribution of specific prothrombotic disorders to initial and recurrent stroke, and optimal therapy.
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PMID:Prothrombotic disorders and ischemic stroke in children. 1120 19

Effective and safe methods of preventing venous thromboembolism (VTE) are now widely available, but a significant proportion of patients develop VTE either because thromboprophylaxis has not been used or because the intensity of thromboprophylaxis is not matched to the level of risk. Thromboembolic risk varies widely according to the clinical setting and presence of underlying risk factors, but VTE may not be suspected even in high-risk patients. Clinical risk factors for VTE include recent surgery, cancer, stroke, previous VTE, immobilization, and advanced age. Recent attention has focused on the role of inherited and acquired molecular factors in determining overall thromboembolic risk. These factors include the classic thrombophilias-deficiencies of antithrombin III, protein C, and protein S-and several newly described molecular risk factors: factor V Leiden, the prothrombin 20210A gene mutation, and hyperhomocysteinemia. Based on emerging knowledge of risk factors, several risk assessment models (RAMs) have been devised that stratify patients according to overall VTE risk, allowing thromboprophylaxis to be tailored appropriately. Compared with older risk assessment formulas, current RAMs are simpler and include specific recommendations for thromboprophylaxis based on the available scientific evidence. Consensus documents on VTE prevention classify patients into low-, moderate-, and high-risk categories. More recently, a new risk group, very high risk, has been described. Very-high-risk patients are especially prone to thromboembolic complications and need intensive and in some cases prolonged thromboprophylaxis.
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PMID:Effective risk stratification of surgical and nonsurgical patients for venous thromboembolic disease. 1144 39

Although hormone replacement therapy (HRT) can have many favorable effects on serum lipids and on vascular endothelium that presumably mediate the decreased risk for heart attack and stroke associated with HRT in observational epidemiology, oral estrogen also has various pro-coagulant effects: increases in serum triglycerides and factor VII activity, decreases in serum antithrombin III and protein S. This may explain the increased risk for venous thromboembolism observed with HRT and oral contraceptives, as well as the temporary increase in coronary risk noted when women with preexisting coronary disease initiate HRT. The well-tolerated hypolipidemic agent bezafibrate has anticoagulant actions that are diametrically opposed to the procoagulant effects of oral estrogen: namely, reductions in serum triglycerides and factor VII activity, and an increase in antithrombin III. However, bezafibrate could be expected to complement the protective effects of oral estrogen on serum lipids and on serum IGF-I activity. Thus, there is reason to believe that concurrent bezafibrate administration would minimize any thrombotic risk associated with HRT or oral contraception, while amplifying the health benefits of oral estrogen, and would make it more feasible to administer these therapies in women at increased vascular risk. These predictions require confirmation in controlled clinical studies. Certain natural hypolipidemic agents may also have potential as adjuvants to oral estrogen, but their effects on hemostasis require further investigation.
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PMID:Concurrent administration of sustained-release bezafibrate may counteract the increased thrombotic risk associated with oral estrogen therapy. 1146 Nov 76

A subgroup of children with arterial ischemic stroke in the pre- or perinatal period present with delayed diagnosis. We identified 22 children who met the following criteria: (1) normal neonatal neurological history, (2) hemiparesis and/or seizures first recognized after two months of age, and (3) computed tomography or magnetic resonance imaging showing remote cerebral infarct. Laboratory evaluations included protein C, protein S, antithrombin, activated protein C resistance screen (APCR), Factor V Leiden (FVL), prothrombin gene defect, methylene tetrahydrofolate reductase variant (MTHFR), anticardiolipin antibody (ACLA), and lupus anticoagulant. Not all children received all tests. Age at last visit ranged from 8 months to 16.5 years (median 4 years). Twelve were boys. Fourteen had left hemisphere infarcts. Median age at presentation was 6 months. Eighteen had gestational complications. Fourteen children had at least transient coagulation abnormalities (ACLA = 11, ACLA + APCR = 1, APCR = 2 with FVL + MTHFR = 1); six of these children had family histories suggestive of thrombosis. Cardiac echocardiogram was unremarkable in the 15 tested. Outcomes included persistent hemiparesis in 22; speech, behavior, or learning problems in 12; and persistent seizures in five, with no evidence of further stroke in any patient. The persistence and importance of coagulation abnormalities in this group need further study.
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PMID:Presumed pre- or perinatal arterial ischemic stroke: risk factors and outcomes. 1150 98

Authors discussed the known risk factors of venous thromboembolism (VTE), which is complex disease with two manifestations: deep venous thrombosis (DVT) and pulmonary embolism (PE). Acquired risk factors of VTE are following: age over 40 years, bed rest, surgery, trauma, cancer, myocardial infarction, ischemic stroke, use of oral contraceptives, hormone-replacement therapy, pregnancy and puerperium, previous VTE, long lasting travel and presence of antiphospholipid antibodies. Group of genetic defects predisposing to thromboembolic events are called thrombophilia. The best known causes of thrombophilia are: resistance to activated protein C (factor V Leiden), the prothrombin 20210A, protein C deficiency, protein S deficiency, antithrombin deficiency, hyperhomocysteinemia and abnormality in the fibrinolytic system. Genetic predisposition to thrombosis may be detected in up to one-third of patients with VTER and more than 50% of patients with familial thrombosis. Detection of factor V Leiden is important for patients: with recurrent incidences of VTE, with other known causes of thrombophilia and in members of families with frequent occurrence of VTE. It is important also to detect deficiency of: protein C, protein S and especially of antithrombin in patient with previous VTE, because such patients have 8 to 10 fold increase risk of next incident of VTE. Chronic prevention of thrombosis should be used in all these cases.
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PMID:[Risk factors of venous thromboembolism]. 1155 14


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