UMLS:C0020538 - FACTA Search

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

High-density lipoprotein (HDL) cholesterol, an independent coronary heart disease (CHD) risk factor, is inversely associated with CHD. Whether interventions to increase concentrations of HDL--particularly the HDL2, HDL3, and apolipoprotein A1 subfractions--will reduce the incidence of CHD in high-risk patients is thus an area of intense speculation. Both nonpharmacologic and pharmacologic regimens will raise HDL concentrations. Nonpharmacologic approaches include habitual high-level aerobic exercise and weight loss--both of these somewhat more effective in men than in women--cessation of cigarette smoking, and changing of dietary habits. A number of drugs have been found to elevate HDL cholesterol. These include the bile acid-binding resin cholestyramine, nicotinic acid, gemfibrozil, phenytoin, exogenous estrogens, and alcohol. Terbutaline has also been reported to raise HDL cholesterol. It is not yet known whether, and to what degree, pharmacologic and nonpharmacologic elevation of HDL cholesterol will retard or reverse the progression of atherosclerosis. Conversely, HDL cholesterol is lowered by a broad variety of drugs, including anabolic--androgenic steroids, exogenous progestins, and probucol, which are used therapeutically to reduce low-density lipoprotein (LDL) cholesterol. Some agents used to treat hypertension also reduce HDL cholesterol, especially thiazide diuretics and the beta blockers, with the possible exception of pindolol. In the antiadrenergic class of antihypertensive agents, reserpine and methyldopa lower HDL cholesterol, but the alpha blocker prazosin does not appear to affect HDL cholesterol. The alpha agonist guanabenz has no effect on HDL cholesterol, and the vasodilator carprazidil has been reported to raise HDL cholesterol. In light of these facts, investigations should be undertaken to determine whether the metabolic effects of antihypertensive agents blunt their beneficial effects on CHD.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nonpharmacologic and pharmacologic alteration of high-density lipoprotein cholesterol: therapeutic approaches to prevention of atherosclerosis. 286 87

Chronic dietary administration of either l-tryptophan (5.0%) or nicotinic acid (5.0%) reduced the elevated blood pressure of rats with established, deoxycorticosterone-acetate (DOCA)-salt-induced hypertension without affecting either body weight or cardiac hypertrophy. In a second study, chronic dietary administration of nicotinic acid (2.5 and 5.0%) provided significant protection against the development of an elevated blood pressure in rats treated with DOCA salt. A modest (approximately 10%) reduction in cardiac hypertrophy was also observed in the two nicotinic-acid-treated groups. Treatment with either dose of nicotinic acid did not, however, prevent either the renal hypertrophy characteristic of DOCA-salt-induced hypertension in rats or their reduced renal concentrating ability during a 24-hour dehydration; nor did treatment with nicotinic acid reduce the excessive ingestion of saline characteristic of chronic treatment with DOCA. In contrast, treatment with the higher dose of nicotinic acid prevented the excessive loss of sodium into urine characteristic of DOCA-salt-induced hypertension when the rats were loaded (3% of body weight, i.p.) with a hypotonic (0.075 M) saline solution. These results suggest that increased production of nicotinic acid resulting from dietary administration of tryptophan may play a role in the protective effect of tryptophan against the development of DOCA-salt-induced hypertension. These studies do not, however, provide a mechanism by which nicotinic acid may manifest its beneficial effects.
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PMID:Effect of chronic dietary treatment with nicotinic acid on the development and maintenance of deoxycorticosterone-acetate-salt-induced hypertension. 342 Jan 63

Studies on microcirculation in the elderly include observations in the small vessels of the bulbar conjunctiva and of the nailbed with respect to a classification of the findings according to a number of semeiologic criteria (diameter and shape alterations, terminal capillary network, intravascular red cell aggregation). In vascular diseases of the elderly there are typical alterations of the capillaroscopic findings in the bulbar conjunctiva and in the nailbed, particularly in cases of arteriosclerosis, arterial hypertension, diabetic microangiopathy, heart failure, ischemic myocardiopathies. During the treatment with some vasoactive drugs (nicotinic acid and its derivatives, buflomedil, CPD-choline) there are marked modifications of the small conjunctival vessels, with evident dilatations, appearance of collaterals, increased homogeneity of the blood flow, better evidence of the capillary network and reduction of intravascular red cell aggregation.
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PMID:Microcirculation in the elderly. 383 Nov 49

