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:C0149871 (deep vein thrombosis)
12,364 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Since most patients with thrombophilia in Israel are referred for diagnosis to our center, it was possible to estimate the relative frequency of the hereditary disorders leading to thrombophilia. 107 unrelated patients were evaluated over 4 years. Diagnoses were established in 23 patients (21.5%) while in 84 (78.5%) no abnormality was detected. Antithrombin III deficiency was found in 8 patients (7.5%), dominant protein C deficiency in 6 (5.6%), recessive homozygous protein C deficiency in 1, protein S deficiency in 3 (2.8%) and dysfibrinogenemia in 1. Four additional patients (3.7%) had a lupus anticoagulant. The frequency of deep vein thrombosis and pulmonary embolism was similar in patients with and without a definite diagnosis. Thrombosis of visceral or cerebral vessels and a positive family history were more frequent among patients in whom a definite diagnosis was made. In both groups there was a substantial lag between the time of presentation of the first thrombotic episode and the time of evaluation. Since the number of referred patients with thrombophilia has gradually increased over the period of the study, it is at present impossible to establish the prevalence of the various hereditary disorders leading to thrombophilia in the population.
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PMID:The relative frequency of hereditary thrombotic disorders among 107 patients with thrombophilia in Israel. 252 86

A collaborative survey was conducted among Italian thrombosis centers to gather information about the number and clinical features of patients with inherited thrombotic syndromes. The survey, based on 74 unrelated kindreds, revealed that antithrombin III, protein C and protein S defects are the most frequent genetic disorders. Venous thromboembolism was more frequent than arterial thrombosis, which was seen in only a minority of cases, most frequently with dysfibrinogenemia. About half of the patients developed venous thrombosis with a similar incidence in antithrombin III, protein S and protein C defects. About half of the symptomatic patients had recurrences and 40% developed thrombosis after a triggering factor, most frequently after surgery, during the puerperium, pregnancy, oral contraceptive intake or bed rest. Deep venous thrombosis prevailed and superficial thrombophlebitis was rare in antithrombin III-deficient patients, whereas deep venous thrombosis was present in about half and superficial thrombophlebitis in about one third of the cases with protein S and protein C defects. The probability to be free of thrombosis decreases with increasing age and at 35 years can be estimated to be 47% both for men and women. There is, however, a group of patients who are still free of thrombosis despite their older ages.
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PMID:A survey of inherited thrombotic syndromes in Italy. ad hoc Study Group. 252 4

Protein C is an important physiological inhibitor of coagulation. A deficiency of this protein is a recognised cause of recurrent venous thromboembolism. The assay for protein C was not locally available until recently. Our investigation of a young Malay woman who had sustained two previous pulmonary emboli led us to identify the first family in Singapore with this familial disorder. The definitive diagnosis of symptomatic protein C deficiency justifies longterm anticoagulant therapy in two members of this family. We now systematically screen all young adults who present with the first episode of deep venous thrombosis or pulmonary embolism irrespective of whether the event is spontaneous or seemingly precipitated.
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PMID:Hereditary protein C deficiency--the first symptomatic family in Singapore. 280 9

Deep venous thrombosis and pulmonary embolism are frequently diagnosed in patients encountered in a primary-care practice. Poor prognosis is related to acute sudden death and to recurrent thromboembolic disease. Anticoagulant therapy with heparin followed by coumarin derivatives is highly effective in preventing such recurrences, but the intensity of anticoagulation must be strictly monitored. Treatment with heparin, sufficient to prolong the activated partial prothrombin time to 1.5 to 2.0 times the control, should be continued for five to ten days, and oral anticoagulation should be overlapped with heparin for four to five days. The recommended therapeutic range for the prothrombin time during coumarin therapy is an INR of 2.0 to 3.0. The duration of anticoagulant treatment must be tailored to the individual patient. Patients with slowly resolving risk factors must be treated for at least three months after an acute deep vein thrombosis and for six months after a pulmonary embolism. Patients with tumors, antithrombin III, protein C or S deficiency should be treated indefinitely.
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PMID:[Prevention of recurrence of thromboembolic disease: maintenance of anticoagulant therapy]. 281 10

