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)

The alanine/valine (A/V) gene polymorphism of 5, 10-methylenetetrahydrofolate reductase (MTHFR), one of the key enzymes catalyzing remethylation of homocysteine, has been reported and the VV genotype is associated with increased plasma homocysteine levels as a result of the reduced activity and increased thermolability of this enzyme. Although previous studies have suggested that the VV genotype is a risk factor for arterial occlusive disease, whether the VV genotype is a risk factor for venous thrombosis is still controversial. Here we screened 72 Japanese patients with deep venous thrombosis (DVT) and 85 controls for this mutation, and we measured plasma levels of homocysteine to determine whether the thermolabile variant with the VV genotype is a risk factor for DVT in a Japanese population. Of the 72 patients with DVT, 10 (13.9%) were found to be homozygous for the VV genotype, and in 6 (7.0%) of 85, control individuals and the difference was not significant (odds ratio=2.12, 95% CI=0.73-6.16, p=0.19). When we divided the DVT patients into subgroups, with and without predisposition of thrombophilia, including deficiencies of proteins C and S, plasminogen, and lupus anticoagulant, the prevalence of the VV genotype in DVT patients with predisposition was significantly higher than that of the normal controls (odds ratio=5.99, 95% CI=1. 56-22.96, p=0.01). However, the prevalence of the VV genotype in DVT patients without predisposition was not significantly different from that of the normal controls (odds ratio=1.20, 95% CI=0.32-4.47, p=0. 75). The plasma homocysteine levels in patients with DVT (11.6+/-5.2 nmol/ml) was not significantly different from that of the control subjects (11.6+/-3.7 nmol/ml). Individuals with the VV genotype showed higher plasma homocysteine levels (15.4+/-6.9 nmol/ml) than did individuals with the AV genotype (11.2+/-3.7 nmol/ml, p=0.009) or in individuals with the AA genotype (11.1+/-4.2 nmol/ml, p=0.004). Serum folate and vitamin B12 levels were not correlated with the plasma homocysteine levels. In conclusion, even though homozygosity for the VV genotype of the MTHFR gene was associated with higher plasma homocysteine levels, we found no association between plasma levels of homocysteine and DVT or between the genotype of the MTHFR gene and the DVT incidence. However, we found that the VV genotype of the MTHFR gene is a risk factor for DVT only when combined with the predisposition of thrombophilia.
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PMID:Common C677T polymorphism in the methylenetetrahydrofolate reductase gene increases the risk for deep vein thrombosis in patients with predisposition of thrombophilia. 1070 28

It has been known for some time that patients with homocystinuria are at an increased risk for both venous and arterial thrombosis. More recently it has been found that even moderate increases in homocysteine levels are associated with increased risk for deep venous thrombosis, myocardial infarction, cerebral infarction and peripheral vascular disease. It is possible, with the use of folic acid, vitamin B12 and vitamin B6, to correct the elevated homocysteine levels but it has not yet been demonstrated that by doing so the natural history of the disorder is altered.
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PMID:Hyperhomocysteinemia and thrombosis. 1093 Nov 61

In the past years several case-control studies established the association of an elevated plasma homocysteine concentration and the risk of venous thromboembolism. It is still unclear if elevated homocysteine concentrations can cause venous thrombosis. The VITRO (VItamins and ThROmbosis) trial is the first multicenter, randomized, double-blind and placebo-controlled study to evaluate the effect of homocysteine-lowering therapy by means of 5 mg folic acid, 0.4 mg vitamin B12 and 50 mg vitamin B6. The study is a secondary prevention trial in 600 patients who suffered from a first episode of idiopathic deep vein thrombosis (DVT) or pulmonary embolism (PE), or both. There will be 300 hyperhomocysteinemic and 300 normohomocysteinemic patients included, all with an objectivated venous thrombosis. The end point is recurrence of venous thrombosis.
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PMID:Homocysteine and venous thrombosis: outline of a vitamin intervention trial. 1101 47

