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Recent research has demonstrated that reduced insulin-stimulated glucose metabolism in skeletal muscle (insulin resistance) and hyperinsulinism are common features in widespread diseases such as essential hypertension, android obesity, non-insulin dependent diabetes mellitus, dyslipidemia (in the form of raised serum triglyceride and reduced serum high-density lipoprotein (HDL) cholesterol) and arteriosclerosis. Simultaneously, investigations in a comprehensive group of healthy middle-aged men have revealed insulin resistance in one fourth. On the basis of these observations, a working hypothesis is suggested which postulates that genetic abnormalities in one or more of the candidate genes in the modes of action of insulin occur in a great proportion of the population. These may result in insulin resistance (primary genetic insulin resistance). Primary insulin resistance may be potentiated by a series of circumstances such as ageing, high-fat diet, lack of physical activity, hormonal and metabolic abnormalities or drugs (secondary insulin resistance). As a consequence of the reduced effect of insulin on muscle tissue, compensatory hyperinsulinism develops. Depending on the remaining vulnerability of the individual the hyperinsulinism is presumed to result in development of one or more phenotypes. For example if the beta-cells of the pancreas are unable to secrete sufficient insulin to compensate the insulin resistance on account of genetic defects, glucose intolerance will develop. In a similar manner, hyperinsulinism in insulin-resistant individuals who are predisposed to essential hypertension is presumed to reveal genetic defects in the blood pressure regulating mechanisms and thus contribute to development of the disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Insulin resistance--a physiopathological condition with numerous sequelae: non-insulin-dependent diabetes mellitus (NIDDM), android obesity, essential hypertension, dyslipidemia and atherosclerosis]. 163 67

Hypertension is only one component of a multifaceted metabolic-hemodynamic complex that also includes obesity, subtle and overt glucose intolerance, dyslipidemia, enhanced vascular resistance and accelerated atherosclerosis. Results of a number of studies in the past 5 years have shown that even nonobese, nondiabetic individuals with hypertension display insulin resistance, which is located in peripheral tissues (primarily skeletal muscle), is limited to nonoxidative pathways of glucose disposal, and appears to be directly correlated with the severity of hypertension. Insulin resistance and associated hyperinsulinemia in hypertensive individuals are also associated with increased plasma triglyceride levels and decreased high-density lipoprotein concentrations, which likely contributes to enhanced atherosclerosis. Hyperinsulinemia may directly promote atherosclerosis by enhancing LDL-cholesterol accumulation in vessel walls, vascular smooth muscle migration, and proliferation, augmenting connective tissue synthesis in the vascular wall, and decreasing the regression of lipid plaques. The enhanced peripheral vascular resistance that characterizes insulin resistance/hyperinsulinemic states may be related to decreased vascular smooth muscle responses to insulin, which normally modulates (attenuates) vascular contractile responses to vasoactive agents.
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PMID:Insulin resistance, hyperinsulinemia, dyslipidemia, hypertension, and accelerated atherosclerosis. 163 39

The objective of treating patients with hypertension is not simply to reduce blood pressure but rather to prevent the associated morbidity and mortality. Recent assessments of clinical trials have shown that while the risk of stroke is consistently lower with antihypertensive therapy, the same degree of success has not been demonstrated for coronary artery disease (CAD). Although there are many explanations of why we have not done as well in preventing CAD, one possibility is that the therapy used in clinical trials, primarily thiazide diuretics and beta-adrenoreceptor blockers, has increased the patient's risk of developing coronary atherosclerosis or lethal arrhythmias. Four classes of antihypertensive agents are recommended for initial therapy--thiazide diuretics, beta-adrenoreceptor blockers, angiotensin-converting enzyme (ACE) inhibitors, and calcium entry blockers. The metabolic effects of thiazide diuretics include electrolyte disturbances (hypokalemia, hypomagnesemia, and hyponatremia), dyslipidemia (increased triglycerides), abnormalities of glucose metabolism (hyperglycemia, hyperinsulinemia, and peripheral insulin resistance), and hyperuricemia. beta-Adrenoreceptor blockers have many of the same metabolic adverse reactions. beta-Adrenoreceptor blockers without intrinsic sympathomimetic activity (ISA) also cause dyslipidemias (lowered high-density lipoprotein cholesterol and increased triglycerides) and abnormalities of glucose metabolism (hyperglycemia, hyperinsulinemia, and peripheral insulin resistance). beta-Adrenoreceptor blockers with ISA and third-generation beta-blockers with selective partial agonist activity (celiprolol and dilevalol) do not cause dyslipidemia and to date do not appear to induce abnormalities in glucose metabolism. ACE inhibitors may decrease triglycerides and increase high-density lipoprotein cholesterol, and captopril may improve insulin sensitivity. Calcium entry blockers are metabolically neutral.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolic considerations in the choice of therapy for the patient with hypertension. 167 Nov 90

