Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242339 (dyslipidemia)
 13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The risk for cardiovascular complications is already substantially increased in persons with borderline elevation of arterial pressure (141-159/90-94 mmHg and transiently below). It increases progressively with higher grades of hypertension. The main aim of treatment is thus a significant improvement in survival for the patient. Persons with raised blood pressure (BP) have often additional cardiovascular risk factors such as deranged carbohydrate metabolism, dyslipidemia, left ventricular hypertrophy, smoking and others. Treatment of hypertensive patients should thus not only normalize BP but should at the same time reduce associated risk factors or at least not increase them. Conventional antihypertensive treatment based on thiazides in high doses or beta-blocking agents led to marked reduction of strokes and heart failure, but did not satisfactorily reduce coronary heart disease or sudden cardiac death. It has been suspected that other cardiac risk factors are insufficiently influenced or eventually even deteriorated by conventional therapy, thus counteracting partly a beneficial effect of lowered BP. Beta-blockers however have at least a secondary preventive effect after myocardial infarction. Newer antihypertensive drugs such as ACE-inhibitors, calcium antagonists and alpha 1-blockers reduce left ventricular hypertrophy and are at least neutral with regard to metabolism of lipids and carbohydrates. The non-thiazide diuretic indapamide and the serotonin (S2-) blocker ketanserin likewise are neutral with regard to glucose and lipid metabolism. The efficacy of these new drugs regarding long term survival is as yet undetermined. Persisting borderline or established hypertension should as a rule always be approached with basic non-pharmacologic measures: loss of overweight, reduction of alcohol intake, exercise, avoidance of high salt foods, abstention from smoking and withdrawal of BP-raising drugs. If antihypertensive medication is indicated, potential first line drugs are ACE-inhibitors, calcium antagonists, beta-blockers, thiazides at low dose, indapamide, ketanserin, the alpha 1-blocker prazosin and others; initially as monotherapy, if needed in combinations of 2 or 3. Older patients or those will with additional disturbances such as diabetes, hypercholesterolemia, nephropathy, heart failure, ischemic heart disease, arrhythmias, claudication, asthma and others need problem-adjusted modifications of treatment.
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PMID:[Antihypertensive therapy in the nineties]. 153 54

The study was undertaken to evaluate the development and association of parameters related to the metabolic syndrome during celiprolol treatment. Hyperinsulinemic euglycemic clamp and independent oral glucose tolerance tests (OGTT) were performed on 25 nondiabetic patients with controlled hypertension and dyslipidemia. The tests were carried out during the patients' previous antihypertensive monotherapy (beta- or Ca-blocker, or an ACE inhibitor), and after 6 and 12 months of celiprolol treatment. About one third of patients were randomized to a control group in which treatment was kept unchanged. Insulin sensitivity index (ISI), measured by the euglycemic clamp test, increased 35% in the celiprolol group at 6 months and remained at that level at 12 months, independent of the previous treatment (p = 0.03, compared to the change in the control group). During a 2 hour OGTT, incremental glucose area under the curve (AUC) decreased from 4.5 to 1.9 hr x mmol/l during 6 months of celiprolol treatment, and decreased further to 1.5 hr x mmol/l at 12 months (p < 0.001). Insulin AUC decreased from 113 to 72 hr x mU/l, and decreased further to 68 hr x mU/l (p < 0.01). All insulin parameters in OGTT were highly significant (p < 0.0001) and inversely associated with ISI. Insulin AUC had the best linear correlation with ISI (r = -0.682, p < 0.0001). Glucose parameters in OGTT correlated only weakly and inversely with insulin sensitivity. From the fasting serum lipids, triglycerides showed an inverse (p < 0.001) and HDL a weak (p < 0.05) positive association with ISI. Four out of 20 metabolic, clinical, and demographic parameters proved to be independently significant predictors for ISI in multiple regression analysis. These were insulin AUC, fasting insulin levels, triglyceride values, and age. The coefficient of determination in this four-parameter linear model was 69%. In this preliminary, observer-masked trial with a limited control group, celiprolol improved the impaired insulin sensitivity and glucose tolerance of dyslipidemic hypertensive patients. A fairly predictive model can be formulated to evaluate the peripheral insulin sensitivity of hypertensive patients with suspected metabolic syndrome using OGTT with serum insulin determinations.
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PMID:Association between serum lipids, glucose tolerance, and insulin sensitivity during 12 months of celiprolol treatment. 766 96

