Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular risk, mainly thromboembolitic risk, attributed to oral contraceptives (OCs) since 1962, has been primarily linked to ethinyl estradiol (EE). OCs which combine estrogen and have been associated with cerebral vascular accidents. A 1977 study showed a 40% increase of mortality due to cardiovascular complications in women taking OCs. There were of both an arterial and a venous character. The risk of myocardial infarction was 3 times more frequent among OC users. Deep venous thrombosis and pulmonary embolism were more numerous. Some other risk factors include smoking, hypertension, diabetes, and age 35. The risk of heart attack vanishes a few years after stopping OC use. The reduction of EE (and similarly progesterone) dosage from 100-50 mcg also lower the risk of hypertension, cerebral vascular accidents, and venous thrombosis. Prolonged use of OCs causes disorders of hemostasis affecting the walls of blood vessels, modifying the viscosity of blood flow (increase of hematocrits, reduction of venous tonus), modifying plasmatic coagulation (increase of platelets, increase of factors VII and X and plasma fibrinogen, and decrease of antithrombin III activity), and increased fibrinolysis. These anomalies are exclusively associated with high doses of estrogens. 5% of women using OCs develop moderate hypertension of 5-10 mm Hg of systolic pressure 5 years later, but after cessation it is reversed. OCs stimulate the renin-angiotensin-aldosterone system causing accelerated production of angiotensin II with the resultant forceful vasotension. 3 months after quitting OC use, high blood pressure returns to normal. EE can provoke diabetes; it increases very low density lipoprotein (VLDL) and high density lipoprotein (HDL) production, but total cholesterol is hardly affected. The androgenic property of progestogens reduces HDL. Combined OCs are contraindicated for women with hypertension, hyperlipidemia, diabetes, and a family history of vascular accidents.
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PMID:[Oral contraception and the vascular risk]. 251 20

Endothelial cells can release substances which profoundly affect vascular tone and platelet function. The inhibitory substances include endothelium-derived relaxing factor (EDRF or nitric oxide), prostacyclin and probably an endothelium-derived hyperpolarizing factor. Endothelin is a potent vasoconstrictor peptide released from endothelial cells. Under certain conditions, the endothelium can also produce angiotensin II, thromboxane A2 and a cyclooxygenase-dependent endothelium-derived contracting factor. In normal arteries, the effects of EDRF appear to dominate. In diseased arteries, the release and action of EDRF is impaired and that of endothelium-derived contracting factors is increased. Hyperlipidaemia, atherosclerosis and hypertension reduce endothelium-dependent relaxations. Hypoxia inhibits the release of EDRF and prolonged ischaemia severely impairs the response. Regenerated endothelium at sites of mechanical injury exhibits selective defects in response to aggregating platelets. The more effective release of EDRF in arterial compared with venous bypass grafts further suggests an involvement of the factor in preventing vascular occlusion. Therapeutic interventions with specific drugs and diets can augment the impaired endothelium-dependent relaxation of diseased arteries. Thus, functional changes of the endothelium in coronary artery disease may be an important factor in the development of vasospasm, ischaemia and thrombosis.
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PMID:Endothelium-derived relaxing and contracting factors: potential role in coronary artery disease. 268 Apr 93