Nifedipine is almost completely absorbed from the gastrointestinal tract as shown by plasma levels after sublingual, oral, and rectal administration. Because of presystemic metabolism, the bioavailability is about 56% to 77%. After oral administration of 10 mg, the mean plasma concentration of nifedipine reaches maximum values of 160 +/- 49 micrograms/liter after 30 to 60 minutes. After 8 hours, the mean concentration drops to 3.4 +/- 1.2 micrograms/liter. After intravenous administration (0.015 mg/kg) biphasic elimination occurs, the half-life of the alpha-phase being about 13 minutes and of the beta-phase 1.26 +/- 0.55 hours in healthy volunteers. After oral administration of higher doses (40 mg) and after continuous infusion over 24 hours, a third phase with a half-life of about 8 hours can be seen. The apparent volume of distribution of the central compartment (Vce) is 0.294 +/- 0.1 l/kg, and the total body clearance amounts to 0.45 +/- 0.1 liter/hr . kg. Nifedipine is eliminated from the body by hepatic metabolism to the major metabolites 2,6-dimethyl-4-(2-nitrophenyl)-5-methoxycarbonyl-pyridine-3-carboxylic acid (M I) and the corresponding 2-hydroxymethyl-pyridinecarboxylic acid (M II). Methods for the quantitative detection of unchanged nifedipine in the presence of the pyridine analog in plasma (HPLC) and of the main metabolites in plasma and urine (GLC) have been developed. A simple semiquantitative method for detecting metabolites in urine (HPTLC) can be used to monitor patient compliance.
Hypertension
PMID:Pharmacokinetics and metabolism of nifedipine. 686 86

ABBOTT-81988 (A-81988), 2-(N-propyl-N[(2'-[1H-tetrazol-5-yl]biphenyl- 4yl)methyl] amino) pyridine-3-carboxylic acid, a nonpeptide angiotensin II (AII) antagonist was studied in the conscious spontaneously hypertensive rate (SHR) (male, 18 to 21 weeks) for cardiovascular effects of oral administration. Oral A-81988 at 0.3 to 3 mg/kg produced a dose-related 10 to 29% decrease in mean arterial pressure (MAP) in SHR (control, 161 to 177 mm Hg; n = 19) for 12 to 24 h without changing heart rate. Oral A-81988 at 3 mg/kg daily maintained MAP in SHR at normotensive levels (97 to 120 mm Hg) during a 5-day protocol with no rebound hypertension at termination of treatment. There was an increase in plasma renin activity in nanograms AI/milliliter/hour in SHR treated with A-81988 (32 +/- 3, n = 6 v 5 +/- 2, n = 6 for vehicle) during its antihypertensive action. The oral potency of A-81988 was enhanced about 10-fold in furosemide-treated SHR. The pressor response to AII was inhibited selectively in SHR even after an 8-day treatment with A-81988 (approximately 3 mg/kg/day orally). Total peripheral resistance was lowered and cardiac output unchanged in SHR administered A-81988 (3 mg/kg/day orally for 2 days). A-81988 (3 mg/kg orally) did not cause orthostatic hypotension in SHR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cardiovascular effects of orally administered ABBOTT-81988, an angiotensin II antagonist, in conscious spontaneously hypertensive rats. 784 24

