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

Glucose intolerance and noninsulin-dependent diabetes are commonly associated with hypertension. Epidemiological data suggest that this association is independent of age and obesity. Much evidence indicates that the link between diabetes and essential hypertension is hyperinsulinemia. When hypertensive patients whether obese or of normal weight are compared with matched normotensive control subjects, an increased plasma insulin response to a glucose challenge is consistently observed. Studies using insulin glucose clamp techniques in combination with tracer glucose infusion and indirect calorimetry have demonstrated that the insulin resistance in hypertensive subjects is located in muscles and restricted to glycogen synthesis. The relations between hyperinsulinemia and blood pressure do not prove that the relationship is a causal one. However, at least four mechanisms may link hyperinsulinemia with hypertension: Na+ retention, sympathetic nervous system overactivity, disturbed membrane ion transport and proliferation of vascular smooth muscle cells. Diuretics and beta-blockers may enhance insulin resistance, which is not affected by calcium antagonists, but decreased by the ACE inhibitor captopril. Weight reduction and regular physical exercise can improve insulin sensitivity and decrease blood pressure values. These nonpharmacological interventions should be more strongly recommended to diabetic and nondiabetic hypertensive patients.
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PMID:Hyperinsulinemia, insulin resistance and essential hypertension. 130 12

In an open two-month study with an initial placebo period, the effect of enalapril on glucose tolerance, insulin (IRI) sensitivity and lipid profile was evaluated in 20 patients with mild to moderate essential hypertension. The following results were obtained: 1. Enalapril produced a favourable effect of blood pressure both in monotherapy and if combined with a diuretic. 2. Therapy did not lead to significant differences in blood glucose, IRI or IRI/glucose increase at 1 or 2 hours of oral glucose tolerance test either in patients with monotherapy or combination therapy, and with normal or disturbed glucose tolerance, respectively. 3. Serum lipids (total and HDL-cholesterol and triglycerides) did not change significantly in any group of patients.
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PMID:Metabolic effects of enalapril in the treatment of essential hypertension. 130 25

The digitalis-like substance (DLS), insulin resistance, and hyperglycemia are ascribed important roles in the pathogenesis of essential hypertension. The relationship between DLS and glycemia (insulinemia) was investigated in the present study. The levels of glycemia, insulinemia and DLS were measured during oral glucose load in a group of 18 subjects with various blood pressure values. Fasting levels of glycemia and insulinemia were in each subject within the physiological range and no correlation was found to exist between the fasting levels of DLS and glycemia (insulinemia). One hour after oral glucose load the increase of glycemia and insulinemia was significantly higher in the group of subjects with SBP > 140 and/or DBP > 90 mmHg than in normotensive subjects (p < 0.001). The increase in glycemia (insulinemia) was followed by a decrease of DLS. This contrary trend could be expressed as a significant inverse correlation between the change in plasma DLS and the change in glycemia (r = -0.660 p = 0.0039), and also between the change in plasma DLS and the change insulinemia (r = -0.687 p = 0.0023). These findings are assumed to suggest certain mechanisms involved in the pathophysiology of essential hypertension. (Tab. 3, Fig. 2, Ref. 20.)
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PMID:[Endogenous digitalis-like substance in relation to glycemia and insulinemia]. 133 11

Insulin resistance is a frequently occurring abnormality. Although there can be insensitivity to any of insulin's actions, insulin resistance par excellence is a decreased insulin-mediated whole-body glucose disposal rate. A distinction is made between primary and secondary insulin resistance. Primary insulin resistance is of unknown origin, is only partially experimentally reproducible, and is essentially irreversible (spontaneously or by treatment). In addition, it is both pathway-specific (ie, glucose storage) and organ-specific (mostly skeletal muscle), and is compatible with a postreceptor defect in insulin action. Primary insulin resistance is found in a proportion (approximately 25%) of otherwise healthy people, in non-insulin-dependent diabetes mellitus, essential hypertension, and some forms of dyslipidemia. The idea of an insulin resistance syndrome derives from the striking pattern of overlap among these clinical conditions. Their tendency to cluster in the same individuals is evident from both cross-sectional and longitudinal observations. It is proposed that the insulin resistance syndrome is a large constellation of interrelated changes in metabolic, anthropometric, and hemodynamic variables centered around insulin resistance or hyperinsulinemia. There is a significant genetic component, a predisposing influence for non-insulin-dependent diabetes mellitus, hypertension, dyslipidemia, and possibly, a distinct atherogenic potential.
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PMID:The insulin resistance syndrome. 134 29

