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Query: UMLS:C0024141 (
systemic lupus erythematosus
)
44,322
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thrombophilia is defined as an increased tendency to thrombosis and can be inherited or acquired. The thrombotic events in patients with inherited thrombophilia tend to occur at a young age, are often idiopathic, recurrent and may occur at unusual sites (e.g. mesenteric, portal and cerebral veins and in inferior vena cava). The most common of the hereditary defects appear to be antithrombin, protein C, protein S deficiency, which account for 10% of individuals presenting with venous thromboembolism, resistance to anticoagulant effect of activated protein C (APC-R), which is present in 17 to 64% of patients with thrombosis and prothrombin 20210 G-->A variant with 6% prevalence in patients with thrombosis. APC-R is due in 90% to the presence of factor V Leiden. Rarer defects include
heparin cofactor II
(HC II), plasminogen or tissue plasminogen activator deficiency (TPA), elevated plasminogen activator inhibitor-1 (PAI-1) and dysfibrinogenemia. The most common acquired defects are antiphospholipid antibodies (
lupus
anticoagulant and anticardiolipin antibodies). Hyperhemocystinemia is responsible as well for arterial as venous thrombosis. A substantial proportion of venous thrombotic events occurs spontaneously, i.e. without a precipitating event. Risk factors for thrombosis include surgery, trauma, immobility, congestive heart failure, pregnancy including puerperium and oral contraceptive usage. The thrombotic risk is increased in patients who are homozygous for factor V Leiden and markedly increased in patients with combined defects.
...
PMID:[Thrombophilic states]. 1035 55
In a whole year from July 1997 to June 1998, a total of 50 patients with sonogram-proved venous thrombosis who called on our hematology clinic consecutively entered into the study. Their mean age was 59.1 +/- 17.5 years, range 18-83 years, and 29 were male. A series of examinations were performed in order to find out the cause of venous thrombosis. These examinations included antithrombin, protein C, protein S, plasminogen,
heparin cofactor II
, activated protein C ratio, factor V Leiden mutation, fibrinogen, factors VIII and XII, euglobulin lysis time, 677 C-->T mutation of methylenetetrahydrofolate reductase (MTHFR), prothrombin 20210 (PT 20210) A allele mutation,
lupus
anticoagulant, anticardiolipin antibody, and complete blood count. Five patients (10%) were found to have malignancy; an inferior vena cava thrombosis in one patient was due to venous compression by hydronephrosis; two patients had
lupus
anticoagulant; two had varicose veins of legs; two had protein C deficiency; four had protein S deficiency; two had plasminogen deficiency; two had antithrombin deficiency. No activated protein C resistance, elevated factor VIII level, factor V Leiden, PT 20210 A allele or
heparin cofactor II
deficiency was found in the present study. Homozygous MTHFR 677 C-->T gene mutation was found in 7 patients (14%); one of them also had a plasminogen deficiency. No possible risk factor of venous thrombosis could be found in 24 patients (48%). In conclusion, malignancy and protein S deficiency were the most frequent acquired and congenital causes of venous thrombosis in the Chinese, respectively.
...
PMID:Causes of venous thrombosis in fifty Chinese patients. 1062 72
Thrombosis of upper extremity arteries is most commonly due to atherosclerosis of the proximal subclavian artery, trauma, or catheter-related injury. In the absence of an identifiable cause, a search for a hypercoagulable state is indicated. Hematologic manifestations of human immunodeficiency virus (HIV) infection and AIDS are frequent occurrences (Coyle TE. Med Clin N Am 1997;81:449-476). The most important of these are cytopenias (anemia, neutropenia, and thrombocytopenia). The incidence and severity of cytopenia are generally correlated to the stage of the HIV infection. In addition, various coagulation abnormalities have been reported in HIV-infected patients. Apart from thrombocytopenia, these have included a prolonged APTT due to the presence of
lupus
anticoagulant, an increased prevalence of protein S and
heparin cofactor II
deficiency, and hypoalbuminemia-related fibrin polymerization defects (Toulon P. Ann Bio Clin (Paris) 1998;56:153-160). HIV infection has also been associated with endothelial dysfunction. Although for the most part asymptomatic, elevated D-dimer levels have been found in HIV-infected patients, suggesting the existence of a prethrombotic state. In fact, clinical thrombosis eventuates in 2% of these patients (Toulon, 1988). Documented thromboses have involved both veins and arteries. We hereby present a patient who developed an acute thrombosis of his brachial artery as the initial manifestation of HIV infection.