Homocyst(e)ine is a novel risk factor in vascular disease. First observations of vascular lesions in children with high blood homocyst(e)ine levels due to severe inborn enzyme deficiencies led to the hypothesis that elevated blood homocyst(e)ine levels might be a risk factor for vascular disease. A substantial body of evidence on the role of the homocyst(e)ine in the development of coronary and carotid artery disease, myocardial infarction, stroke, deep vein thrombosis and other disorders has been accumulated over the last 30 years. Cross-sectional and case-control studies provide initial and the strongest support for the hypothesis, followed by results from the prospective cohorts. Infrequent cases of homozygous mutations of the key enzymes in the homocyst(e)ine metabolism chain are able to produce extreme homocyst(e)inemia and early vascular lesions. More frequently, heterozygous enzyme mutations and deficiencies of folate and vitamins B6 and B12 cause mild to moderate homocyst(e)inemia, which is still strongly associated with the increased risk of vascular events. Elevated homocyst(e)ine levels may be effectively managed with adequate folate, B12 and B6 intake in doses comparable to or above FDA recommendations. Whether correction of elevated homocyst(e)ine levels with vitamins is helpful in prevention and treatment of vascular events remains unknown and is under investigation in ongoing clinical trials (VISP, VITATOPS). No consensus on homocyst(e)ine management is available at the present time.
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PMID:Association between homocyst(e)ine levels and risk of vascular events. 1273 Jul 2

Plasma homocysteine is a risk factor for coronary artery disease, stroke, peripheral arterial disease, extracranial carotid arterial disease, aortic atherosclerosis, deep vein thrombosis, and possibly dementia and Alzheimer's disease in older persons. Randomized trials are in progress investigating whether multivitamin therapy with folic acid, vitamin B12, and vitamin B6 to reduce plasma homocysteine levels will reduce the risk for atherosclerotic vascular disease.
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PMID:Homocysteine. The association with atherosclerotic vascular disease in older persons. 1451 74

The etiological role of hyperhomocysteinemia in the origin of neural-tube defects was proved, therefore a mandatory flour folic acid fortification program was introduced in the USA since January 1, 1998. In Hungary one kind of breads was fortified with folic acid, vitamin B12 and vitamin B6. The Hungarian randomised controlled trials of periconceptional folic acid containing micronutrient-combination supplementation also indicated a reduction in the occurrence of congenital cardiovascular malformations, urinary tract's defects and congenital limb deficiencies and these findings were confirmed by US teams. Recent studies showed a positive association between cardiovascular diseases and hyperhomocysteinemia as well, thus it is considered as an independent etiological factor in the pathogenesis of ischemic heart diseases, stroke, deep vein thrombosis, in addition of vascular diseases in the placenta during pregnancy. Other studies showed that hyperhomocysteinemia is more prevalent in demented patients and in persons with impaired cognitive performance. Some association was also found between hyperhomocysteinemia and cancers (e.g. colon). There is strong evidence that four vitamins B, such as vitamin B11 (folate-folic acid), vitamin B12, B2 and B6 can reduce the level of serum homocysteine and subsequently neural-tube defects. In addition the results of intervention studies indicated a protective effect of folic acid and other vitamins B for some other congenital abnormalities, cardiovascular diseases, senile dementia and cancers. The flour fortification with these water-soluble vitamins B is appropriate for an effective public health program for the primary prevention of these hyperhomocysteinemia-related disorders. There is no real risk for side effects on the basis of available US, Canadian and Hungarian experiences. In conclusion an urgent task is to introduce a mandatory flour fortification program in Hungary.
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PMID:[Public health control of hyperhomocysteinemia and its consequences]. 1462 40

