Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Components of the natural anticoagulant system (NAS) and anticardiolipin antibodies were examined in 21 patients with lupus anticoagulant (LA), 13 of whom had past histories of thrombotic episodes. No relationship could be shown between the antigenic levels of protein C and S (PC, PS) and a history of thrombosis. Inhibition of the anticoagulant activity of activated protein C (APC) was observed using plasma from 20/21 patients when phospholipid vesicles were used as the surface for the coagulation reaction. This effect was not affected by the addition of PS. When platelet membranes were employed only 2/21 patients demonstrated inhibition of APC. Under the latter condition, PS functional activity was inhibited in 7/21 patients, six of whom had a past history of thrombosis. Reduced antithrombin III or heparin cofactor II levels were observed in a total of 4/21 patients and may have contributed to the development of thrombosis in three of these patients. Antibodies specifically directed against these proteins were not detected suggesting the possibility of an associated constitutional deficiency. Anticardiolipin antibodies, though elevated in 17/21 patients, did not serve as a useful marker for an increased risk of thrombosis, and the level did not correlate with inhibition of the activity of APC or PS. We conclude that the mechanism of thrombosis in patients with LA is multi-factorial. A subset of patients in whom LA specifically inhibits PS function may represent patients who are at significant risk from thrombosis.
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PMID:Studies of natural anticoagulant proteins and anticardiolipin antibodies in patients with the lupus anticoagulant. 217 38

This review concentrates on those disorders in which superficial thrombophlebitis can be a significant or presenting clinical sign. Primary hypercoagulable states are those conditions associated with an increased risk of thrombosis caused by a specific measurable defect in the proteins of coagulation and/or fibrinolytic systems. These disorders are frequently inherited and include deficiencies of antithrombin III, heparin cofactor 2, protein C, protein S, abnormal fibrinolytic activity, dysfibrinogenemia, and Hageman trait. Patients with a lupus anticoagulant and anticardiolipin antibody syndrome with thrombotic episodes are also considered to have a primary hypercoagulable state. The physiology, pathophysiology, clinical characteristics, and treatment of primary hypercoagulable states are reviewed.
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PMID:Superficial thrombophlebitis. I. Primary hypercoagulable states. 219 91

More than a dozen primary hematologic disorders have been associated with ischemic stroke. Inherited deficiencies of antithrombin III, protein C, and protein S have been linked with stroke in case reports; optimal screening requires functional as well as antigenic assays. Antiphospholipid antibodies and lupus anticoagulants are the most frequently identified acquired states associated with ischemic stroke. Polycythemia vera, sickle cell anemia, sickle-C disease, and essential thrombocythemia are the major disorders of formed blood elements causing stroke. Special, step-wise screening for occult prothrombotic entities in stroke patients is recommended for young persons with stroke of uncertain cause, for those with prior venous thrombosis, for those with a family history of unusual thrombosis, and for those with no other explanation for recurrent stroke. Acquired, perhaps transient, abnormalities of platelets, coagulation inhibition, and fibrinolysis may contribute importantly to brain ischemia in synergy with other mechanisms, but at present these remain ill-defined. The contribution of prothrombotic diatheses to stroke is probably underrecognized and warrants further investigation.
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PMID:Hematologic disorders and ischemic stroke. A selective review. 186 63