A 34-year-old female complaining of numbness and weakness of the extremities was examined. Consanguineous marriage was contracted between mother and father. She was of short stature (149 cm), and her blood pressure was normal (118/60 mmHg). Her serum potassium concentration had decreased to a level between 2.5 and 3.2 mEq/L, and hypokalemic alkalosis was present. Potassium clearance had increased and urinary concentrating capacity was impaired. Plasma renin activity was high at 25 ng/ml/hr but plasma aldosterone concentration was normal. Hypertensive response to angiotensin II (50 ng/kg/min) was weak but improved to nearly the normal value after the administration of indomethacin for 17 days at a dose of 50 mg/day. A slight elevation in blood pressure was observed during the infusion of norepinephrine (250 ng/kg/min). A decrease in blood pressure was observed during the infusion of 1-sarcosine, 8-isoleucine angiotensin II (600 ng/kg/min) with concomitant increase of plasma renin activity. Twenty-four hour urinary excretion of prostaglandin E decreased somewhat (225 approximately 252 ng/day), and hyperplasia of the juxtaglomerular cells and increased JG index were demonstrated in the biopsy specimens of the right kidney. From the findings, the present case were diagnosed as Bartter's syndrome. Although mild enlargement of the sella turcica was found in skull x-ray films, no abnormalities in pituitary function were demonstrated. Other unusual complications, i.e. hyperlipidemia (type II, beta-dominant) and abnormal configuration of peripheral erythrocytes, were demonstrated. Phospholipid composition of the erythrocyte membrane was normal. The fluidity of plasma VLDL examined by electron spin resonance was increased. Hypokalemia and hyperreninemia were improved through the administration of indomethacin. However, because of headache as an adverse effect, further administration could not be accepted. The patient's complaints were resolved by the rectal application of indomethacin with oral administrations of spironolactone and triamterene. Changes in serum lipid levels did not occur with the above mentioned treatment. alpha-tocopheryl nicotinate lowered the levels of serum lipids and normalized the configuration of peripheral erythrocytes. But increased fluidity of plasma VLDL remained, and phospholipid composition of erythrocyte membrane was also unchanged. The relationship between the rare complications mentioned above and the pathophysiology of Bartter's syndrome is still obscure.
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PMID:[A case with Bartter's syndrome associated with type II hyperlipidemia, increased fluidity of plasma VLDL and abnormal configuration of peripheral erythrocytes (author's transl)]. 704 42

A choice of many antihypertensive strategies is now offered for the treatment of the hypertensive patient with renal insufficiency. Angiotensin-converting enzyme (ACE) inhibitors appear to be the drugs of choice since they not only lower blood pressure but also reduce some important risk factors that may cause progressive loss of renal function, such as intraglomerular hypertension, angiotensin II (Ang II)-induced glomerular growth, proteinuria and hyperlipidemia. Indeed, several clinical studies now show that ACE inhibitors offer renal protection beyond the lowering of systemic blood pressure. The new class of Ang II receptor antagonists and its first representative losartan has not yet been tested clinically for its renal protective efficacy. The first signs, however, look promising, since losartan appears to induce changes in several identified risk factors to the same extent as ACE inhibitors, such as renal vasodilation, and a fall in proteinuria and serum lipids. The challenge will be to discover the differences between ACE inhibitors and Ang II receptor antagonists and to use them to the future advantage of the renal patient.
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PMID:Losartan in patients with renal insufficiency. 766 17

This study was undertaken to determine the role of angiotensin II (AII) in the development of glomerulosclerosis, using an AII receptor antagonist in an animal model of hyperlipidemia. Hyperlipidemic Imai rats were employed because they spontaneously develop glomerulosclerosis; this is especially true in males. Group 1 (n = 5) received no specific therapy. Group 2 (n = 5) was treated with enalapril at a dosage of 50 mg/l in drinking water starting at 6 weeks of age. Group 3 (n = 5) and group 4 (n = 6) were treated with the AII receptor antagonist DuP 753 at a respective dosage of 15 mg/l (low-dose DuP) and 150 mg/l (high-dose DuP) in drinking water. Body weight, blood pressure, urinary protein, serum albumin, cholesterol, BUN and serum creatinine were measured and compared among the groups from 12 to 24 weeks of age. Enalapril and high-dose DuP were almost equally effective in controlling systemic hypertension. Each treatment significantly reduced proteinuria (172 +/- 112 and 152 +/- 72 mg/kg/day at 24 weeks) as compared with that in the controls (421 +/- 147 mg/kg/day; p < 0.05 and p < 0.01, respectively). Hypercholesterolemia also decreased (82 +/- 4 and 89 +/- 6 mg/dl) as compared with that of the controls (141 +/- 48 mg/dl; both p < 0.05). Glomerulosclerosis index (SI) was significantly higher in the untreated control rats (55 +/- 26) than in the enalapril-treated rats (2 +/- 3; p < 0.005) and the high-dose-DuP-treated rats (6 +/- 6, p < 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of an angiotensin II receptor antagonist on the progression of renal failure in hyperlipidemic Imai rats. 828 94