Both haemodynamic and metabolic variables have been shown to be related to the fibre composition and capillary density of skeletal muscle in man. In the present study, the change of several metabolic variables during beta-blockade was investigated and related to muscle fibre composition and capillary density in 28 men with essential hypertension. They had been given atenolol (50 mg/day) or metoprolol (200 mg/day) or propranolol (160 mg/day) for 4-12 months. Serum triglycerides increased during treatment and individual changes were significantly inversely correlated with capillary density. Insulin concentrations in the fasting state and at the end of an i.v. glucose tolerance test were significantly higher during beta-blockade, and individual changes were inversely correlated with capillary density. Furthermore, body weight increased and heart rate decreased, changes that were also correlated with capillary density. It is concluded that many of the previously but poorly understood large interindividual differences in response to beta-blocker treatment may be explained by the degree of development of the capillary net in muscle tissue. Obesity, physical training as well as genetic factors are known determinants of capillary density.
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PMID:The metabolic and circulatory response to beta-blockade in hypertensive men is correlated to muscle capillary density. 136 76

A double-blind, placebo-controlled study was carried out over 120 days to assess the metabolic tolerance and patient acceptability of nicardipine in 20 patients with Type 2 diabetes mellitus and slight hypertension. Following a 21-day washout period during which all patients received placebo, 13 men and 7 women (mean age 45 years, systolic blood pressure 150-165 mm Hg or diastolic blood pressure 85-100 mm Hg) were randomly assigned to treatment with oral nicardipine 60-90 mg/day (n = 9) or placebo (n = 11). No significant differences were observed between the nicardipine- and placebo-treated groups in terms of fasting and postprandial blood glucose concentrations, fasting plasma insulin levels, or glycosylated hemoglobin A1c after 60 and 120 days' treatment. There was also no change in the plasma levels of total cholesterol, HDL-cholesterol, triglycerides, and apolipoproteins. Side effects were minor and did not differ significantly between groups. All patients who had received nicardipine for 120 days wished to pursue treatment. Nicardipine, which was well tolerated, appears to be an interesting alternative for the treatment of mild essential hypertension in Type 2 diabetic patients, although further studies are required to establish its effects on renal function in this population.
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PMID:The influence of nicardipine in type 2 diabetic patients with slight hypertension. 136 5

Two hundred forty-seven [142 women (57.49%)] elderly patients with essential hypertension (diastolic blood pressure between 95 and 114 mm Hg) and an average age of 67.4 +/- 6 years were included in an open multicenter ambulatory trial. One hundred thirty-seven had some kind of associated disease. After a 15-day washout period, the patients began nitrendipine therapy (10 mg o.d.). After 1 month, the dose was increased to 20 mg o.d. in patients with diastolic blood pressure (DPB) greater than or equal to 95 mm Hg, and thereafter 5 and 10 mg o.d. of bisoprolol was added to the maximal dose of nitrendipine (20 mg o.d.) in the case of patients with DBP greater than or equal to 95 mm Hg at the end of the second and third months, respectively. At the end of the 6-month follow-up period, the systolic and diastolic pressures had dropped -35 and -21 mm Hg, respectively, without any change in heart rate or Quetelet index. In 210 patients (84.9%), blood pressure control was achieved: 26 (10.5%) with 10 mg of nitrendipine, 149 (60.3%) with 20 mg of nitrendipine, and 35 (14.1%) by adding bisoprolol. The lipid profile, glucose, potassium, uric acid, or creatinine did not change negatively. Sixty-six (26.72%) patients reported clinical side effects, although these were mild; only 15 (6.07%) patients were excluded because of side effects. Nitrendipine has been shown to have a high therapeutic efficacy and biochemical tolerance for first-line treatment of elderly patients with mild-to-moderate essential hypertension with or without associated diseases.
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PMID:Nitrendipine in the therapeutic management of elderly hypertensive patients: results of a multicenter trial. Andalousian Hypertension Group. 137 2