Although Virchow postulated 100 years ago that hypercoagulability states exist, it has only been in recent years that methods of documenting hypercoagulability have been developed. These clotting tendencies can be acquired or congenital. The common causes of acquired clotting tendencies include conditions which result in tissue and cellular damage, shock, transfusion reactions, and tissue necrosis. Certain drugs and drug reactions, and certain disease states which include blood dyscrasias and cancer are also associated with clotting problems. In certain diseases such as homocystinuria, hyperlipidemia, and lupus erythematosus, abnormal clotting tendencies may also develop. Important advances in the recognition of hypercoagulability have come with the documentation that congenital clotting abnormalities exist. Moreover, these abnormalities are proving to be more common than are congenital bleeding syndromes. Patients who appear to have spontaneous clotting manifestations and are under 40 years of age should be screened for one of these abnormalities. These congenital clotting tendencies can be classified as defects in thrombosis inhibitors, dysfibrinogenemias, or defects in fibrinolysis. The first thrombotic inhibitor defect recognized was antithrombin III deficiency which was reported in 1965. Subsequently, Protein C, Protein S, and Heparin cofactor II deficiencies have been recognized as contributing to thrombotic tendencies. Dysfibrinogenemias are relatively rare and most are associated with bleeding problems; however, 11% of the abnormal fibrinogens are associated with a clotting tendency. The reason appears to be that these fibrins are resistant to fibrinolysis. The most common defects which are associated with thrombotic tendencies appear, at the present time, to be due to defects in fibrinolysis. These include hypoplasminogenemia, decreases in plasminogen activator, increases in plasminogen activator inhibitor, and Factor XII deficiency.
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PMID:Acquired and congenital clotting syndromes. 223 69

Antiphospholipid-antibodies such as the anticardiolipin-antibodies may lead to a biological false positive test for syphilis. Numerous clinical studies have shown an augmented incidence of both arterial and venous thrombosis in patients with increased serum levels of these antibodies. Most of the trials were case reports of patients with lupus erythematodes. The results of prospective studies on the importance of these antibodies in patients with thrombosis but without autoimmune disorders were, however, somewhat contradictory. In vitro, several explanations for the development of thrombosis by the antibodies exist: inhibition of prostacyclin, prekallikrein, thrombomodulin, interaction with coagulation factors and/or antithrombin III and damage of thrombocytes. In contrast, experimental studies on isolated blood vessels show that IgM-anticardiolipin-antibodies evoke endothelium-independent relaxations and therefore may prevent vasospasm and thrombosis.
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PMID:[The role of anticardiolipin antibodies in the pathogenesis of arterial and venous thromboses]. 229 81

The prevalence and importance of hypercoagulable states in the general vascular surgical population is unknown. Antithrombin III, protein C, protein S, plasminogen, lupus-like anticoagulant, and heparin-induced platelet activation were determined prospectively in 158 patients with aneurysmal (27), renovascular (1), cerebrovascular (28), aortoiliac (31), or infrainguinal (71) disease. Sixteen abnormal test results were obtained in 15 patients (9.5%) as follows: deficiencies of antithrombin III (2), protein C (4), and protein S (1) and presence of lupus-like anticoagulant activity (5) and heparin-induced platelet activation (4). Reconstructive surgery was performed in 137 of the study patients. Five reconstructions, all infrainguinal bypass grafts, suffered thrombosis within 30 days. Early graft thrombosis occurred in three (27%) of 14 patients with abnormal preoperative test results compared to two (1.6%) of 123 patients with normal testing (p less than 0.01). Of the three patients with abnormal test results and graft thrombosis, lupus-like anticoagulant was detected in two and heparin-induced platelet activation in one. This preliminary study supports routine preoperative screening for lupus-like anticoagulant and heparin-induced platelet activation in patients undergoing infrainguinal reconstruction. Hypercoagulable states appear to be sufficiently common and important in the general vascular surgical population to warrant further investigation.
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PMID:Screening for hypercoagulable states in vascular surgical practice: a preliminary study. 235 97

In patients with systemic lupus erythematosus (SLE) both a haemorrhagic diathesis and a tendency to thrombosis of the venous and arterial vessels can be observed. In the course of the disease, thrombosis of the leg or pelvic veins developed in 20 per cent of 188 patients. The levels of alpha 2-plasmin inhibitor, plasminogen, fibronectin and of factor VIII complex were increased in patients with SLE compared with a control group. Fifty per cent of the patients showed no increase in fibrinolytic activity after venous occlusion measured with the fibrin plate method. This suggests a reduced fibrinolytic capacity in SLE probably caused by alteration of the endothelial cells through immune complex vasculitis. In addition, the lupus anticoagulant and an acquired antithrombin III deficiency in nephrotic syndrome in SLE are to be considered thrombophilic mechanisms. In the individual case there is an overlapping of hyper- and hypocoagulability.
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PMID:[Status of fibrinolysis in systemic lupus erythematosus]. 242