A survey was made on a sample of Italian practitioners to evaluate the diagnostic and therapeutic approach to arterial hypertension. A questionnaire was distributed containing thirteen questions, that was personally completed and restituted by 919 physicians. The first datum that was evidenced was that the hypertensive patient observed by the practitioner is, in the great majority of cases, in old age. The percentage of patients with concomitant diseases (dyslipidemia, diabetes, obesity, cardiac failure) is very high. The blood pressure measurement is correct, especially by expert physicians. By contrast, the younger physicians tend to prescribe further diagnostic instrumental measures. The antihypertensive therapy is prescribed very accurately. According to the sample studied, the first line drugs that are more often recommended are the ACE-inhibitors, especially by younger physicians. From this survey a prualently positive judgment by the physicians emerged in relation to the available drugs for the anti-hypertensive therapy, as consequence of the observation of satisfactory therapeutic efficacy and tolerability by the patients.
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PMID:[The diagnostic-therapeutic approach to hypertension. A study of 1000 Italian physicians]. 770 40

Insulin resistance and reactive hyperinsulinemia occur not only in patients with obesity, impaired glucose tolerance or non-insulin-dependent (Type 2) diabetes mellitus, but also in many non-obese, non-diabetic individuals with essentiell hypertension and their normotensive, lean young offsprings. The common coexistance of a genetic predisposition for hypertension with insulin resistance helps to explain the frequent occurrence of hypertension as well as dyslipidemia, obesity and diabetes Type 2 in a given individual. In the pathogenesis of hypertension, inappropriate vasoconstriction and/or a structural vasculopathy appears to be an important and ultimate causative event. Several pressor mechanisms are discussed and a distinct sodium retention appears to be almost obligatory associated with diabetes mellitus, while essential and particularly obesity-associated hypertension involves predominantly a tendency for sympathetic activation. Acute hyperinsulinemia on one hand causes arterial vasodilation and on the other hand enhances renal sodium reabsorption and sympathetic activity. Chronically, hyperinsulinemia may promote cardiovascular muscle cell proliferation and atherogenesis. Insulin resistance affecting certain transmembrane cation transporters might lead to an elevation of intracellular cytosolic calcium levels thereby inducing inappropriate vasoconstriction. Nevertheless, whether insulin resistance and hyperinsulinemia contribute to the pathogenesis of hypertension per se is still unproven. Considering antihypertensive drugs, thiazide diuretics given in medium or high dosage as well as beta-blockers appear to promote insulin resistance, reactive hyperinsulinemia and dyslipidemia. Almost all calcium antagonists and the conventional sympthatolytics are metabolically neutral, while ACE-inhibitors and alpha 1-blockers tend to improve insulin resistance. In Type 2 diabetic patients, ACE-inhibitors exert in addition to their antihypertensive a potentially useful anti-diabetic effect. Nevertheless, the prognostic relevance of the metabolic side effects of antihypertensive drugs awaits further clarification.
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PMID:[Insulin resistance and arterial hypertension]. 771 73

Eight patients with biopsy-proven primary nephrotic syndrome were included in an open, prospective, two-year study of lovastatin. One patients was withdrawn after 6 months due to an asymptomatic rise in creatinine phosphokinase, which was rapidly reversed after interruption of lovastatin. In the remaining patients, treatment was well-tolerated and produced no side effects. After 2 years of treatment, these 7 patients had decreases in total cholesterol from 446 +/- 165 to 250 +/- 57 mg/dl (p < 0.001), LDL cholesterol from 343 +/- 121 to 174 +/- 49 mg/dl (p < 0.001), Apo B lipoprotein from 162 +/- 60 to 108 +/- 42 mg/dl (p < 0.05), triglycerides from 336 +/- 273 to 182 +/- 71 mg/dl (p < 0.04). There was no change in HDL cholesterol. The LDL/HDL cholesterol and the total/HDL cholesterol ratios fell from 15.0 +/- 12.1 and 19.1 +/- 17.2 mg/dl before the study to 4.4 +/- 1.2 and 6.3 +/- 1.6 mg/dl, respectively, at 2 years. A decrease in proteinuria from 8.6 +/- 4.6 to 5.0 +/- 3.7 g/24 h (p < 0.02) was noted in 4 patients on concomitant ACE inhibitor therapy. Renal function remained stable in all patients throughout the study, except for one whose moderate impairment progressed to end-stage renal failure requiring dialysis 3 months poststudy. We conclude that long-term lovastatin in patients with primary nephrotic syndrome is an effective and generally safe treatment for accompanying dyslipidemia.
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PMID:Long-term effect of lovastatin on lipoprotein profile in patients with primary nephrotic syndrome. 805 Feb 7

