Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The author summarizes mechanisms by which insulin resistance and compensatory hyperinsulinism are manifested in the clinical picture. He divides the mechanisms into prereceptor, receptor and postreceptor mechanisms. The latter dominate in the population quantitatively and thus also by their impact because they create the so-called 5H syndrome (association of hyperinsulinism with hyperglycaemia (NIDDM), hyperlipoproteinaemia, hypertension, hirsutism and the polycystic ovary syndrome) or the so-called hormonal metabolic syndrome X, lethal tetrad, metabolic syndrome, syndrome of insulin resistance). The term syndrome X does not appear suitable as it is frequently mistaken for coronary X syndrome which probably is also conditioned by hyperinsulinism, for the hormonal metabolic X syndrome and probably also fot the "fragile X syndrome" in genetics. The 5H syndrome is caused by a postreceptor disorder of insulin efficiency for which so far the molecular basis and dominating organ site have not yet been defined adequately. Hyperinsulinism is conceived as an insulin resistance compensating phenomenon. In its development participates, however, in addition to compensatory hypersecretion also impaired insulin utilization (liver, muscles) and an impaired primary secretory response caused probably by a disorder of blood sugar control (glucokinase, GLUT 2). This is suggested by the frequently inadequate response of the blood sugar level, IRI and C-peptide during the oral glucose tolerance test (OGGT). A hyperinsulinaemic response may be encountered when the blood sugar curve is normal, flat, in impaired glucose tolerance and in diabetes. Thus OGGT alone is not suited for the early detection of the 5H syndrome unless concurrently the IRI and C-peptide response is recorded.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Clinical manifestations of the insulin resistance syndrome. The hormonal-metabolic syndrome X, the 5H syndrome and their etiopathogenesis]. 772 46

Type IIB muscle fibres are among the most insulin-insensitive muscle fibres and are not adapted to oxidation of fat during muscle work. The first characteristic of this type of muscle fibre most probably reflects or contributes to further development of insulin resistance contribute to further perpetuation of obesity and to the channeling of excess free fatty acids to the liver followed by secondary deterioration of its function. The impaired functioning of the liver is epitomized, among other changes, by impairment of insulin extraction. The increasing hyperinsulinaemia is followed by inhibition of synthesis of specific proteins such as carrier proteins for transporting testosterone (sex hormone binding globulin, SHBG). This results in an increased free testosterone concentration which induces androgenization in women and may further increase insulin insensitivity in abdominal obesity in women. The poor capillarization and changed muscle morphology in spite of great interindividual variety is observed in several pathological conditions characterised by insulin sensitivity (stroke, PCO, hypertension, diabetes, obesity). It is suggested that, in addition to the previous concept of the main role of intraabdominal adipose tissue, even muscles and liver are also important organs contributing to the pathogenesis and development of the metabolic syndrome.
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PMID:Role of muscle morphology in the development of insulin resistance and metabolic syndrome. 783 Dec 32

Despite recent progress in therapy and management of diabetes mellitus, diabetes remains a serious disease with life-threatening complications. It is by far the most common metabolic disease and affects 5% of the population in industrialized countries. Noninsulin-dependent diabetes mellitus (NIDDM) is a complex disorder characterized by insulin resistance and impaired insulin secretion and is associated with an increased risk of coronary heart disease, peripheral vascular disease, arterial hypertension and dyslipidemia. Predisposing factors for NIDDM are obesity and a family history of diabetes. Greater physical activity has been associated inversely with the prevalence of NIDDM in several cross-sectional studies. Physical activity increases the sensitivity to insulin, and regular endurance exercise can induce and maintain weight loss, improve glucose tolerance and ameliorate most of the abnormalities in the metabolic syndrome. Type I diabetes mellitus arises as a consequence of immunologically mediated pancreatic islet beta-cell destruction in genetically susceptible individuals. It is an insidious process that may occur over years. During the stage of disease evolution (prediabetes), individuals may be identified by the presence of immunological markers and a decline of beta-cell function. The autoimmune nature of the disease process has led to attempts to stop this process by immune intervention strategies. A variety of immune interventions has been used, some immunosuppressive and some immunomodulatory. Several screening programs are used in order to identify high-risk subjects (i.e. first-degree relatives of individuals with type I diabetes) who may benefit from an early intervention. The ultimate goal of all these efforts is to prevent the development of overt type I diabetes mellitus in those at risk for the disease, using strategies that are both safe and specific. This review summarizes the results of the various studies conducted to date and outlines the approaches currently being tested.
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PMID:[Is prevention of diabetes mellitus possible?]. 783 27

