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:C0085580 (essential hypertension)
14,686 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Clinical, experimental and pathologic studies strongly indicate that hypertension is a major factor in coronary heart disease, sudden death, stroke congestive heart failure and renal insufficiency. The deleterious effect of the elevated blood pressure on the cardiovascular system appears to be due mainly to the mechanical stress placed on the heart and blood vessels. Humoral factors and vasoactive hormones such as angiotensin, catecholamines and prostaglandins may play a role in the pathogenesis of hypertensive cardiovascular disease but this role has not yet been defined and is probably secondary. Hypertension and the resulting increase in tangential tension on the myocardial and arterial walls, leads to the development of hypertensive heart disease and congestive heart failure as well as hypertensive vascular disease that affects not only the kidneys but also the heart and brain. Hypertensive vascular disease involves both large and small arteries as well as arterioles and is characterized by fibromuscular thickening of the intima and media with luminal narrowing of the small arteries and arterioles. The physical stress of hypertension on the arterial wall also results in the aggravation and acceleration of atherosclerosis, particularly of the coronary and cerebral vessels. Moreover, hypertension appears to increase the susceptibility of the small and large arteries to atherosclerosis. Thus the patient with hypertension is a candidate for both hypertensive and atherosclerotic vascular disease of the coronary and cerebral vessels leading to occlusive disease of both the large and small arteries and resulting in myocardial infarction and stroke. Other major complications of hypertensive vascular disease include rupture and thrombotic occlusion of blood vessels, especially in the brain. Disease of the arterial media, which begins in childhood with the deposition of calcium in the vessels, may be an important cause of arterial hypertension. This form of hypertension may manifest itself in adults as arteriosclerotic hypertension and lead to cardiovascular complications very similar to those of essential hypertension. The relation of arteriosclerotic hypertension to nutritional factors, including dietary salt intake, deserves study.
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PMID:Role of hypertension in atherosclerosis and cardiovascular disease. 13 91

This study examined the effects of essential hypertension on measures of anxiety and depression for two age groups of hypertensive (free from hypertension-related pathology and/or cardiovascular disease) and normotensive subjects. Hypertensive subjects had significantly higher State Anxiety scores and Zung Depression scores than did normotensive subjects. These differences between the blood pressure groups were due largely to the scores of the younger hypertensive subjects. The results of the present study are consistent with previous results from our laboratory that have found that younger hypertensives differed (relative to controls) from middle aged hypertensives on measures, such as, symptoms reported on the Cornell Medical Index and WAIS Performance scores. The results of the present study were discussed within the context of age associated differences in response to hypertension and factors that might account for these differences.
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PMID:Anxiety and depression in young and middle aged hypertensive and normotensive subjects. 52 Mar 72

Eighty per cent of all identified children 2 1/2-5 1/2 years old in a total geographic community in Bogalusa, Louisiana, were examined for cardiovascular disease risk factor variables, including blood pressure (BP), anthropometric measurements, and blood lipids. Blood pressure was measured by three instrument types, each with three readings, according to a rigid, randomized design. Results from the three instruments were compared, and potential biases for each instrument are listed. All observations on the children were analyzed by multiple regression with BP as the dependent variable. After controlling for the mood of the child, the authors found that some index of body size was positively related to BP, whereas age, race, and serum lipids were not consistently related. The regressions of blood pressure on height as well as on log weight fit straight lines. These results conform with the findings for the 5- to 14-year-olds in this community. The basal or fundamental reference blood pressure is likely to rise gradually from birth to the age of incipient adult stature, and to be linearly related to height and to log weight. Changes observed over time are needed to relate BP levels in childhood to the early natural history of essential hypertension.
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PMID:Blood pressure of children, ages 2 1/2-5 1/2 years, in a total community--the Bogalusa heart study. 66 56

Electrocardiography has a useful place in general-practice cardiology:(1) by bringing to light unexpected findings thereby altering the diagnostic spectrum and, in some cases at least, management.(2) by acting as a monitor in the continuing management of patients suffering from some forms of cardiovascular disease, and, in particular, from essential hypertension.In 1970 the purchase of a ;Cambridge Transrite' 4-2 battery two-speed electrocardiograph made it possible to test the value of this working tool in a practice population of about 5,300 patients. Before this, members of the medical staff of the Department who needed electrocardiograms for any of their patients made the appointments with the Cardiology Department, The Royal Infirmary, Edinburgh, or, later, with the nearby Family Doctor Centre of the Scottish Home and Health Department.
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PMID:Three years' experience of electrocardiography in a general practice. 113 7