Patients with insulin-dependent diabetes mellitus (IDDM) are at an increased risk for coronary heart disease. Factors that may enhance the risk include dyslipidemia, hypertension, and hyperglycemia. Until recently, the importance of dyslipidemia in IDDM was ignored because the prevalence of high cholesterol levels was similar to that in the nondiabetic population. However, unique abnormalities in the composition and metabolism of lipoproteins may occur in IDDM patients. Management of IDDM patients, therefore, should include control of dyslipidemia as well as control of hyperglycemia and hypertension. The therapeutic goals for serum cholesterol reduction in IDDM patients should be lower than that for nondiabetic patients, and the goals for children should be even lower than those for adults. Both very-low-density lipoprotein and low-density lipoprotein (LDL) levels should be the targets for therapeutic interventions and not just the LDL alone. Because of the unique features of dyslipidemia in IDDM patients, the therapeutic options may not be the same as that for nondiabetic patients. Hyperglycemia should be controlled by matching daily energy intake and activity with appropriately timed doses of insulin. The diets should be low in saturated fats and cholesterol. If dyslipidemia persists despite diet and hyperglycemia management, drug therapy may be initiated. For IDDM children > or = 10 years of age with elevated LDL-cholesterol levels, the first-line therapy should be bile acid sequestrants. For adults with IDDM, bile acid sequestrants also may be the drugs of choice, particularly for normotriglyceridemic patients. Nicotinic acid therapy should be avoided. Among other drugs, hydroxymethyl-glutaryl coenzyme A reductase inhibitors may be preferable for patients with elevated LDL cholesterol and borderline hypertriglyceridemia. Fibric acid derivatives should be used for markedly hypertriglyceridemic patients. The role of probucol for dyslipidemia in IDDM patients is not clear.
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PMID:Management of dyslipidemia in IDDM patients. 817 52

2-(N-Propyl-N[(2'-[1H-tetrazol-5-yl]biphenyl-4yl)methyl]amin o) pyridine-3-carboxylic acid (ABBOTT-81988), a novel nonpeptide angiotensin II (AII) antagonist, was evaluated to characterize its antihypertensive activity in the conscious renal hypertensive rat. Oral or i.v. administration of ABBOTT-81988 at 0.03 to 0.3 mg/kg produced a dose-dependent, sustained decrease in mean arterial pressure (MAP; control 162-173 mm Hg, n = 27) of approximately 20 to 70 mm Hg. At a dose of 0.3 mg/kg p.o., ABBOTT-81988 lowered MAP to a normotensive level for more than 24 hr and did not change heart rate. During its antihypertensive effect (delta MAP, -28% approximately -35%), ABBOTT-81988 (0.1-03 mg/kg i.v.) decreased total peripheral resistance (delta resistance, -31% approximately -43%), and cardiac output remained either unchanged or slightly elevated. ABBOTT-81988 (0.3 mg/kg i.v.) produced an additional antihypertensive effect (delta MAP, -12 +/- 2%, n = 5) in captopril-pretreated (10 mg/kg i.v.) hypertensive rats, but captopril (10 mg/kg i.v.) had no effect in ABBOTT-81988-pretreated (0.3 mg/kg i.v.) rats. In the normotensive rat, ABBOTT-81988 (0.3 mg/kg p.o.) had no effect on basal MAP, but it inhibited the AII-induced (0.1 microgram/kg i.v.) pressor response by 51% to 91% for 24 hr, whereas the responses to norepinephrine (0.3 microgram/kg i.v.), vasopressin (0.03 IU/kg i.v.) and bradykinin (3 micrograms/kg i.v.) were not affected. It is concluded that ABBOTT-81988 is a safe and efficacious AII antagonist that may have use in the treatment of human hypertension.
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PMID:Characterization of antihypertensive activity of ABBOTT-81988, a nonpeptide angiotensin II antagonist in the renal hypertensive rat. 830 84