The individual components of the metabolic syndrome such as central obesity, dyslipidemia with increased triglycerides and decreased HDL-cholesterol, hyperuricemia, hypertension and progressive glucose intolerance are markers for an increased risk of atheroma and type 2 (non-insulin-dependent) diabetes. All components, with the exception of hyperuricemia, are associated with skeletal muscle insulin resistance, leading to compensatory chronic hyperinsulinemia. Insulin resistance/hyperinsulinemia, in turn, is associated with a series of hypertensiogenic and atherogenic side effects, aggravating the individual components of the metabolic syndrome. From a more pathophysiologically orientated point of view, early identification of individuals obviously at risk for atheroma and type 2 diabetes, as well as early intervention aimed at the improvement of reduced insulin action may play a central role in an integrated life-style approach of primary prevention of atherosclerosis and type 2 diabetes.
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PMID:[The metabolic syndrome. Pathophysiologic causes, diagnosis, therapy]. 784 93

About 3 decades ago insulin resistance has been described as the pathogenetic factor leading from abnormal fat metabolism to diabetes mellitus. Within the metabolic syndrome insulin resistance is related to the upper body (android) type of obesity, hypertriglyceridaemia, hypertension, and diabetes mellitus ("deadly quartet"). It precedes the development of arterial hypertension and the metabolic disorders. The pathomechanisms leading from obesity and hypertriglyceridaemia to insulin resistance may be described by the glucose fatty acid cycle of Randle et al. According to their metabolic scheme increased supply of fatty acids results in reduced glucose oxidation. Concomittantly hepatic glucose production is increased. On the other hand insulin resistance combined with hyperinsulinaemia may lead to an elevation of VLDL-triglycerides and to a decrease of HDL-cholesterol in blood, thus creating a vicious cycle, in which elevated VLDL-triglycerides reinforce insulin resistance via the glucose fatty acid cycle. Interventions to improve insulin sensitivity and thereby lower plasma insulin should reduce obesity and hypertriglyceridaemia by dietary treatment. They usually improve promptly diabetic metabolism. New developments in pharmacological inhibition of fatty acid oxidation are discussed.
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PMID:[Lipid metabolism and insulin resistance--clinical aspects and pathobiochemistry]. 784 95

The metabolic syndrome is characterized by cluster-like occurrence of various risk-factors for vascular disease: overweight, hypertension, hyperlipidemia, hyperproteinuria. In the pathogenesis of this syndrome the peripheral resistance to insulin leading to hyperinsulinemia plays most likely a central role, as the development of individual components of the metabolic syndrome may causally be explained in this way. Various possible explanations exist for the development of insulin resistance: on the receptor level, as a result of changes in the capillary bed or in muscle fiber composition, or resulting from disturbed circulation of muscles. Clinical symptoms of hyperinsulinemia are hypertension, lipodystrophy, and type II diabetes. Patients with metabolic syndrome represent a group at high risk for arteriosclerotic vascular disease. Therapy aims primarily at reduction of hyperinsulinemia as the underlying factor. In particular non-medical intervention plays an important role (reduction of body weight, exercise). In drug therapy of hypertension only such antihypertensives which remain neutral to metabolism should be applied, i.e., ACE-inhibitors which even improve the metabolic condition.
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PMID:[ACE inhibitor in metabolic syndrome]. 785 77

