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)

Insulin resistance and hyperinsulinemia is now recognized in non-insulin-dependent diabetes, essential hypertension, obesity, atherosclerotic heart disease, dyslipidemia, heart failure, and in heavy smokers. Several mechanisms have been proposed to explain hyperinsulinemia, insulin resistance and its relationship to hypertension; reduced sodium excretion, activation of the sympathetic nervous system, increased activity of the sodium/hydrogen pump, and stimulation of cellular growth. Some of the nonpharmacological methods to control hyperinsulinemia are of benefit in the management of hypertension, most notably weight loss, exercise program, and reduced salt intake. High-fiber and reduced-protein diets also reduce hyperinsulinemia. Thiazide diuretics can result in insulin resistance, and insulin secretion may be inhibited, possibly associated with concomitant hypokalemia. beta-Blockers result in some reduction of glucose tolerance and mask some of the features of hypoglycemia. Angiotensin-converting enzyme (ACE) inhibitors and alpha-receptor blockers do not effect insulin resistance; probably the same is true for calcium antagonists. Although the effect on risk factors should not be discounted, it is the effect of treatment on hard end points, cerebrovascular accidents, myocardial infarction, or death that is most important. Evidence in hypertension is at present restricted to diuretics and beta-blocking drugs.
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PMID:Hypertension and insulin resistance. 128 47

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

As shown by large-scale clinical trials, the antihypertensive effectiveness of diuretics has been associated with a dramatic decrease in the incidence of stroke. This decrease, however, has not been accompanied by a similar reduction in atherosclerotic complications of hypertension, perhaps because other risk factors are important contributors to cardiovascular disease. In particular, a pathophysiologic relationship appears to exist between high blood pressure, left ventricular hypertrophy, diabetes and dyslipidemia. Thus, metabolically neutral antihypertensive agents such as calcium antagonists, which have no adverse effects on serum lipids and insulin sensitivity and can reduce left ventricular mass, are particularly suitable for the treatment of hypertension and attendant cardiovascular complications.
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PMID:Calcium antagonists for the treatment of systemic hypertension. 157 72

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

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

Human arterial hypertension is likely a multifactorial trait resulting from multiple measurable monogenes, blended polygenes, shared family environment, and individual environment. Familial aggregation of hypertension and familial correlation of blood pressure appears to be more due to genes than to shared family environment. Total genetic heritability of 80% with some recessive major gene effects have been found for several traits associated with hypertension including urinary kallikrein excretion, intraerythrocytic sodium, and sodium-lithium countertransport. Other interesting factors regarding hypertension genetics include: non-modulation of the renin angiotensin system, intralymphocytic sodium, ionized calcium, and several genetic markers such as haptoglobin, HLA, and MNS blood type. Probably the most clinically useful information regarding the genetics of hypertension is evolving in several studies reporting a strong association of hypertension with dyslipidemia, diabetes, and obesity.
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PMID:Genetics of hypertension: what we know and don't know. 220 56

A study was made of the content of blood lipids in patients with associated chronic nephritis and arterial hypertension (AH). It has been established that the reduction of arterial pressure as a result of hypotensive therapy (administration of central action drugs, vasodilators of direct action, calcium antagonists, blockers of the angiotensin-transforming enzyme) was followed by a decrease in the blood of the concentration of fatty acids, glycerin, triglycerides, low density lipoproteins, total cholesterol, free cholesterol, phospholipids, characteristics of lipid peroxidation and by the rise of cholesterol concentration in high density lipoproteins. The data obtained are of clinical importance in view of the possibility of correcting dyslipidemia in patients with associated chronic nephritis and arterial hypertension during hypotensive treatment.
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PMID:[Hypotensive therapy and the level of blood lipids in patients with chronic nephritis associated with arterial hypertension]. 279 97