Insulin resistance is seen in several pathophysiological conditions, such as obesity, diabetes mellitus, and essential hypertension. This means that a greater than normal amount of insulin is needed to give a normal biological response. A major biochemical defect in insulin resistance seems to be a defect in the intracellular nonoxidative metabolism of glucose in muscle cells. However, in many individuals, there is also increased hepatic glucose output. The result of insulin resistance in individuals with normal insulin-secreting capacity is hyperinsulinemia, a potential risk factor for cardiovascular disease.
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PMID:Carbohydrate metabolism, insulin resistance, and metabolic cardiovascular syndrome. 128 63

The association between blood pressure and coronary artery disease may be caused by a concurrence of atherogenic biochemical abnormalities in hypertensive patients, i.e., the metabolic cardiovascular syndrome (increased total cholesterol, triglycerides, and insulin; decreased high-density lipoprotein (HDL) cholesterol; and insulin resistance, glucose intolerance, and blood platelet dysfunction). There are numerous reports of sympathetic nervous system overactivity in hypertensive subjects that could be of importance for the pathophysiology of the high blood pressure. Plasma catecholamines have metabolic hormonal effects at concentrations slightly above low normal resting levels. Even transiently and certainly chronically raised plasma catecholamine levels may cause biochemical abnormalities. Catecholamines may raise total cholesterol, triglycerides, and insulin, decrease HDL cholesterol, and cause insulin resistance and glucose intolerance, and recent evidence supports an in vivo influence of epinephrine on blood platelets, causing dysfunction in hypertensive subjects. Thus, the sympathetic nervous system may modulate the metabolic cardiovascular syndrome in essential hypertension. Hypertensive subjects may respond to environmental stimuli with larger sympathoadrenal responses than normal subjects. Furthermore, emotional stress has been associated with coronary artery disease. Thus, the metabolic hormonal effects of catecholamines, by causing the metabolic cardiovascular syndrome, may be the crucial link between "stress" and cardiovascular disease.
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PMID:The sympathetic nervous system may modulate the metabolic cardiovascular syndrome in essential hypertension. 128 68

A short review of the metabolic cardiovascular risk syndrome (MCVS) is given. Traditionally, cardiovascular risk has been associated with three so-called "main" risk factors; hypercholesterolemia, hypertension, and smoking. In addition, the association between diabetes and cardiovascular disease has been known for many years in clinical medicine. Primarily, these risk factors have been regarded separately as independent factors, although epidemiological studies showed intercorrelations between them. However, it is now well accepted that relatively few at-risk individuals have only one risk factor, and in many cases a whole "symphony" of factors play together to create what we might call an individuals' risk profile. As an example, very often essential hypertension has been regarded as a disease in itself, which can be successfully treated just by lowering the blood pressure by drugs. When such a strategy obviously failed, the association of elevated blood pressure with dyslipoproteinemia and impaired glucose tolerance attracted more attention, particularly when it was realized that many antihypertensive drugs affected risk in MCVS in a possible negative way. The most important etiologic factor of MCVS is (besides genetics) an excessive caloric intake compared to what the individual spends in physical activity. In the clinical setting, the most important findings of MCVS are central obesity, dyslipoproteinemia with low high-density lipoprotein (HDL) cholesterol, hypertension, reduced insulin sensitivity in peripheral tissues, and increased thrombogenicity. The reduced insulin sensitivity leads to a compensatory increase in beta-cell insulin production, and thereby hyperinsulinemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The metabolic cardiovascular syndrome: syndrome X, Reaven's syndrome, insulin resistance syndrome, atherothrombogenic syndrome. 128 71