The coagulation system can be considered as a balance in which clotting and fibrinolysis have to be in a state of equilibrium. Increased fibrin formation or decreased fibrinolysis can predispose to thromboembolic diseases. Derailments in the clotting system leading to thrombosis center around the regulatory mechanisms, antithrombin III, protein C, protein S and possibly heparin cofactor II. Many cases of congenital or acquired deficiencies or abnormalities or antithrombin III, protein C and S have been described, all predisposing to thrombotic events. Alterations of the fibrinolytic system can also be associated with thromboembolisms. In particular, abnormalities of plasminogen, tissue plasminogen activator release and elevated tissue plasminogen activator inhibitor levels seem to be associated with thromboses. Conceivably also factor XIIa (Hageman factor) and prekallikrein deficiencies, when associated with thrombosis, exert their mechanism through the fibrinolytic system. Finally, about 50% of patients with lupus anticoagulant seem to suffer from thromboembolic disorders. The pathophysiology of this particular association is not known with certainty. Undoubtedly, there will be more disturbances discovered in the hemostasis system that are associated with increased intravascular fibrin formation. The understanding of these derailments is at this time only in its earliest stages of development.
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PMID:Pathophysiology of thrombophilic states. 246 10

We retrospectively evaluated 66 patients younger than 40 years of age who presented with acute nonhemorrhagic cerebral infarction (n = 63) or transient ischemic attacks (n = 3) to determine the possible etiology and long-term outcome at a mean follow-up interval of 3 years after initial presentation. A probable cause for the stroke was identified in 24 patients (36%); this group included one woman with a history of recurrent spontaneous abortions and a positive test for the presence of the lupus anticoagulant. We performed detailed hemostatic investigations at follow-up in 38 (90%) of the remaining 42 patients in whom the cause of the stroke was unknown or uncertain; results of the basic hemostatic screening tests (including that for fibrinogen) were uniformly normal. All 38 patients demonstrated a normal fibrinolytic response as measured by tissue plasminogen activator release to a standard venous occlusion stress test; concentration of the inhibitor of tissue plasminogen activator was not increased. No abnormalities in the concentrations of the inhibitory proteins C or S or antithrombin III were identified, and none of the 38 patients had evidence of a lupus anticoagulant. Neurologic recovery was complete or the residual disability mild in 46 of 59 (78%) patients. Overall prognosis was excellent and independent of whether a precipitating factor for the stroke could be identified.
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PMID:Etiology, prognosis, and hemostatic function after cerebral infarction in young adults. 249 81

Lupus anticoagulant, concentrations of anticardiolipin antibodies, antithrombin III, plasminogen, (free) protein S, protein C, prothrombin, platelet counts, and bleeding times were determined in 74 lupus patients (58 with systemic lupus erythematosus; 16 with lupus-like disease) to establish the presence of risk factors for thrombosis in these patients. Of the variables evaluated, lupus anticoagulant had the strongest association with a history of thrombosis. Both positive anticardiolipin antibody concentrations and the presence of (mild) thrombocytopenia were significantly associated with a history of thrombosis and the presence of lupus anticoagulant. Reduced concentrations of antithrombin III, plasminogen, (free) protein S, and protein C were found in some patients but were not associated with either thrombosis or lupus anticoagulant. Mean concentrations of total protein S were significantly lower in patients with thrombosis than in those without and in patients with lupus anticoagulant than in those without. The antigenic concentration of prothrombin was reduced in 3/74 (4%) lupus patients. These three patients had lupus anticoagulant but no history of thrombosis, which suggests that a low prothrombin concentration protects patients with lupus anticoagulant from the development of thrombosis. A prolonged bleeding time was associated with the presence of lupus anticoagulant but not with a history of thrombosis. Analysis by stepwise logistic regression did not disclose additional risk factors for thrombosis in lupus patients with lupus anticoagulant. Increased antithrombin III concentrations and decreased free protein S concentrations are often found in lupus patients, unrelated to lupus anticoagulant or thrombosis.
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PMID:Risk factors for thrombosis in lupus patients. 251 63


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