Cardiovascular disease, so common in the elderly, has become an urgent public health concern. Major contributing factors include hypertension, dyslipidemia, impaired glucose tolerance, physical indolence, and cigarette smoking. Diet plays a major role in atherogenesis by its influence in blood lipids, blood pressure, and glucose tolerance, although its impact in the elderly is speculative owing to a paucity of direct evidence. But a rationale exists. Most cardiovascular risk factors are more prevalent in the elderly than in the young adult. The rise in blood pressure and blood lipids with advancing age is not inevitable. Diet may contribute to hypertension through an excess of calories, saturated fat, cholesterol, or salt and a deficiency of potassium, calcium, and magnesium. Antiatherogenic diets low in saturated fat and cholesterol, rich in fiber, and with substitution of polyunsaturated fat and restricted calories tend to normalize serum lipids and to cause lesions to involute. Emphasis on vegetable protein and fiber-rich food has merit because they provide more fiber, polyunsaturated fatty acids, magnesium, selenium, complex carbohydrate, potassium, and copper, and less cholesterol, saturated fat, and sodium. The recommended fat-modified diets are adequate in protein, vitamins, and minerals and need not be deficient in any nutrient or economically nonfeasible. The accelerating decline in cardiovascular mortality, which has included the elderly, indicates that such disease is controllable and not inevitable, even in the elderly. The decrease has occurred concurrently with reduced consumption of saturated fat and cholesterol, increased use of vegetable oils, and improved levels of cardiovascular risk factors.
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PMID:Nutritional contributors to cardiovascular disease in the elderly. 351 Feb 41

The Felodipine Atherosclerosis Prevention Study is designed to evaluate the efficacy of the calcium antagonist felodipine ER and combined felodipine/simvastatin therapy on retarding the progression of atherosclerosis, estimated by serial changes in coronary calcium evaluated by noninvasive electron beam computed tomography. Subjects include 180 men and women aged 40 to 69 and 50 to 69 years, respectively, with moderate type IIa dyslipidemia, with either cardiovascular disease or risk factors. All subjects receive simvastatin lipid-lowering therapy, and are randomized either to felodipine or placebo for a treatment period of 2 years. Monitoring of blood chemistry, measures of lipids and apolipoproteins, blood pressure, evaluation of symptoms, and interim clinical event monitoring are done at routine follow-up visits. Baseline and 2-year follow-up electron beam computed tomography, measuring changes in total calcium score, area, and mass, evaluate the effects of intervention on the progression of calcified atherosclerosis. The results from the Felodipine Atherosclerosis Prevention Study will provide valuable information about the effect of felodipine alone and in combination with simvastatin on progression of calcified atherosclerosis evaluated noninvasively.
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PMID:Noninvasive tracking of coronary atherosclerosis by electron beam computed tomography: rationale and design of the Felodipine Atherosclerosis Prevention Study (FAPS). 750 3

Several drugs used for antihypertensive therapy may modify the lipoprotein metabolism. Thiazides in high dosage and loop diuretics can increase serum low-density lipoprotein (LDL) cholesterol and/or very-LDL cholesterol and the total cholesterol/high-density lipoprotein (HDL) cholesterol ratio, while HDL cholesterol is largely unchanged; triglycerides (Tg) are also often elevated. Premenopausal women may be protected from this side effect. Whether diuretic-induced dyslipidemia is dose-dependent and low thiazide doses (i.e., hydrochlorothiazide < or = 12.5 mg daily) are interacting less, awaits clarification. beta-Blockers without intrinsic sympathomimetic activity increase serum triglycerides and tend to lower the potentially antiatherogenic HDL cholesterol. The diuretic-antihypertensive agent indapamide, given at a dose of 2.5 mg/day, is neutral with regard to serum lipoprotein and glucose metabolism. The potassium-sparing diuretic spironolactone, conventional sympatholytic agents, calcium-channel blockers, and probably the serotonin2-receptor antagonist ketanserin, exert no relevant effects on the lipoprotein profile. Angiotensin-converting enzyme inhibitors may slightly decrease serum triglycerides. alpha 1-Receptor blockers slightly decrease LDL cholesterol and Tg and increase HDL cholesterol. Drug-induced development or aggravation of dyslipidemia represents a potentially adverse influence. In the hypertensive population, effective blood pressure control with traditional drug therapy based on thiazide-type diuretics in high dosage led to a distinct decrease in cerebrovascular morbidity and mortality, but failed to satisfactorily reduce coronary complications. The prognostic relevance of drug-induced changes in serum lipoproteins, carbohydrate metabolism and other risk factors or correlates awaits further clarification.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Serum lipoproteins during treatment with antihypertensive drugs. 750 69


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