New evidence suggests an interaction between hyperlipidemia, activation of the renin-angiotensin system, and atherosclerotic disease. In patients with atherosclerosis and hyperlipidemia, coronary endothelial dysfunction is usually diffuse and affects vasomotor tone, platelet activity, thrombosis, fibrinolysis, and regulation of inflammatory cells. Angiotensin II, an important oxidant, alters the binding of low-density-lipoprotein (LDL) cholesterol to its receptors and increases endothelial uptake of LDL. Endothelial dysfunction is worsened by the suppression of nitric oxide production and/or release via angiotensin II-associated degradation of bradykinin and oxygen free radical production, resulting in inadequate vasorelaxation. Therapy with angiotensin-converting enzyme (ACE) inhibitors appears to eliminate these untoward effects and may ameliorate the tendency for myocardial infarction associated with elevated plasma levels of angiotensin II. Although the role of ACE inhibitors in the prevention and/or treatment of coronary artery disease in patients without left ventricular dysfunction remains to be established, the capacity of ACE inhibition to correct endothelial dysfunction offers promise. The ability of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors to improve endothelial function, prevent the progression of coronary atherosclerosis, reduce the incidence of ischemic events, and improve survival is well known. Potentially, ACE inhibitors may have an additive or synergistic effect on the development of atherosclerosis and the clinical consequences of this disease when used in combination therapy with lipid-lowering strategies.
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PMID:The potential use of angiotensin-converting enzyme inhibitors in patients with hyperlipidemia. 912 18

Atherosclerosis and its consequences account for most of the morbidity and mortality in Western countries. It is a disease of the intima and primarily involves four cell types, i.e., endothelial and vascular smooth muscle cells, monocytes and platelets. In recent years, knowledge on the cellular and molecular mechanisms of these cells and their alterations by cardiovascular risk factors and in atherosclerosis has greatly expanded. In particular, it has become clear that endothelial cells play a crucial role in the regulation of platelet function, coagulation, and vascular tone and structure. Interestingly, endothelial dysfunction occurs early, particularly if cardiovascular risk factors such as hyperlipidemia, hypertension and diabetes are present. This could lead to adhesion of circulating platelets and monocytes and increased accumulation of lipids in the intima, as well as increased contraction, migration and proliferation of vascular smooth muscle cells. One of the enzymes with a key role in vascular homeostasis is angiotensin I converting enzyme (ACE). ACE is located on the endothelial cell membrane and is responsible for the conversion of angiotensin I into angiotensin II, as well as for the breakdown of bradykinin. While the antihypertensive effect of ACE inhibitors probably contributes to their antiatherogenic effects, other mechanisms are likely to be of greater importance. These direct antiatherogenic effects attributable to ACE inhibition are related to their vasculoprotective properties, including antiproliferative and antimitogenic activity, effects on endothelial function, protection against plaque rupture, antithrombotic effects, and possible antioxidant properties. There is overwhelming evidence to demonstrate the beneficial effects of long-term ACE inhibitor treatment in heart failure, acutely for suspected myocardial infarction (MI), and following MI in patients with left ventricular dysfunction. Hypercholesterolemia is a health risk, and epidemiological studies have shown a line between total cholesterol levels and the risk of cardiac events. Studies have shown that lowering the levels of total and low-density lipoprotein cholesterol using HMG-CoA reductase inhibitors can result in a decrease in cardiac morbidity and mortality. Angiographic studies of coronary arteries have demonstrated a disparity between the decrease in cardiac events and the extent of regression of coronary artery lesions. Mechanisms other than the regression of coronary stenosis may therefore be important in the beneficial effect of cholesterol lowering. It may be of major importance that lipid-lowering therapy is associated with improved endothelial function and decreased platelet activity. Thus, both ACE inhibitors and HMG-CoA reductase inhibitors have vasculoprotective properties which may explain their beneficial effects on cardiovascular morbidity and mortality.
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PMID:[Pharmacotherapy of arteriosclerosis and its complications. Effect of ACE inhibitors and HMG-CoA-reductase inhibitors]. 919 90

