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

The authors report the occurrence of vascular occlusion due to hyperhomocysteinemia without significant underlying atherosclerotic disease. This unique observation supports the potential of hyperhomocysteinemia to induce thrombosis and the independence of the thrombosis from hyperhomocysteinemia's associated atherosclerosis. The case demonstrates the clinical relevance of the effects of hyperhomocysteinemia on the coagulation cascade. A 42-year-old woman who lacked signs of classic homocystinuria developed disseminated thrombosis with a 24-hour urine homocysteine concentration of 384 mg, twelve times the upper limit of normal. Thrombosis was present in the aortic arch and its major branches and in the mesenteric arteries and veins. A fatal stroke resulted from the thrombosis. Autopsy revealed minimal atherosclerotic disease and no complicated plaques. This case demonstrates an expanded role of hyperhomocysteinemia in clinically significant vascular occlusion. Serum homocysteine concentration determination may be a factor in the evaluation of a hypercoagulable state. Hyperhomocysteinemia should be considered when evaluating arterial or venous thrombosis in a young person regardless of whether atherosclerosis or other signs of abnormal homocysteine metabolism are present.
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PMID:Homocysteine associated hypercoagulability and disseminated thrombosis--a case report. 975 29

Hyperhomocysteinemia is now recognized as a common risk factor for thrombotic vascular events such as stroke, myocardial infarction, and venous thrombosis. Studies of cultured cells in vitro indicate that homocysteine has prothrombotic effects on the endothelium and vascular smooth muscle. An association between moderate hyperhomocysteinemia and vascular dysfunction was confirmed in recent studies in animals and humans. Current models propose that dysregulation of homocysteine metabolism may impair vascular function through mechanisms involving oxidant stress or altered cellular methylation. Although moderate hyperhomocysteinemia can be treated effectively by administration of folic acid and other B vitamins, the clinical benefit of this therapeutic approach has not been proven in patients with thrombosis.
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PMID:Mechanisms of thrombosis in hyperhomocysteinemia. 977 14

Fasting hyperhomocysteinemia is an independent risk factor for coronary artery disease, stroke, peripheral vascular atherosclerosis, and for arterial and venous thromboembolism. The risk for cardiovascular disease with homocysteine is similar to conventional risk factors. The interaction of hyperhomocysteinemia with hypertension and smoking is strong and the combined effect is more than multiplicative. The combined effect of homocysteine and cholesterol is additive. Homocysteine produces atherosclerosis, thromboembolism, and vascular endothelial cell injury. Vascular dysfunction produced by homocysteine may be due to endothelial cell damage. Homocysteinemia-induced atherosclerosis is probably due to various factors including endothelial cell injury, inability to sustain S-nitroso-homocysteine formation because of imbalance between production of nitric oxide by dysfunctional endothelium and homocysteine, smooth muscle cell proliferation, and thromboembolism. There is strong evidence that endothelial cell injury is associated with oxidative stress produced by homocysteine. Hyperhomocysteinemia is associated with numerous conditions, including coronary disease, stroke, peripheral vascular disease (carotid artery and cerebrovascular atherosclerosis), venous thrombosis, renal disease, diabetes mellitus, and organ transplant. Folic acid, vitamin B12 and B6 have been shown to be beneficial in reducing plasma homocysteine levels. Folic acid is specifically very effective, safe and inexpensive.
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PMID:Homocysteine, a Risk Factor for Cardiovascular Disease. 982 15

Hyperhomocysteinemia is an independent risk factor for atherosclerotic disease in the middle-aged. We investigated whether a high serum homocysteine level is a risk factor for vascular disease in 878 elderly men (mean age at baseline, 71.5 years; range, 64 to 84 years) in a population-based, representative cohort followed up for 10 years in Zutphen, the Netherlands. Thirty-one percent had nonfasting homocysteine levels >/=17 micromol/L. After adjustment for other major risk factors, high homocysteine levels at baseline (the third compared with the first tertile) were associated with an increased baseline prevalence of myocardial infarction (odds ratio [OR], 1.81; 95% confidence interval [CI], 1.07 to 3.08; P for trend, 0.03) and with a marginally significant increase in the risk of dying of coronary heart disease (relative risk [RR], 1.58; 95% CI, 0.93 to 2.69; P for trend, 0.09) but not with an increased risk of first-ever myocardial infarction. In addition, high homocysteine levels at baseline were associated with an increased baseline prevalence of stroke (OR, 4.61; 95% CI, 1.79 to 11.89; P for trend, 0.002) and with an increased risk of dying of cerebrovascular disease in subjects without hypertension (RR, 6.18; 95% CI, 2.28 to 16.76) but not in those with hypertension. High homocysteine levels were associated with an increased risk of first-ever stroke among normotensive subjects that was not statistically significant (RR, 1. 77 [95% CI, 0.83 to 3.75; P for trend, 0.14]). In a general population of elderly men, a high homocysteine level is common and is strongly associated with the prevalence of coronary heart disease and cerebrovascular disease. It is a strong predictive factor for fatal cerebrovascular disease in men without hypertension but less so for coronary heart disease.
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PMID:Serum homocysteine and risk of coronary heart disease and cerebrovascular disease in elderly men: a 10-year follow-up. 984 81

