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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In 50 normotonic patients with type 2 diabetes (NIDDM) and controls matched for sex and age with NIDDM and hypertension a statistically significant difference was found as regards S-peptide values on fasting, cholesterol, triglycerides, BMI and atherogenic index (cholesterol/HDL, p < 0.01). C-peptide values correlated positively with values of the systolic and median BP and the atherogenic index in both groups. In normotonic diabetics there was also a positive correlation with the BMI and in hypertonic subjects with the triglyceride levels. The results confirm the hypothesis that in NIDDM there is a direct relationship between arterial hypertension, unfavourable lipid parameters and insulin resistance and compensatory hyperinsulinism resp. The authors discuss possible mechanisms by which hyperinsulinism mediates a rise of BP, hyperlipoproteinaemia, hyperglycaemia and hirsutism (hormonal metabolic syndrome X and 5H resp.). These phenomena are the main risk factors of cardiovascular diseases and lead via heart attacks and cerebrovascular attacks (IHD and stroke) to a high cardiovascular morbidity and mortality in our population. The morbidity and mortality is steadily increasing and thus we are among civilized countries among those with the highest morbidity and mortality.
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PMID:[Insulin resistance and arterial hypertension. Hyperinsulinism as a basic etiopathogenic factor in essential arterial hypertension and associated phenomena]. 148 85

The term X syndrome involves several dilemmas. The terminological dilemma is that this term is used to describe microvascular angina pectoris, as well as Reaven's metabolic-hormonal syndrome and our 5H syndrome [association of hyperinsulinism with arterial hypertension, hyperlipoproteinaemia, hyperglycaemia (NIDDM) and hirsutism]. It is probable that the coronary X syndrome is frequently conditioned by the hormonal-metabolic X syndrome. The pathogenetic dilemma is that it is not clear why in microvascular angina pectoris the coronary circulation does not possess an adequate reserve for vasodilatation during exercise or in response to some pharmacological stimuli. This could condition hyperinsulinism in hypertonic subjects with NIDDM with an early disorder of paracrine endothelial relaxation mechanisms (EDRF-NO), with a predominance of vasoconstrictor mechanisms (endothelin-1). In Reaven's syndrome X it is not clear whether insulin resistance of the postreceptor type is a primary inborn phenomenon which is compensated by insulin hypersecretion or whether it is a secondary phenomenon, which develops ex post and by which the target tissues defend themselves against an excessive effect of insulin (e.g. down regulation receptors) in primary disorders of its secretion.
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PMID:[The dilemma of syndrome X]. 149 65

The authors revealed during dispensarization of pregnant women suffering from essential hypertension that the disease is relatively frequently associated with some metabolic disorders, i. e. obesity, gestational diabetes or impaired glucose tolerance. They draw attention to a similarity with Reaven's syndrome in non-pregnant women. The authors recommend to screen for diabetes all obese pregnant women and those with hypertension to detect an impaired glucose metabolism and prevent foetopathies in neonates of thus affected mothers. The authors consider obesity one of the subsidiary criteria in the differential diagnosis of essential hypertension and preeclampsia.
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PMID:[Gestational diabetes mellitus and disorders of glucose tolerance in pregnant women with essential hypertension]. 149 70

We have studied hypertension, obesity, diabetes and hypercholesterolaemia in those aged 45-79 years in the Cretan low risk population of Spili (n = 249; attendance 82%) to see if these conditions interacted in the same way as previously described for high risk populations. Hypertension, diabetes, obesity, and hypercholesterolaemia were found to be at least as prevalent in Spili as in Sweden. Furthermore, the previously described 'Metabolic Syndrome X', with insulin resistance and hyperinsulinaemia as a common denominator also seemed to exist in the Spili population where patients with these conditions had higher insulin and C-peptide levels than normals. Our finding should be viewed against the low prevalence of past myocardial infarction in Cretan men from Spili reported by us and confirming the results of the Seven Countries Study.
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PMID:Characteristics of the 'metabolic syndrome X' in a cardiovascular low risk population in Crete. 843 84

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

Systemic arterial hypertension is not merely a simple haemodynamic abnormality. It is as frequently as in 80% associated with metabolic deviations such as impaired glucose tolerance or NIDDM, obesity, hyperuricaemia, hyperlipoproteinaemia, rapid development of atherosclerosis. This cluster of different symptoms with higher BP readings is too frequent to be incidental. We speak therefore of hypertensive metabolic syndrome which is close to or identical with Reaven's syndrome X or familial dyslipidaemic hypertension. The common pathogenetic basis of the listed metabolic deviations and hypertension is probably genetic or acquired reduction of tissue sensitivity, in particular striated muscle sensitivity to the physiological action of insulin. The consequence of this insulin resistance and the effort to maintain euglycaemia is a compensating adaptational risk of plasma insulin. Hyperinsulinism in addition to an increased synthesis of triacylglycerols, VLDL and LDL lipoproteins can promote the rise of BP by a complex mechanism: it stimulates the activity of the sympathetic nervous system, it promotes sodium retention in the kidneys, it affects transmembrane transport mechanisms for electrolytes and an increase of intracellular sodium and calcium, it stimulates hypertrophy and remodelling of the vascular wall and hastens the development of atherosclerosis. Hyperinsulinaemia is also associated with resistance of hypertonic patients to antihypertensive treatment. Its reduction by non-pharmacological procedures (reduction of body weight, physical activity etc.) restore the effectiveness of antihypertensive drugs. Insulin resistance is most probably a genetically conditioned abnormality which has multiple phenotypic manifestations, depending how this congenital disposition is amplified or associated with other genetic abnormalties or external and internal factors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The hypertensive metabolic syndrome]. 821 36