A 54-year-old man of Persian origin presented to our department with a 1-year history of ulcers on the right leg that had been unresponsive to numerous topical treatments, accompanied by lymphedema of the right leg. Medical history included hypergonadotropic hypogonadism, which had not been further investigated. He was treated for 20 years with testosterone IM once monthly, which he stopped a year before the current hospitalization for unclear reasons. The patient reported no congenital lymphedema. Physical examination revealed two deep skin ulcers (Figure 1) on the right leg measuring 10 cm in diameter with raised irregular inflammatory borders and a boggy, necrotic base discharging a purulent hemorrhagic exudate. Bilateral leg pitting edema and right lymphangitis with lymphadenitis were noted. He had low head hair implantment, sparse hair on the body and head, hyperpigmentation on both legs, onychodystrophia of the toenails (mainly the large toe and less prominent on the other toes), which was atrophic lichen-planus-like in appearance and needed no trimming (Figure 2), normal hand nails, oral thrush, and angular cheilitis. Other physical findings were gynecomastia, pectus excavatum, small and firm testicles, long extremities, asymmetrical goiter, systolic murmur 2/6 in left sternal border, and slow and inappropriate behavior. The patient's temperature on admission was 39 degrees C. Blood cultures were negative for bacterial growth. Results of laboratory investigations included hemoglobin (11.2 g/dL), hematocrit (26.8%), normal mean corpuscular volume and mean corpuscular hemoglobin volume, and red blood cell distribution width (16%). Blood smear showed spherocytes, slight hypochromia, anisocytosis, macrocytosis, and microcytosis. Blood chemistry values were taken for iron (4 micro g/dL [normal range 40-150 micro g/dL]), transferrin (193 mg/dL [normal range 220-400 mg/dL]), ferritin (1128 ng/mL [normal range 14-160 ng/mL]), transferrin saturation (1.5% [normal range 20%-55%]), serum folate (within normal limits), and vitamin B12 (within normal limits). Direct Coombs' test equaled positive 2 + IgG. All these values indicated anemia of chronic diseases combined with hemolytic anemia. Further blood work-up tested antinuclear antibody (positive <1:80 homogeneous pattern), rheumatoid factors (143 IU/mL [positive >8.5 IU/mL]), C-reactive protein (286 mg/L [normal range 0-5 mg/L]), anticardiolipin IgM antibody (9.0 monophosphoryl lipid U/mL [normal range 0-7.00 MPL U/mL]) and antithrombin III activity (135% [normal range 74%-114%]). Results of other blood tests were within normal limits or negative, including lupus anticoagulant, beta2 glycoprotein, anticardiolipin IgG Ab, anti-ss DNA Ab, C3, C4, anti-RO, anti-LA, anti-SC-70, anti-SM Ab, P-ANCA, C-ANCA, TSH, FT4, anti-T microsomal, antithyroglobulin, protein C activity, protein S free, cryoglobulins, serum immunoelectrophoresis, VDRL, hepatitis C antibodies, hepatitis B antigen, and human immunodeficiency virus. Endocrinological work-up examined luteinizing hormone (22.9 mIU/mL [normal range for adult men 0.8-6 mIU/mL]), follicle stimulating hormone (49.7 mIU/mL [normal range for adult men 1-11 mIU/mL]), testosterone (0.24 ng/mL [normal range for adult men 2.5-8.0 ng/mL]), bioavailable testosterone (0.02 ng/mL [normal range for adult men >0.6 ng/mL]), and percent bioavailable test (8.1% [normal value >20%]). These results indicate hypergonadotropic hypogonadism. Plasminogen activator inhibitor 1 was 6 U (normal value 5-20 U/mL). Karyotyping performed by G-banding technique revealed a 47 XXY karyotype, which is diagnostic of Klinefelter's syndrome. Doppler ultrasound of the leg ulcers disclosed partial thrombus in the distal right femoral vein. X-rays and bone scan displayed osteomyelitis along the right tibia. Histological examination of a 4-mm punch biopsy from the ulcer border revealed hyperkeratosis, acanthosis, hypergranulosis, and mixed inflammatory infiltrate containing eosinophils compatible with chronic ulcer. Multiple vessels were seen, compatible with a healing process. Direct immunofluorescence of the biopsy revealed granular IgM in the dermo-epidermal junction. Indirect immunofluorescence was negative. Thyroid function tests showed normal thyroid stimulating hormone and free throxine4. Multinodular goiter was seen on thyroid scan and ultrasound. Thyroid fine needle aspiration was compatible with multinodular goiter (normal follicular cells, free colloid, macrophages with pigment). IV treatment with amoxicillin-clavulanic acid 1 g t.i.d. was administered for 2 weeks, with a decrease in temperature and normalization of the leukocyte level. Oral antibiotic treatment with amoxicillin-clavulanic acid was continued for 10 more days, followed by 25 days of ciprofloxacin for the osteomyelitis. Local treatment included saline soakings followed by application of Promogran (Johnson & Johnson, New Brunswick, NJ) and Kaltostat (ConvaTec Ltd., a Bristol-Myers Squibb Company, New York, NY) with slight improvement. At the same time, the patient was treated with warfarin sodium due to deep vein thrombosis under international normalized ratio 2-3. The patient was treated with IM testosterone once monthly for 1 year, which resulted in a reduction in the diameter and depth of the leg ulcers (Figure 3). Blood tests were not performed for follow-up of the immune state.
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PMID:Klinefelter's syndrome presenting with leg ulcers. 1536 65