Mild hyperhomocysteinemia is a risk factor for atherosclerotic vascular disease. Homozygosity for the C677T mutation in the gene for 5,10-methylenetetrahydrofolate reductase (MTHFR) is frequently associated with hyperhomocysteinemia, particularly in individuals with low levels of serum folate, and has been directly associated with cardiovascular disease in certain populations. The purpose of this study was to establish whether the C677T mutation, which causes thermolabile MTHFR, is a risk factor for ischemic stroke in the Irish population. The homozygous C677T genotype has previously been associated with coronary heart disease in Ireland. We collected blood from 174 individuals (minimum age 60 years) who had suffered an ischemic stroke that was confirmed by computed tomography brain scan. Control subjects (n=183) aged >/=60 years, who had never suffered a stroke or transient ischemic attack, were recruited from hospitals and active retirement groups in the same geographical area. MTHFR genotypes were determined and other known risk factors for stroke were documented. In the control group, the frequency of subjects with the homozygous C677T genotype was 10.4%. In patients who had suffered ischemic stroke, the frequency was 15.5%. This difference was not statistically significant. The odds ratio of stroke for C677T homozygotes, with other genotypes as a reference group, was 1.59, 95% CI=0.85, 2.97. The data indicate that the homozygous C677T MTHFR genotype is at most a moderate risk factor for ischemic stroke.
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PMID:Genetic analysis of the thermolabile variant of 5, 10-methylenetetrahydrofolate reductase as a risk factor for ischemic stroke. 997 99

We report a 13-year-old girl with nephropathic cystinosis on chronic peritoneal dialysis who presented with two episodes of stroke. Laboratory evaluation showed severe hyperhomocysteinemia (108 mumol/l). Further testing revealed that she was homozygous for the thermolabile variant of the methylenetetrahydrofolate reductase (MTHFR) gene. Treatment with folic acid and vitamin B12 lowered plasma homocysteine to less than 20 mumol/l. No further episodes of stroke occurred over a follow-up of 12 months. Homocysteine levels should be measured in patients with chronic renal failure, since simple and safe treatment with folic acid and vitamin B12 is effective in lowering the plasma homocysteine level in patients with the thermolabile MTHFR allele.
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PMID:Cerebral vascular complication and hyperhomocysteinemia in a cystinotic uremic child. 1010 Feb 95

Most large observational studies available today establish that moderate hyperhomocysteinemia, either genetically or nutritionally determined, is an independent risk factor for myocardial infarction, stroke, and thromboembolic disease. This is also true for chronic renal failure patients, who exhibit a high prevalence of hyperhomocysteinemia (85-100%), which reaches high plasma concentrations (20-40 microM, while control values range between 8 and 12 microM). After a renal transplant, homocysteine levels decrease, but tend to be higher than normal. The cause of hyperhomocysteinemia in renal failure is still obscure, since recent data have questioned the previous notion that a net homocysteine renal extraction and/or excretion take place in man. No matter the cause of its increase, the sulfur amino acid homocysteine is thought to induce an increment in cardiovascular risk through three basic biochemical mechanisms: (1) homocysteine oxidation, with H2O2 generation; (2) hypomethylation through S-adenosylhomocysteine accumulation, and (3) protein acylation by homocysteine thiolactone. The final result is membrane protein damage, endothelial damage, and endothelial cell growth inhibition, among other effects. Hyperhomocysteinemia, in general, is susceptible of therapeutic intervention with the vitamins involved in its metabolism. Depending on the cause, vitamin B6, vitamin B12, betaine, and/or folic acid can be effectively utilized. Chronic renal failure patients benefit from folic acid in high dosage: 1-2 mg are usually not effective ('relative folate resistance'), while 5-15 mg reduce homocysteine levels to a 'normative' range (<15 microM) in a substantial group of patients. Good results are also obtained in transplant patients, best with a combination of folic and vitamin B6. The results of the interventional trials focusing on the possible reduction in cardiovascular risk after homocysteine-lowering therapy, both in the general population and in end-stage renal disease, are expected soon, as well as the genetic and biochemical studies in suitable models, with the aim to clarify the cause-effect link suggested by the numerous observational and basic science studies.
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PMID:Homocysteine, a new crucial element in the pathogenesis of uremic cardiovascular complications. 1020 68