Hyperinsulinemia is very much in the spotlight. Debate rages as to its significance and role in the etiology not only of NIDDM, but also other morphological and metabolic risk factors for atherosclerotic cardiovascular disease, including upper-body obesity, dyslipidemia, hypertension, and hyperuricemia. Epidemiological data support a key role for hyperinsulinemia in these disorders but it is far from conclusive except for the fact that hyperinsulinemia and insulin resistance may be present many years before the onset of impaired glucose tolerance and NIDDM, and clearly play a role in their etiology. The thrifty genotype hypothesis provides a plausible basis for a better understanding of how hyperinsulinemia and insulin resistance could lead to glucose intolerance and atherosclerotic cardiovascular disease, but the detailed biochemical mechanisms remain elusive. A role for increased sympathetic nervous system activity, resulting from hypothalamic stimulation as a primary event causing hyperinsulinemia, cannot be excluded as a cause of hyperinsulinemia. The current focus on hyperinsulinemia also has resulted in closer examination of the therapy of diabetes and hypertension, emphasizing the need to avoid hyperinsulinemia in both IDDM and NIDDM individuals because of the putative risk of atherosclerotic cardiovascular disease and hypertension. There is still a paucity of epidemiological data to support a role for hyperinsulinemia in the etiology of hypertension. However, clinical practice already is being influenced by the fact that ACE inhibitors have been shown to reduce insulin resistance in clinical research studies. The research reviewed here, particularly that relating to hyperinsulinemia, insulin resistance, and cardiovascular disease risk factors, has opened new vistas for the treatment and prevention of NIDDM and atherosclerotic cardiovascular disease. Appropriate exercise clearly is associated with improved insulin sensitivity, modification of CVD risk factors, and lower prevalence of NIDDM. Upper-body obesity, the latest culprit in the field, can also be reduced by exercise. Hyperinsulinemia and insulin resistance can be detected in children, adolescents, and young adults. NIDDM can be prevented, but clearly, intervention needs to commence in childhood, and intensive risk factor intervention in subjects with NIDDM can reduce the risk of atherosclerotic cardiovascular disease. It seems paradoxical that prevention of NIDDM and atherosclerotic cardiovascular disease are now possible even though the biochemical and molecular basis of these disorders is not fully understood.
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PMID:Hyperinsulinemia--how innocent a bystander? 829 79

In subjects with coronary artery diseases (obstructive and vasospastic angina pectoris (AP)) who have no diabetes, hypertension, obesity and physical inactivity, insulin sensitivity was significantly reduced with compensated hyperinsulinemia on OGTT. Insulin resistance significantly correlated with coronary atherosclerosis score. In vasospastic AP (VAP), those who fulfilled more than 3 risk factors out of 5 (hyperinsulinemia, obesity, glucose intolerance, hypertension, dyslipidemia) consist of 70 and 40% for smokers and nonsmokers respectively. Insulin resistance syndrome who fulfilled all the criteria was 9-10% for VAP. In atherothrombotic brain infarction (ATTI) with the same exclusion criteria, the similar insulin resistance and hyperinsulinemia have been observed, but not in embolic (cardiac origin) or lacunar infarction. In ATTI, high TG and apo B with low HDL-chol were noted in blood. In essential hypertension without diabetes and obesity, hyperinsulinemia was noted in 25-35% and insulin resistance in 56-88%. Reduction of blood pressure with alpha blocker (bunazosin), ACE inhibitor (cilazapril), long-acting Ca++ blocker (amlodipine) significantly improved lowered insulin sensitivity. Insulin resistance rather than hyperinsulinemia is more closely associated with blood pressure. Cardiovascular diseases (vasospastic and obstructive AP, brain cortical artery diseases) are prone to develop diabetes because of insulin resistance and also promote the generation of cumulative risk factors resulting in a vicious cycle. Efforts to alleviate insulin resistance is crucial for the primary and secondary prevention of cardiovascular diseases.
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PMID:Clinical impact of insulin resistance syndrome in cardiovascular diseases and its therapeutic approach. 924 Jul 71