The safety and tolerability of carvedilol, a new antihypertensive agent with the combined pharmacological activities of beta-blockade and vasodilation, and of nifedipine were investigated in patients with essential hypertension and non-insulin-dependent (type II) diabetes mellitus. Twenty patients were openly randomized to receive 25 mg carvedilol once daily (five men and five women; mean age, 63 years) or 10 mg nifedipine t.i.d. (three men and seven women; mean age, 64 years) for a period of 4 weeks. Baseline mean sitting blood pressures were 168/98 and 169/95 mm Hg in the carvedilol and nifedipine groups, respectively. Baseline mean areas under the curve (AUC) of the intravenous glucose tolerance test (IVGTT) for the carvedilol and nifedipine groups were 6,136 +/- 1,195 and 6,287 +/- 1,228 mg/dl/min, respectively. Demographic and efficacy variables were not statistically different between treatment groups. After 4 weeks of therapy, mean sitting blood pressure was significantly (p less than 0.02) reduced to 144/91 mm Hg in the carvedilol group and to 149/87 mm Hg in the nifedipine group. Week 4 IVGTT AUC values of 5,735 +/- 1,464 mg/dl/min in the carvedilol group and 5,988 +/- 993 mg/dl/min in the nifedipine group, representing mean reductions of 6.14% and 3.17%, respectively, were not statistically different from baseline. Both treatments were well tolerated. No patient experienced adverse events in the carvedilol treatment group, whereas two patients in the nifedipine group reported episodes of headache (one patient) and palpitations (one patient); each episode was mild in severity and considered to be related to study medication.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of the effects of carvedilol and nifedipine in patients with essential hypertension and non-insulin-dependent diabetes mellitus. 137 56

Hypertension and diabetes mellitus are strongly associated conditions from epidemiologic, genetic, and pathophysiologic points of view. The prevalence of hypertension is high in patients with diabetes, and, conversely, many patients with essential hypertension are glucose intolerant. Proteinuria appears in 40-50% of patients with insulin-dependent diabetes mellitus and 20-30% of patients with non-insulin-dependent diabetes mellitus. Progressive renal failure occurs in 30-40 and 3-8% of patients, respectively, hypertension being a leading factor in its rate of progression. In various animal experiments, ACE inhibitors are able to prevent proteinuria and glomerular sclerosis, presumably by lowering transglomerular capillary pressure. In the diabetic human, ACE inhibitors are powerful antihypertensive drugs, devoid of metabolic side effects. Clinical studies indicate that ACE inhibitors reduce proteinuria and possibly slow the rate of decline in renal function. Such an effect is not observed with beta-blockers. Large-scale studies are needed to confirm this very important hypothesis.
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PMID:Angiotensin-converting enzyme inhibition and diabetic nephropathy. 138 63

We have investigated the cellular basis for the clinical and epidemiologic linkage of hypertension, left ventricular hypertrophy (LVH), obesity, and non-insulin-dependent diabetes mellitus (NIDDM) and have studied cytosolic free calcium and free magnesium levels in these syndromes. Specifically, intracellular free calcium is elevated and free magnesium is deficient in hypertension, and both are related (directly and inversely, respectively) to the ambient level of blood pressure, to LV mass index (and thus to the degree of cardiac hypertrophy), and to the hyperinsulinemia and insulin resistance of essential hypertension. Dynamically, the ability of dietary salt loading to elevate blood pressure corresponds to its ability to elevate cytosolic free calcium and reciprocally to suppress free magnesium levels. Conversely, the ability of calcium channel blockade to reverse salt-induced hypertension is related to its ability to prevent these transmembrane ionic effects. Higher steady-state free calcium or lower free magnesium, or both, are also observed in clinical states linked to hypertension, such as obesity and NIDDM. Oral glucose loading in normal subjects itself elevates free calcium and suppresses free magnesium levels, as does hyperglycemia in vitro. These data suggest an ionic hypothesis of cardiovascular and metabolic disease, in which a generalized defect in cell ion handling is present in all tissues, resulting in higher steady-state free calcium and lower free magnesium levels. In pancreatic beta cells, this would produce hyperinsulinemia; in fat and skeletal muscle, cause peripheral insulin resistance; and in renal tissue, increase proximal sodium resorption and increase urinary calcium excretion--all features of essential hypertension. In vascular smooth muscle, high cytosolic free calcium would increase smooth muscle tone and cause vasoconstriction, and in heart muscle, independent of blood pressure, would increase contractility and predispose to LVH. Therefore, what may appear clinically to be the separate syndromes of hypertension, obesity, and NIDDM may pathophysiologically be different manifestations of the same underlying cellular defect, thus explaining their frequent clinical coexistence. Therapeutically, reversal of this excess free calcium accumulation and/or free magnesium deficit with ion-specific agents, such as calcium channel blocking drugs, may thus ameliorate not only the elevated blood pressure of hypertension but also the concurrent excess morbidity and mortality of the concurrent cardiac, vascular, and metabolic aspects of the hypertensive state.
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PMID:Cellular calcium and magnesium metabolism in the pathophysiology and treatment of hypertension and related metabolic disorders. 138 62


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