Authors call attention to the insulin-resistance and following hyperinsulinism, as important and may be also the basic factor, which is determining for high cardiovascular morbidity and mortality. Authors analyze the pathogenesis of the Reaven's syndrome X, syndrome 5H and their symptoms--insulin-resistance, hyperinsulinism, hyperlipemia with obesity, hypertension and eventually hirsutism. Authors analyze the congenital and acquired factors, which influence its manifestation and so occurrence of the cardiovascular diseases in the adulthood. In the past paediatricians gave little attention to this problem because they supposed the problem as the problem of the adult medicine. We can see that full 5H syndrome is only the top of the iceberg with basis in childhood. In the prevention of the cardiovascular diseases the task of the paediatricians is therefore not substitutable and in future they need to give to the X syndrome extraordinary attention.
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PMID:[Hyperinsulinism--a new pathogenic cause of cardiovascular diseases]. 849 16

There are striking similarities between Cushing's syndrome and the 'metabolic syndrome X' since both are characterised by hypertension, insulin resistance, glucose intolerance, hyperlipidaemia, and central obesity. The possibility that cortisol contributes to the associations between multiple risk factors for cardiovascular disease was rejected when it was demonstrated that there was no elevation in cortisol secretion or circulating concentration in patients with essential hypertension or type 2 diabetes mellitus. However, in recent years the enormous variability in tissue sensitivity to cortisol has become apparent. We have measured tissue sensitivity to glucocorticoids using an assay of skin vasoconstriction and have demonstrated its relationship with high blood pressure, insulin resistance, glucose intolerance, and hypertriglyceridaemia. Our data suggest that the increase in dermal glucocorticoid sensitivity is not a secondary phenomenon and may be explained by increased glucocorticoid receptor affinity together with impaired inactivation of cortisol by 11 beta-hydroxysteroid dehydrogenase. Importantly, we have not found that enhanced peripheral glucocorticoid sensitivity is associated with compensatory suppression of cortisol secretion, so that the maintenance of normal circulating cortisol concentrations in patients with cardiovascular risk factors may be paradoxical and inappropriate.
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PMID:Abnormal glucocorticoid activity in subjects with risk factors for cardiovascular disease. 896 30

Insulin resistance manifested by hyperinsulinism is an important risk factor for the development of cardiovascular diseases. When associated with characteristic disorders of the lipid metabolism and arterial hypertension it is regarded today as a metabolic syndrome X. To detect hyperinsulinism in patients with arterial hypertension in everyday practice, it is advisable to determine the rations "circumference of the waist, circumference of the hips", while its abnormal values necessitate a carbohydrate challenge. Hyperinsulinism in AH patients should be born in mind when devising therapeutic measures, the mainstay of which is dietary therapy, with Calcium antagonists and inhibitors of the converting enzyme being used as hypotensive agents.
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PMID:[Arterial hypertension and insulin resistance]. 898 88

Carbohydrate and lipid metabolism was cross-sectionally assessed in 16 patients with endogenous hypercortisolism (endogenous Cushing syndrome). Five patients (31%) had fasting glucose levels over 6.6 mmol/l and a HbA1C over 7.5%. Six patients (38%) had diabetes mellitus based on an abnormal 75 g oral glucose tolerance test (OGTT) and two additional patients (13%) had impaired glucose tolerance based on an OGTT. Compared to obese individuals, patients with Cushing syndrome had an elevated glucose but no elevated insulin response to the OGTT. Regression analysis showed positive correlations between 24-h urinary free cortisol (UFC) and fasting blood glucose (P < 0.0005), UFC and OGTT glucose area under the curve (AUC) (P < 0.01), and UFC and HbA1C (P < 0.005). UFC levels were negatively correlated (P < 0.05) with OGTT insulin AUC and insulin/glucose ratios. Eleven (69%) patients required anti-hypertensive therapy for blood pressure control. Total cholesterol and triglycerides were elevated in patients with Cushing syndrome compared to obese controls, while LDL and HDL cholesterol, and Lp(a) were similar in the two groups. We conclude that impaired glucose tolerance and/or diabetes in patients with endogenous Cushing syndrome is due to the hyperglycemic effects of cortisol with relative insulinopenia. Thus, Cushing syndrome shares features with both the Metabolic Syndrome X and NIDDM, including impaired glucose uptake, hyperlipidemia and hypertension. However, in Cushing syndrome, a relative insulinopenia occurs, while in Metabolic Syndrome X and NIDDM, insulin excess is observed. In Cushing syndrome, as the hypercortisolemia exacerbates, insulinopenia becomes more paramount, suggesting that cortisol exerts a direct or indirect "toxic" effect on the beta-cell.
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PMID:Carbohydrate and lipid metabolism in endogenous hypercortisolism: shared features with metabolic syndrome X and NIDDM. 907 4


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