We investigated the association between fasting insulin concentration--an indicator of insulin resistance in nondiabetic individuals--cardiovascular risk factors, and coronary heart disease in a study of 390 men in the town of Zutphen. In 1990, an extensive examination was carried out on the participating men (aged 70 to 89 years). Fasting insulin levels were determined and a number of other risk factors measured. Known and newly diagnosed diabetics were excluded from the data analyses. Fasting insulin concentration was significantly associated with levels of glucose, triglycerides, uric acid, serum albumin, creatinine, and fibrinogen as well as resting heart rate. Inverse associations with high-density lipoprotein cholesterol and factor VII activity were observed. These results were independent of confounding factors such as age, body mass index, ratio of subscapular to triceps skinfold thicknesses, cigarette smoking, physical activity, and alcohol consumption. Men with a fasting insulin level higher than 80 pmol/L (highest quartile of the distribution) had a significantly higher prevalence of coronary heart disease and especially of myocardial infarction. This result was independent of potential confounding variables as well as of possible intermediates (total and high-density lipoprotein cholesterol, hypertension, serum triglycerides, fasting glucose, and other risk factors related to fasting insulin) (odds ratio, 2.2; 95% confidence interval, 1.2-4.0). No association between fasting insulin level and hypertension or blood pressure was observed. These results show that fasting insulin is an important indicator of coronary heart disease in elderly men. Clotting factors, resting heart rate, uric acid, serum albumin, and creatinine may also play a role in this metabolic syndrome.
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PMID:Hyperinsulinemia, risk factors, and coronary heart disease. The Zutphen Elderly Study. 791 15

Primary hypertension is a frequent polygenic disease with strong genetic and environmental components. During the last decade, evidence has been increasing that insulin resistance as a marker of increased risk for Type 2 diabetes and cardiovascular atherosclerotic disease is present not only in individuals with obesity, Type 2 diabetes and impaired glucose tolerance, but also in the majority of the hypertensive population. Insulin resistance describes a tissue- and pathway-specific defect of glucose metabolism present in the so called 'metabolic syndrome'. Hyperinsulinaemia compensates for insulin resistance, leading to a cluster of undesirable processes predisposing to diabetes, atheroma and, directly or indirectly, hypertension. Candidate mechanisms whereby this metabolic syndrome might lead to hypertension include renal sodium retention, vascular hyperresponsiveness, arteriolar smooth muscle cell proliferation, altered cellular electrolyte transport and composition, stimulation of sympatho-adrenergic activity and growth promoting effects. Insulin per se does not appear to be the cause of elevated blood pressure as frequently seen in insulin-resistant states, but it may act with other factors to promote hypertension and atherosclerotic cardiovascular disease.
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PMID:New aspects of insulin resistance in hypertension. 799 75

At least one fourth of the population has an elevated serum insulin concentration. In the majority diabetes is not involved but one of the symptoms of insulin resistance. The picture comprises also signs of the metabolic syndrome (impaired carbohydrate tolerance, dyslipidaemia and hypertension), as well as other less well known manifestations such as hyperuricaemia, the android type of obesity, impaired fibrinolysis, changes in the fatty acid composition. Manifestations of IHD may be also present. The gene is transmitted in families and hyperinsulinaemia may precede all other symptoms. There are procedures how to control insulin resistance: therefore it is essential to learn how diagnose its comprehensive clinical picture and provide treatment before life endangering complications develop.
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PMID:[Insulin resistance, hypertension and atherosclerosis]. 808 9

Evaluation of metabolic disturbances has had an important role in the modification of oral contraceptive formulations toward estrogen-progestin combinations with reduced adverse metabolic impact. An increasing number of interrelationships between metabolic risk factors for cardiovascular disease are being recognized, and a metabolic syndrome of disturbances has been identified with insulin resistance as a potential underlying factor. The insulin resistance syndrome includes hyperinsulinemia and impaired glucose tolerance, hypertriglyceridemia, reduced high-density lipoprotein concentrations, and hypertension. Increased concentration of a small, dense, low-density lipoprotein subtype may also be important. Depending on steroid type and dose, combined oral contraceptives may induce all the features of the insulin resistance syndrome. Reduction in estrogen dose and modification of progestin content have resulted in formulations with no adverse effect on high-density lipoprotein and blood pressure, but insulin resistance and hypertriglyceridemia remain. These are caused primarily by the estrogen component. Therefore modification of the estrogen content of oral contraceptives might result in "metabolically transparent" formulations that could conceivably afford a degree of cardiovascular protection.
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PMID:Update on the metabolic effects of steroidal contraceptives and their relationship to cardiovascular disease risk. 817 2


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