There is recent interest in the possibility that angiotensin converting enzyme inhibitors (ACE inhibitors) may reduce the damage inflicted on the arterial wall by common cardiovascular risk factors such as hypertension, hyperlipidaemia and ageing. The efficacy of these drugs in blood pressure reduction is accepted, but whether there is an excess benefit on arterial structure and function, conferred by use of ACE inhibitors over more traditional antihypertensives, is still under debate. There is also evidence in animal models to suggest that ACE inhibition is effective in reduction of arterial damage due to experimental hyperlipidaemia. ACE inhibitors not only reduce the conversion of angiotensin I and angiotensin II, which can interact with the sympathetic nervous system, but also prevent the degradation of bradykinin. This means that ACE inhibitors have several potential mechanisms through which they could suppress intimal hypertrophy and prevent endothelial dysfunction, which is believed to precede arteriosclerosis in man. Although much further work is needed to clarify the mechanism underlying the beneficial effects on the arterial wall of this group of drugs, they do appear to have significant potential in the effort to reduce cardiovascular mortality and morbidity, especially in high risk groups.
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PMID:The impact of angiotensin converting enzyme inhibitors on the arterial wall. 954 23

The renin-angiotensin system is an important modulator of arterial blood pressure and inhibitors of the angiotensin-converting enzyme (ACE-Is) and are currently used in the treatment of hypertension. The pleiotropic actions exerted by angiotensin II (AngII) on the functionality of the vessel wall may have pro-atherosclerotic outcomes; evidence for an anti-atherosclerotic effect of ACE-Is has been presented and an antioxidant effect has been attributed to thiol-containing ACE-Is, like Captopril. The present study has been undertaken to investigate the effect of Delapril, a lipophilic ACE-I, on the development of atherosclerosis in cholesterol-fed rabbits. While it did not correct hyperlipidemia, Delapril dose dependently inhibited the development of atherosclerosis, expressed as aortic area covered by lesions (23.3+/-4.1, 21.3+/-2.4 and 18.5+/-3.3% with Delapril at the daily dose of 5, 10 and 20 mg/kg, respectively, versus 38.2%+/-6.4 for control animals) and its effect was similar to that of Captopril (14.5+/-5.1% at the daily dose of 25 mg/kg). Furthermore, Delapril partially and dose dependently restored endothelium-dependent relaxation, which is impaired in vessels from hypercholesterolemic animals (51.80+/-12.18, 59.74+/-5.16, 69.13+/-8.70 maximal percent relaxation versus 48.26+/-3.05% for the untreated control and 67.67+/-6.72% for Captopril-treated animals). An antioxidant mechanism is unlikely to explain this data, since Delapril does not contain thiol groups. These observations suggest that Delapril may represent an effective pharmacological approach for the treatment of atherosclerosis during its early phases.
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PMID:Delapril slows the progression of atherosclerosis and maintains endothelial function in cholesterol-fed rabbits. 956 38

The dynamic of natural antibodies against bradykinin and angiotensin II in blood serum was studied in 124 patients with ischemic heart disease, hyperlipidemia and hypertension against a background of usage of basic and modified antiatherosclerotic diet during 4 weeks. Besides favorable influence to a clinical picture of the disease universal normalizing influence of antiatherosclerotic diet with addition of linseed oil, consisting in increase of lowered levels of natural antibodies against bradykinin and angiotensin II and decrease of their contents in blood serum under primary increased concentrations.
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PMID:[Effect of anti-atherosclerotic diet with polyunsaturated fatty acids omega-3 from linseed oil on dynamics of natural antibodies to bradykinin and angiotensin II in blood serum of patients with cardiovascular diseases]. 968 Jun 70


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