Protein C is thought to play a key role in the regulation of hemostasis, and its deficiency has been associated with an increased risk of thromboembolism. Protein C-deficient women are at particular risk of developing thromboembolic complications during pregnancy and delivery. The incidence of thromboembolic events is estimated to be 500-1000 times higher than in normal women. We report the case of a 26-year-old woman with previous iliofemoral deep vein thrombosis who experienced a successful pregnancy and delivery despite severe congenital protein C deficiency (protein C antigen and activity 25%). She was anticoagulated with heparin during the second part of her pregnancy. Our observation suggests that ambulatory full-dose subcutaneous heparin therapy during pregnancy constitutes adequate prevention. However, definite guidelines will require more extensive studies.
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PMID:Protein C deficiency and pregnancy: a case report. 291 72

Sixteen patients with mesenteric venous thrombosis were reviewed retrospectively during a period from 1983 to 1987. Twelve patients had progressive abdominal pain, three had gastrointestinal bleeding, and one had general malaise. Seven of these 16 patients had previous deep-vein thrombosis. After negative routine gastrointestinal and hepatobiliary evaluation, 11 patients underwent an infusion computerized tomographic scan. Of these, 10 had superior mesenteric vein thrombosis; three of these 10 patients had portal vein thrombosis. Selective arteriography was done in two patients because of gastrointestinal bleeding, and a diagnosis of mesenteric vein thrombosis was made on the venous phase of the examination. The remaining four patients developed acute abdominal symptoms requiring surgical exploration, at which time mesenteric venous thrombosis was discovered. An identifiable coagulopathy was detected in nine patients (protein C deficiency in six, protein S deficiency in two, and factor IX deficiency treated with factor IX concentrate in one). No case of congenital antithrombin-III deficiency was identified. Six of these nine patients had a past history of deep venous thrombosis. Of five patients who underwent surgical exploration, all required bowel resection. In follow-up, two patients died of intestinal necrosis and a third died of associated pancreatic cancer. Thirteen patients were discharged from the hospital. Treatment of coagulopathy was by heparin in three patients and sodium warfarin (Coumadin) in four patients. Long-term anticoagulation was not instituted because of gastrointestinal bleeding in three and cirrhosis in three patients. Mesenteric venous thrombosis can occur without gangrenous bowel. Diagnosis should be suspected when acute abdominal symptoms develop in patients with prior thrombotic episodes and a coagulopathy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mesenteric venous thrombosis. 172 86

To analyze the clinical manifestations of protein S deficiency, we evaluated 136 members of 12 families with the disorder. Seventy-one persons were found to be heterozygous for protein S deficiency, which is inherited as an autosomal dominant trait. Venous thrombotic events occurred in 39 patients (55%) and were recurrent in 77%. Most symptomatic patients had various combinations of deep venous thrombosis (74%), superficial thrombophlebitis (72%), and pulmonary embolism (38%), either in succession or simultaneously. On five occasions thrombosis was found at unusual sites, like the axillary, mesenteric, and cerebral veins. The age at the first thrombotic event ranged from 15 to 68 years (mean, 28 years), and at age 35 the probability to be still free of thrombosis was only 32%. Fifty-six percent of the thrombotic events were not preceded by a precipitating condition. In these respects protein S deficiency is similar to protein C deficiency.
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PMID:Hereditary protein S deficiency: clinical manifestations. 295 34