Epidemiological evidence supports a link between hyperinsulinemia and blood pressure. In nondiabetic, normotensive individuals, the male sex, age, obesity, and body fat distribution all are associated with higher systolic and diastolic blood pressure and with higher plasma insulin concentrations. Nevertheless, when accounting for the above physiological variables, blood pressure still is independently related to plasma insulin. In the general population, hypertensive individuals have multiple metabolic abnormalities (glucose intolerance, hyperinsulinemia, and dyslipidemia). A striking pattern of overlap exists among obesity, diabetes, and hypertension. Physiological studies (euglycemic insulin clamp) have shown that essential hypertension per se is a state of insulin resistance: lean, nondiabetic subjects with untreated hypertension have a mean 40% reduction in the ability of physiological hyperinsulinemia to stimulate whole-body glucose uptake. Other insulin actions (suppression of hepatic glucose output, lipolysis, lipid oxidation, and promotion of K+ uptake) are conspicuously preserved. In perfused forearm studies, local (intra-arterial) hyperinsulinemia induces subnormal rates of glucose uptake and glycogen synthesis in the skeletal muscle of individuals with essential hypertension. In the San Antonio Heart Study, parental history of non-insulin-dependent diabetes mellitus (NIDDM) is associated with hyperinsulinemia and higher blood pressure and serum lipid levels in nondiabetic probands. In this biethnic population, however, hyperinsulinemia and NIDDM are more prevalent (approximately threefold) among Mexican-Americans than non-Hispanic whites, but hypertension is more prevalent among the latter.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Essential hypertension: an insulin-resistant state. 169 27

Non-insulin-dependent (type II) diabetes mellitus is an inherited metabolic disorder characterized by hyperglycemia with resistance to ketosis. The onset is usually after age 40 years. Patients are variably symptomatic and frequently obese, hyperlipidemic and hypertensive. Clinical, pathological and biochemical evidence suggests that the disease is caused by a combined defect of insulin secretion and insulin resistance. Goals in the treatment of hyperglycemia, dyslipidemia and hypertension should be appropriate to the patient's age, the status of diabetic complications and the safety of the regimen. Nonpharmacologic management includes meal planning to achieve a suitable weight, such that carbohydrates supply 50% to 60% of the daily energy intake, with limitation of saturated fats, cholesterol and salt when indicated, and physical activity appropriate to the patient's age and cardiovascular status. Follow-up should include regular visits with the physician, access to diabetes education, self-monitoring of the blood or urine glucose level and laboratory-based measurement of the plasma levels of glucose and glycated hemoglobin. If unacceptably high plasma glucose levels (e.g., 8 mmol/L or more before meals) persist the use of orally given hypoglycemic agents (a sulfonylurea agent or metformin or both) is indicated. Temporary insulin therapy may be needed during intercurrent illness, surgery or pregnancy. Long-term insulin therapy is recommended in patients with continuing symptoms or hyperglycemia despite treatment with diet modification and orally given hypoglycemic agents. The risk of pancreatitis may be reduced by treating severe hypertriglyceridemia (fasting serum level greater than 10 mmol/L) and atherosclerotic disease through dietary and, if necessary, pharmacologic management of dyslipidemia. Antihypertensive agents are available that have fewer adverse metabolic effects than thiazides and beta-adrenergic receptor blockers. New drugs are being developed that will enhance effective insulin secretion and action and inhibit the progress of complications.
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PMID:Non-insulin-dependent (type II) diabetes mellitus. 174 94

Hyperinsulinaemia links non-insulin dependent diabetes (NIDDM), obesity, and hypertension, each an insulin-resistant state in its own right. Insulin resistance predicts the occurrence of NIDDM, and plays a major role in its pathogenesis. We tested the hypothesis that hyperinsulinaemia may also predict hypertension in a sample (n = 2905) of the mixed population of San Antonio, in which hyperinsulinaemia and NIDDM are more prevalent among Mexican-Americans than non-Hispanic whites. Whilst in the whole sample the hypertensives had significantly (P less than 0.001) higher plasma insulin concentrations than the normotensives, high blood pressure was significantly (P less than 0.01) more frequent among non-Hispanic whites than Mexican-Americans regardless of diabetes status. After adjusting for factors (age, sex, body mass, and body fat distribution) known to affect insulin levels, a direct relationship between post-glucose plasma insulin concentrations and prevalence of hypertension was still present in both ethnic groups. In Mexican-Americans, however, the standardized prevalence of hypertension was significantly (P less than 0.001) lower at any given insulin concentration. Post-glucose plasma glucose levels also were directly related to hypertension prevalence in both groups; again, the regression line was shifted downward and, furthermore, less steep (P less than 0.02) in Mexican-Americans, suggesting relative protection against the negative effect of hyperglycaemia on blood pressure. Dyslipidaemia (higher total cholesterol and triglyceride, and lower HDL-cholesterol concentrations) was strongly associated with hyperinsulinaemia and blood pressure in both ethnic groups. After adjusting for plasma insulin, only hypertriglyceridaemia was associated with high blood pressure, with no inter-ethnic difference.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High blood pressure and insulin resistance: influence of ethnic background. 190 31