Concomitant arterial hypertension and metabolic disorders is a frequent finding raising the risk of micro- and macrovascular complications. While prevalence of stroke and myocardial infarction is going down in hypertensives, end-stage renal disease (ESRD) becomes a bigger problem especially in diabetic hypertensives. The metabolic abnormalities are linked to the hypertension by the sympathoadrenal system mediated by insulin resistance (IR); subjects with hyperinsulinemia and increased sympathetic activity tend to have higher blood pressure, typical dyslipidemia, reduced fibrinolytic activity and other risk factors (RF) called metabolic syndrome of IR. Albuminuria (AUR) is considered as an important RF for the development of nephropathy, ESRD, cardiovascular diseases. AUR is a marker of cardiovascular and total mortality in diabetic and/or non-diabetic hypertensives. AUR reflects the endothelial dysfunction not only in glomerulus but also in the other arteries. Tissue Renin-Angiotensin System plays a significant role in the pathogenesis of hypertension and metabolic disorders; it affects the arterial wall, kidneys and heart longitudinally. Life style is very essential in the treatment of hypertension and metabolic disorders: rational diet with reduced amount of salt and animal proteins, non-smoking and sufficient physical activity. Antihypertensive drugs without any metabolic side effects and with the renal protection are necessary for the patients with hypertension and metabolic disturbances. ACE-inhibitors and/or some of the Ca-antagonists seems to be valuable especially as combined therapy.
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PMID:[New approaches in the treatment of hypertension in metabolic diseases]. 972 74

Diuretics and beta-blockers have a strong tendency to affect serum lipids adversely, whereas the peripherally acting alpha-blocking agents consistently result in beneficial effects. Most of the other antihypertensive agents (calcium channel blockers, ACE inhibitors, angiotensin II receptor antagonists, and drugs that act centrally) are lipid neutral. The effect of steroid hormones varies with the drug, dose, and route of administration. In general, androgens lower HDL-C and have a variable effect on LDL-C. The effects of progestins vary greatly depending on their androgenicity, and estrogens are beneficial except when hypertriglyceridemia occurs with oral estrogens. Glucocorticoids raise HDL-C and may also increase triglycerides and LDL-C. Retinoids increase triglycerides and LDL-C and also reduce HDL-C. Interferons can cause hypertriglyceridemia. Following organ transplantation, a dyslipidemia often ensues. This is caused in part by the medications used to prevent rejection (glucocorticoids, cyclosporine, and FK-506) and requires close attention and, in some patients, drug therapy to prevent coronary artery disease.
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PMID:Drugs causing dyslipoproteinemia. 978 60

Insulin action starts with binding to a membrane receptor (insulin receptor-tyrosine kinase) and with activating an insulin receptor substrate 1 (IRS-1) and substrate 2 (IRS-2). Insulin receptors interact at least with three cascade reactions, phosphorylating G proteins and IRS-1, that activate PLC "ras" and PI-3-K. NIDDM can be defined as a disease caused by defective transduction of insulin signals and IR as a complex phenotype manifesting itself, emphasized by individual and environmental factors, in the cellular systems of signal transduction. IRS is a syndrome characterized by NIDDM, hypertension, visceral obesity, CHD: the X syndrome. Up to day the described mutations of the insulin-receptor gene are rare (e.g. the leprechaunism): genetic IR. Obesity is the principal cause of IR by receptorial and post-receptorial defects: metabolic IR. The obese skeletal muscle shows a reduction of insulin receptor and IRS-1 phosphorylation and of PI-3-K activation; the scarce expression of these proteins would determine the muscular IR. IR is a pattern of essential hypertension. Hypertension, dyslipidemia and abnormality of glucose metabolism are linked by IR. The so called high erythrocyte Na(+)-Li+ counter-transport is a new biochemical marker for IR and hypertension. These drugs can reduce IR: metformin, sulphonilureas, fibrats, dexfenfluramine, troglitazone, doxazosin, ACE-inhibitors.
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PMID:[Insulin resistance. Receptor and post-receptor abnormalities]. 984 54


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