Protein C and protein S serve as natural anticoagulants. Deficiencies of these proteins are often associated with recurrent deep vein thrombosis and coumarin induced skin necrosis. These two proteins function by selectively inactivating factors Va and VIIIa, two of the "cofactors" of blood coagulation. Hence, inhibition of coagulation by this pathway complements the better known inhibition mediated by the antithrombin III-heparin system. These observations suggest that protein C and/or activated protein C may prove useful in controlling thrombosis and/or DIC. We have developed a Ca2+ dependent monoclonal antibody which allows the rapid isolation of human protein C. This rapid isolation has allowed us to demonstrate that activated protein C can protect baboons from the lethal effects of E. coli/endotoxin and that protein C supplementation can minimize fibrinogen consumption following tissue factor infusion into dogs.
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PMID:Protein C, isolation and potential use in prevention of thrombosis. 330 68

Careful interpretation of the vascular pathology is important in cases of intestinal ischemia caused by primary mesenteric vein thrombosis because it suggests antithrombin III (AT III) deficiency. This deficiency, an autosomal dominant hereditary disorder, predisposes the patient to venous thrombosis. Similar or acquired deficiencies may also predispose the patient to thrombosis. In hereditary AT III deficiency, 90% of the cases have thrombosis of the leg or iliac veins; 8.3% of the cases, thrombosis of the mesenteric veins. Additionally, some families have a tendency to develop mesenteric vein thrombosis specifically. In this case report, a daughter with probable AT III deficiency had a history of 3 episodes of deep vein thrombosis in the previous 5 years while taking oral contraceptives. Her father, with the same deficiency, died from massive intestinal infarction resulting from portal and mesenteric vein thrombosis. The 19-year old woman developed gradually worsening abdominal pain, signs of peritonitis, and hematemesis. A laparotomy revealed peritonitis that was due to segmental small-bowel infarction; the underlying pathologic condition was mesenteric vein thrombosis. Coagulation study results revealed AT III activity by chromogenic assay, 0.48 u/mL; AT III antigen, 0.5 u/mL; and protein C antigen, 1.15 u/mL. 10 days after discharge, she developed a hemicranial headache with nausea, vomiting, neck tenderness, and photophobia; she was readmitted. A CT scan showed a left posterior parietal cerebral infarct. Repeat AT III activity by chromogenic assay was 0.51 u/mL and AT III antigen level was 0.50 u/mL. Before anticoagulant therapy could be initiated, the patient died 7 days after readmission. The combined lowering of AT III activity and antigen levels to half of normal suggests AT III deficiency. Earlier diagnosis of this deficiency could have been made in light of the patient's own history of thrombosis and the paternal history.
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PMID:Mesenteric venous thrombosis due to antithrombin III deficiency. 333 17

Familial hypercoagulable states are a collection of syndromes characterized by an inherited deficiency of various proteins involved in the control of coagulation and include antithrombin III, plasminogen, protein C, and protein S. Affected patients usually develop venous thrombosis as adults. During a 15-month interval, we identified five patients with venous thrombosis accompanied by protein C deficiency. Four patients presented with deep venous thrombosis, which was recurrent in two, and one patient developed mesenteric venous thrombosis. The kindred of this last patient suggested an autosomal dominant genetic transmission of protein C deficiency. Patients' ages at the time of diagnosis of disease ranged from 28 to 41 years. All patients had low levels of protein C (range, 34 to 67 U/dL; normal, 70 to 130 U/dL). All patients were treated with heparin sodium immediately and then given long-term oral anticoagulation therapy with warfarin sodium. Protein C deficiency is a predisposing factor to the development of venous thrombosis that has only recently been recognized. Treatment of symptomatic protein C deficiency requires short-term heparin therapy followed by long-term oral anticoagulation therapy with warfarin. Oral anticoagulation treatment must be initiated slowly with no loading dose to avoid warfarin-associated skin necrosis. Patients with unexplained or unusual thrombosis, especially if it occurs at an early age, and patients with recurrent episodes of lower limb venous thrombosis should have their protein C levels measured. If a deficiency is documented, long-term warfarin anticoagulation therapy is recommended.
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PMID:Protein C deficiency. A cause of unusual or unexplained thrombosis. 338 55


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