Hypertension and diabetes appear to increase coronary heart disease risk in part by causing an abnormality in lipid metabolism. Most affected are patients with familial dyslipidemic hypertension (FDH) and noninsulin-dependent diabetes mellitus (NIDDM). The lipid disorders most often encountered in these patients are increased levels of triglycerides, very low-density lipoprotein (VLDL) cholesterol, and small, dense low-density lipoprotein (LDL) cholesterol, and low levels of high-density lipoprotein (HDL) cholesterol. These abnormalities appear to result from increased hepatic secretion of VLDL particles due to increased concentrations of free fatty acids and glucose, reduced VLDL clearance due to reduced activity of lipoprotein lipase, and reduced LDL clearance due to glycosylation of ligand proteins. Treatment of the dyslipidemia associated with FDH should follow the guidelines from the National Cholesterol Education Program. Treatment in men and women with NIDDM should be considered when LDL cholesterol levels are 130 mg/dl or above, triglyceride levels are 200 mg/dl or above, or non-HDL cholesterol levels are 160 mg/dl or greater. Aggressive lifestyle changes should be initiated first, including weight loss in obese patients, control of glucose levels in those with NIDDM, avoidance of antihypertensive drugs that may worsen lipid levels in patients with FDH, and eating a diet restricting saturated fat and cholesterol. Addition of lipid-altering drugs should be considered if such changes do not achieve effective lipid control. The agent should be tailored to the patient's lipid profile, in general by using bile acid resins, niacin, or reductase inhibitors to lower LDL cholesterol and gemfibrozil or niacin to lower triglycerides. Niacin should be avoided in patients with NIDDM.
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PMID:Understanding and treating dyslipidemia associated with noninsulin-dependent diabetes mellitus and hypertension. 836 60

Non-insulin-dependent diabetes mellitus (NIDDM) is associated with approximately two fold increase in coronary heart disease (CHD) in men and fourfold increase in CHD in women. In most studies, the duration of diabetes and severity of glycemia are only weakly related to CHD in NIDDM, suggesting that the prediabetic period may be important for the increased CHD in NIDDM subjects. Both hyperinsulinemia and/or insulin resistance predict the development of NIDDM. A number of studies have shown that increased cardiovascular risk factors (especially high triglyceride, blood pressure, and small dense low-density lipoprotein (LDL) and low high-density liproprotein (HDL) cholesterol) precede the onset of NIDDM. Recent data from the San Antonio Heart Study suggest that the atherogenic pattern of cardiovascular risk factors is more marked in prediabetic women than in prediabetic men, thus partially explaining the higher risk of CHD in prediabetic women than in prediabetic men. The atherogenic changes in cardiovascular risk factors appear to be mainly due to increased hyperinsulinemia and insulin resistance in nondiabetic subjects. Interventions to reduce cardiovascular disease in NIDDM subjects should emphasize the primary prevention of NIDDM and very aggressive treatment of traditional cardiovascular risk factors in prediabetic subjects. Treatment of hypertension and dyslipidemia in high-risk patients for NIDDM should avoid agents that further worsen insulin resistance (nicotinic acid, beta blockers, and thiazides), as subjects with hypertension and dyslipidemia are already at increased risk of NIDDM.
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PMID:The prediabetic problem: development of non-insulin-dependent diabetes mellitus and related abnormalities. 910 90

A 34-year-old male with a history of angina pectoris suddenly developed weakness in the right upper and lower limbs, and consulted our hospital. Computed tomography (CT) and magnetic resonance imaging (MRI) suggested cerebral infarction. Cerebral angiography revealed stenosis at the M1 portion of the left middle cerebral artery. Hypertension, diabetes, tobacco or hyperlipidemia were not considered as risk factors for cerebral infarction. The lipoprotein (a) [Lp(a)] level was high. In the present case, medication with a nicotinic acid agent, niceritrol, for hyperlipoproteinemia and low density lipoprotein (LDL) apheresis were performed. Concerning family history, the patient's mother and younger sister had hyperlipoproteinemia. Recent studies have reported that increased Lp(a) levels are an independent risk factor even in cerebral infarction and coronary artery disease. Measurement of Lp(a) levels and treatment for increased Lp (a) levels may be important.
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PMID:[Juvenile cerebral infarction with familial hyperlipoproteinemia (a)--case report]. 916 61

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