The extent of infarct area (IA) on CT-scan in 104 patients with ischemic stroke (IS) was compared with the presence of atrial fibrillation (AF) and other risk factors (hypertension, dyslipidemia, alcohol abuse). Infarct size was also compared with biological and clinical parameters in acute stage (6-12 h) (blood glucose level, systolic and diastolic arterial pressure, haematocrit, consciousness, clinical picture) and with clinical outcome. Among risk factors, only AF showed a significant correlation with IA extension (p less than .0009). IA correlated also with consciousness (p = .0017), clinical picture (p = .0145) and with clinical outcome (p less than 10(-6). Patients with AF showed a more severe clinical outcome with respect to patients without risk factors. It could be hypothesized that patients with AF have a reduced capacity for increasing or sustaining cerebral blood flow in the acute phase of IS.
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PMID:Atrial fibrillation and infarct area extent in ischemic stroke. A clinical and neuroradiological study in 104 patients. 192 33

Hypertension may be either accentuated or caused by hyperinsulinemia secondary to insulin resistance. The role of hyperinsulinemia has been most clearly defined in those people with upper body obesity who frequently have hypertension, abnormal glucose tolerance, and dyslipidemia. Less well understood but repeatedly demonstrated, insulin resistance and hyperinsulinemia are also seen in normal-weight hypertensive patients. The implications of these findings are important to recognize, both in an attempt to understand the pathogenesis of hypertension and in hopes of treating it most appropriately.
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PMID:Hypertension and hyperinsulinemia. 194 84

Abnormalities of plasma lipid and lipoprotein concentrations are common in both insulin-dependent (IDDM) and non-insulin-dependent (NIDDM) diabetes mellitus. In general, individuals with IDDM who are untreated or inadequately treated have elevations in both postprandial and fasting triglyceride levels in association with reduced activity of lipoprotein lipase. Low-density lipoprotein (LDL) cholesterol levels can rise when insulin deficiency impacts on LDL-receptor function. When patients with IDDM are treated and plasma glucose levels well controlled, plasma very-low-density lipoprotein (VLDL) triglyceride and LDL cholesterol levels are usually normal. In addition, plasma high-density lipoprotein (HDL) cholesterol levels are normal or elevated in well-controlled IDDM subjects. In NIDDM, increased VLDL triglyceride and reduced HDL cholesterol concentrations are common and are only partially related to glycemic control. Overproduction of VLDL leads to hypertriglyceridemia, which can be exacerbated if lipoprotein lipase activity is also reduced. The regulation of LDL levels is complex; catabolism can be reduced if significant insulin deficiency exists or increased if significant hypertriglyceridemia is present. The reduced levels of HDL cholesterol in NIDDM appear to be related to increased exchange of HDL cholesteryl esters for VLDL triglycerides, although other mechanisms may exist. The roles of insulin resistance, obesity, and independently inherited abnormalities of lipoprotein metabolism in the etiology of dyslipidemia of NIDDM are complex and require further investigation. Finally, the effects of diabetes on glycosylation of apoproteins; on other lipid enzymes, particularly hepatic triglyceride lipase; on lipoprotein surface lipids; and on hepatic uptake of remnants have only just begun to be defined. In view of the marked increase in atherosclerotic cardiovascular disease in individuals with diabetes mellitus, prompt attention to and aggressive therapy for dyslipidemia should be a central component of care for these patients.
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PMID:Lipoprotein physiology in nondiabetic and diabetic states. Relationship to atherogenesis. 195 76

Effective blood pressure control with traditional high-dose diuretic therapy has led to a distinct decrease in cerebrovascular morbidity and mortality, but failed to achieve a satisfactory reduction of coronary complications and sudden death. The same applies also for beta blockers, although they have been shown to be effective in secondary prevention of myocardial infarction. It is suspected that conventional antihypertensive treatment has an unfavorable effect on coronary risk factors other than hypertension. For instance, thiazide-type diuretics can impair glucose tolerance and increase the potentially atherogenic serum low-density lipoprotein (LDL) cholesterol fraction and triglycerides. Beta blockers without partial intrinsic sympathomimetic activity increase serum triglycerides and tend to lower the potentially antiatherogenic high-density lipoprotein (HDL) cholesterol. Certain beta blockers may also impair glucose tolerance, particularly when they are combined with diuretics. Calcium channel blockers, angiotensin converting-enzyme inhibitors and alpha 1-receptor blockers do not adversely affect lipoprotein or carbohydrate profiles. The latter two drug classes may even increase insulin sensitivity, and alpha 1 blockers may also slightly improve lipid metabolism. The prognostic relevance of drug-induced dyslipidemia and/or glucose intolerance awaits further clarification. In the meantime, it is of clinical interest that several of the generally available antihypertensive drugs seem to be metabolically neutral or sometimes perhaps even potentially beneficial with regard to the lipoprotein and carbohydrate metabolism.
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PMID:Antihypertensive agents, serum lipoproteins and glucose metabolism. 202 Nov 13


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