Moderately elevated plasma homocysteine levels have been established as an independent risk factor for atherosclerosis and its complications, including cerebrovascular disease. A common mutation (C677T) in the gene encoding for the enzyme methylenetetrahydrofolate reductase (MTHFR) has been linked to increased plasma homocysteine levels in homozygous carriers, particularly in the presence of low folate levels. However, the results of most of the previous studies suggest that the C677T MTHFR mutation is not a significant risk factor for arterial disease. This discrepancy might, at least partly, be due to the fact that plasma homocysteine levels are influenced by several other factors, including age, gender, renal function, and vitamin status. We investigated the relation between plasma homocysteine levels, the C677T MTHFR mutation, and these other factors in a population of 96 patients with transient ischemic attacks or minor strokes and in 96 age- and sex-matched healthy control subjects. We further tested the value of a multivariate model for the prediction of plasma homocysteine levels under particular consideration of the MTHFR mutation status. In the patients, plasma homocysteine levels were significantly higher than in the healthy control subjects. With regard to the MTHFR mutation, the distribution of the C/C, C/T, and T/T genotypes was not significantly different between patients and healthy control subjects. Univariate (linear regression) analysis revealed significant (positive) correlations between plasma homocysteine levels on the one hand and age and creatinine on the other, the latter particularly in subjects with creatinine levels in the upper quartile. Significant (negative) correlations were found between plasma homocysteine levels, vitamin B12, and folate levels. However, these relations could much better be expressed by means of a multiplicative regression model. T/T subjects exhibited slightly higher homocysteine levels than C/C and C/T subjects; however, the differences between the 3 genotypes were not significant. Multivariate (stepwise regression) analysis revealed age, vitamin B12 levels, folate levels, and creatinine levels as significant independent variables influencing plasma homocysteine levels, whereas the MTHFR mutation status and gender were removed from the model. Considering all 192 subjects, only 28.8% of the variance of plasma homocysteine levels could be accounted for by the model. However, in homozygous carriers of the MTHFR mutation, the predictive power of the model is very high, explaining 76.1% of the variance of plasma homocysteine levels. According to our results, the C677T mutation does not constitute a major risk factor for transient ischemic attack or minor stroke, even under consideration of other possibly confounding factors that are known to affect plasma homocysteine levels. However, it is possible to predict plasma homocysteine levels in homozygous carriers of the mutation with high accuracy. The knowledge of the MTHFR mutation status may therefore help to identify subjects at high risk for hyperhomocysteinemia.
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PMID:Genetic and nongenetic factors influencing plasma homocysteine levels in patients with ischemic cerebrovascular disease and in healthy control subjects. 1036 Jun 32

The balance of evidence from observational studies suggests that elevated homocysteine levels are associated with increased risk of carotid artery disease and stroke. There is however a paucity of prospective studies. There are also concerns regarding confounding due to factors associated with hyperhomocysteinemia, including renal impairment, an atherogenic diet and cigarette smoking. Homozygosity for a defective thermolabile variant of MTHFR, a common genetic polymorphism which results in hyperhomocysteinemia, has not been consistently linked with stroke or other vascular disease. There is a need for additional prospective studies with data on relevant confounders, sufficient power to characterise the form of the association between homocysteine concentrations and stroke risk, whether linear or threshold, and power to study interactions between homocysteine, other dietary markers and established stroke risk factors such as smoking and hypertension. Similarly, the evidence linking hyperhomocysteinemia with hypertension is limited and inconsistent. Given the biological mechanisms proposed in support of the homocysteine-CVD hypothesis, one would predict a positive association between homocysteine and blood pressure. There is a need to address this hypothesis directly in studies with reliable measurements of both homocysteine and blood pressure. Ultimately, the case for a causal role for elevated homocysteine levels in vascular disease, including hypertension and stroke, will depend on data from randomised controlled trials of homocysteine lowering interventions. Given the high prevalence of hyperhomocysteinemia in apparently well nourished populations and the tendency for homocysteine concentrations to increase with age, modest effects of homocysteine on stroke risk will have profound implications for public health.
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PMID:Homocysteine, hypertension and stroke. 1037 45

A common mutation in methylenetetrahydrofolate reductase (MTHFR), a homocysteine metabolic pathway enzyme, has been associated with increased homocysteine levels and increased risk for premature cardiovascular disease. The purpose of this study was to assess the association between the prevalence of the MTHFR mutation, hyperhomocysteinemia, and subtypes of ischemic stroke in an elderly population comprised of three age-balanced groups of patients. The presence of the C677T MTHFR mutation was determined by a direct polymerase chain reaction-based assay performed on blood samples from 136 patients with acute ischemic stroke, 95 patients with atherosclerotic risk factors for stroke (including some with a history of previous stroke or transient ischemic attack), and 52 healthy control subjects. The prevalence of the homozygous C677T mutation was not significantly higher in the elderly stroke patients (7%) than in the atherosclerotic risk (8%) or healthy elderly control (2%) groups. Plasma homocysteine levels were higher in the acute stroke patient group (14.5+/-4.5 micromol/L) and atherosclerotic risk patient group (14.6+/-6.2 micromol/L) compared with the control subjects (10.3+/-3.1 micromol/ L, P < 0.03). Homozygotes for the C677T MTHFR mutation did not have significantly higher homocysteine levels than non-homozygotes. Moderate hyperhomocysteinemia, though common in older patients with ischemic cerebrovascular disease, is not attributable, at least in this patient group, to a higher prevalence of the C677T MTHFR mutation.
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PMID:Role of a common mutation in the homocysteine regulatory enzyme methylenetetrahydrofolate reductase in ischemic stroke. 1040 94


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