The identification of constitutional and/or acquired risk factor is of major importance in the treatment of thromboembolic disease in young people; it contributes to evaluate the risk of recurrence and to define the period of oral prophylactic anticoagulant treatment. Several congenital or acquired abnormalities of haemostasis are actually defined. In this paper, we report the case of a 34-year-old man who developed a deep venous thrombosis, five months before the diagnosis of megaloblastic anemia, probably due to pernicious anemia. The thrombosis was partially explained by the acquired hyperhomocysteinemia induced by vitamin B12 deficiency. Moreover, activated protein C resistance due to factor V Leiden, was revealed in our patient. This latter improved under anticoagulant treatment combined with vitamin B12. Combination in one individual, of different risk factors predisposing to inherited and/or acquired thrombophilia, results in increased risk for thrombo-embolic disease, suggesting synergic interaction between these factors.
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PMID:[Association of tow thrombotic risk factors: factor V Leiden and hyperhomocysteinemia. A case report]. 1670 35

This article reviews randomized control trials (RCTs) undertaken in stroke rehabilitation in the year 2005. A Medline search generated 31 RCTs in stroke rehabilitation in the year 2005 in the English language. These trials were primarily efficacy studies of a number of treatments: medications such as folate, vitamin B12 and bisphosphonates in preventing osteoporotic related hip fractures, compression stockings in preventing deep vein thrombosis (DVT), use of mechanical robots and positioning of the upper limb to help improve function; and, transcranial magnetic coil stimulation, acupuncture and neural tissue transplant to enhance motor recovery in post-stroke patients.
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PMID:Randomized clinical stroke rehabilitation trials in 2005. 1719 Nov 32

Elevated plasma homocysteine levels are associated with an increased risk of deep vein thrombosis. Herein we report a case of familial hyperhomocysteinemia-related cerebral venous sinus thrombosis and pulmonary embolism in a 21-year-old man who presented with severe headache over bilateral frontal areas. Neurological examination revealed no evidence of focal neurological deficit. Chest CT showed pulmonary thromboembolism in bilateral basal lung fields and brain MRI disclosed right transverse and sigmoid venous sinus thrombosis. Routine immunological tests, coagulation factors and occult tumor screening were normal, as were vitamin B12 and folate levels. The DIC profile was negative, The only risk factor we were able to identify was an elevated serum homocysteine level, namely 46.23 microM/L. Hyperhomocysteinemia was also noted in the patient's asymptomatic elder brother (68.0 microM/L) and, to a lesser extent, in his parents (father 12.5 microM/L; mother 11.7 microM/L). In conclusion, the cause of cerebral venous thrombosis and pulmonary embolism in this young patient was most likely related to familial hyperhomocysteinemia, with the thromboembolic events precipitated by a preceding systemic infection. After anticoagulation therapy; the patient recovered completely without any residual neurological deficit.
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PMID:Familial hyperhomocysteinemia-related cerebral venous sinus thrombosis and pulmonary embolism: a case report. 1768 34


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