...
PMID:Acute brachial artery thrombosis as the initial manifestation of human immunodeficiency virus infection. 1081 96
The array of clinicopathologic factors associated with acquired immune deficiency syndrome (AIDS) patients continues to increase and surprise many physicians. The recent literature contains reports of thrombotic episodes occurring in patients with human immunodeficiency virus (HIV) infection. Various abnormalities predisposing to a hypercoagulable state have also been reported in AIDS patients including the presence of antiphospholipid antibodies and the
lupus
anticoagulant; deficiencies of protein C, protein S,
heparin cofactor II
, and antithrombin and increased levels of von Willebrand factor, and d-dimers. These abnormalities correlate with the severity of HIV-associated immunosuppression as measured by the CD4 cell counts and with the presence of concurrent infectious or neoplastic diseases. The authors reviewed the medical literature and describe various abnormalities predisposing to a hypercoagulable state in AIDS patients along with the management of such complications. This issue is important because deep venous thrombosis (DVT), pulmonary embolus (PE), or thrombosis at other sites can develop in patients with AIDS who are ambulatory and have no known risk factors for pathologic thrombus formation, providing another challenge in an already difficult clinical situation. This also provides a strong rationale for careful prospective studies focusing on the prevalence and risk factors involved in the development of thromboembolic complications in patients with AIDS.
...
PMID:HIV and thrombosis: a review. 1117 84
We have attempted to establish a systematic pathogenetic analysis of thrombophilia by including assays of antithrombin III(AT III), protein C(PC), protein S(PS), fibrinogen, plasminogen and
heparin cofactor II
by both functional and immunological methods as well as detecting
lupus
anticoagulants. Such a comprehensive scheme was instrumental in systematically identifying and confirming the pathogenesis of 164 cases which otherwise would have escaped detection since 1994 in our laboratory (Kyushu University Hospital). The analysis was conducted on 485 consecutive patients with venous thrombosis, arterial thrombosis and disorders in which small vessel thrombosis were implicated. Hundred and sixty four patients, (40% of the examined patients), were found to have low activities of PS, PC, ATIII etc. Among them, seventy five patients(46%) had low PS activity, and twenty nine(18%) had low PC activity. Genetic analyses performed on specimens with low PS/PC activities resulted in the confirmation of 24 genetic abnormalities. Such genetic abnormalities, however, does not solely lead to the pathogenesis of thromboses. We have found that some genetic polymorphisms, such as PS Tokushima, factor XII 46C allele, were also additional risk factors for thromboses.
...
PMID:[Genetic polymorphism and risk of thromboses]. 1130 10
This review focuses on the several coagulation disorders (the so called hypercoagulable states) that are associated with cerebral venous thrombosis. Hypercoagulable states likely explain the high percentage of cases of cryptogenic cerebral infarction in young people. The most common of the hereditary defects appear to be deficiency of antithrombin III, protein C or protein S, activated protein C resistance and prothrombin 20211A mutation. In a large majority of cases activated protein C resistance is due to the presence of factor V Leiden. Antiphospholipid antibodies (
lupus
anticoagulant and anticardiolipin antibodies) represent an acquired disorder of coagulation. Rare defects include
heparin cofactor II
(HC II), plasminogen or tissue plasminogen activator deficiency (TPA), elevated plasminogen activator inhibitor-1 (PAI-1) and dysfibrinogenemia. Hyperhomocystinemia is responsible for both arterial and venous thrombosis. A work-up to identify one of the recognizable hypercoagulable states is indicated, especially in younger patients with stroke. Laboratory evaluation for hypercoagulable states may also often be indicated in those patients who do not have other obvious risk factors for their stroke. If from clinical history, family history and/or laboratory studies, a patient is felt to have a hypercoagulable state, the decision for long term chronic anticoagulation needs to be individualized. If a hereditary hypercoagulable state is found, it also may be appropriate to recommend screening of other family members.
...
PMID:Haematologic disorders and cerebral venous thrombosis. 1718 75
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