Lipoprotein(a) (Lp(a)) has been established as an important independent risk factor for the development of cardiovascular disease. Apolipoprotein(a), together with apo B-100 the apolipoprotein of Lp(a), is homologeous to plasminogen but lacks fibrinolytic capacity and appeared to interfere with fibrinolysis in in vitro and ex vivo experiments. We determined the correlations between Lp(a) and other blood lipids (serum cholesterol, LDL-cholesterol, HDL-cholesterol, triglycerides), coagulation parameters (fibrinogen, factor VII, factor VIII:C fibrin monomers, thrombin-antithrombin III) and fibrinolysis parameters (tissue plasminogen activator antigen, plasminogen activator inhibitor-1 and D-dimer) in 54 patients with essential hypertension, in 65 non-insulin-dependent diabetic patients and in 116 insulin-regulated diabetic patients. Signs of activated coagulation and increased reactive fibrinolysis were found in all three patient groups. In the hypertensive patients, Lp(a) was significantly correlated with LDL-cholesterol (r = 0.25, P = 0.04) and triglycerides (r = -0.30, P = 0.03), while in insulin-regulated diabetics, Lp(a) was also correlated with LDL-cholesterol (r = 0.20, P = 0.03). In the hypertensive patients and both diabetic groups there was no correlation of Lp(a) with coagulation or fibrinolysis parameters. These data show that Lp(a) concentrations are not related to coagulation or fibrinolysis parameters in hypertensive or diabetic patients and confirm the presence of an activated coagulation system in these patient groups.
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PMID:Low order correlations of lipoprotein(a) with other blood lipids and with coagulation and fibrinolysis parameters in hypertensive and diabetic patients. 138 33

The hereditary nature of familial hypertension has been clearly established by a number of clinical studies. About 30% of the blood pressure variance can be attributed to genetic factors. As a consequence, the relative risk for developing coronary artery disease or cardiovascular death is increased in patients with a family history of hypertension and cardiovascular disease. Patients with such familial history should be considered at the same risk as those who have independent epidemiologic risk factors. The development of molecular genetics allows establishment of a link between high blood pressure, intermediate phenotypes, and the genes involved in blood pressure regulation. Gene markers should be available in the near future that will help to identify patients predisposed to hypertension. The genes of the renin-angiotensin-aldosterone system are good examples of candidate genes whose products are known to participate in blood pressure regulation. The possible involvement of these genes in essential hypertension is critically analyzed.
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PMID:Can the genetic factors influence the treatment of systemic hypertension? The case of the renin-angiotensin-aldosterone system. 141 20

The hypothesis of the atherogenic role of endogenous insulin was based on a series of epidemiological studies. Several large-scale prospective studies have demonstrated that diabetes constitutes an independent risk factor for cardiovascular disease. However, neither the duration of diabetes nor the blood glucose level appear to be predictive of the incidence of a cardiovascular accident. More recent prospective studies (Finland, Australia, Paris) in non-diabetic men have shown that hyperinsulinemia, while fasting or after glucose stimulation, constitutes a risk factor for fatal myocardial infarction, but they failed to show whether diabetes or the blood glucose level constituted a risk factor for the disease. Cross-sectional studies have provided similar results. Insulin resistance affects the majority of non-insulin-dependent diabetics and glucose-intolerant patients. It has also been observed in 25 percent of non-obese subjects with a normal glucose tolerance test. Associated hyperinsulinemia prevents the development of diabetes, but diabetes appears when the beta-cell function is altered and can no longer maintain this hyperinsulinemia. However, hyperinsulinemia is not devoid of cardiovascular consequences. Insulin resistance and hyperinsulinemia are also observed in patients with essential hypertension: a correlation between plasma insulin and blood pressure has been reported. These data, together with other experimental arguments, suggest that excessive endogenous insulin may participate in the rise in blood pressure. Furthermore, hypertensive patients have a high risk of coronary heart disease and this risk is not significantly decreased by anti-hypertensive treatments. This is probably related to the presence of other metabolic risk factors associated with insulin resistance: hyperinsulinemia, glucose intolerance, hypertriglyceridemia, decreased HDL cholesterol. These metabolic disorders have been grouped together under the term "syndrome X". All of these risk factors are probably also involved in the development of coronary heart disease in general population. In conclusion, epidemiological studies now suggest that insulin resistance and hyperinsulinemia increase the risk of hypertension and coronary heart disease. A great many experimental studies support this hypothesis. Lastly, it can be proposed that the increased cardiovascular risk in non-insulin-dependent diabetics is related to the fact that they belong to a larger group of insulin-resistant subjects. The management of diabetes, hypertension, and all of the metabolic abnormalities would appear to be the only way of reducing the incidence of cardiovascular disease.
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PMID:[Pathogenic role of hyperinsulinism in macroangiopathy. Epidemiological data]. 143 99


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