Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042373 (vascular disease)
 17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Grapefruit juice can alter oral drug pharmacokinetics by different mechanisms. Irreversible inactivation of intestinal cytochrome P450 (CYP) 3A4 is produced by commercial grapefruit juice given as a single normal amount (e.g. 200-300 mL) or by whole fresh fruit segments. As a result, presystemic metabolism is reduced and oral drug bioavailability increased. Enhanced oral drug bioavailability can occur 24 hours after juice consumption. Inhibition of P-glycoprotein (P-gp) is a possible mechanism that increases oral drug bioavailability by reducing intestinal and/or hepatic efflux transport. Recently, inhibition of organic anion transporting polypeptides by grapefruit juice was observed in vitro; intestinal uptake transport appeared decreased as oral drug bioavailability was reduced. Numerous medications used in the prevention or treatment of coronary artery disease and its complications have been observed or are predicted to interact with grapefruit juice. Such interactions may increase the risk of rhabdomyolysis when dyslipidemia is treated with the HMG-CoA reductase inhibitors atorvastatin, lovastatin, or simvastatin. Potential alternative agents are pravastatin, fluvastatin, or rosuvastatin. Such interactions might also cause excessive vasodilatation when hypertension is managed with the dihydropyridines felodipine, nicardipine, nifedipine, nisoldipine, or nitrendipine. An alternative agent could be amlodipine. In contrast, the therapeutic effect of the angiotensin II type 1 receptor antagonist losartan may be reduced by grapefruit juice. Grapefruit juice interacting with the antidiabetic agent repaglinide may cause hypoglycemia, and interaction with the appetite suppressant sibutramine may cause elevated BP and HR. In angina pectoris, administration of grapefruit juice could result in atrioventricular conduction disorders with verapamil or attenuated antiplatelet activity with clopidrogel. Grapefruit juice may enhance drug toxicity for antiarrhythmic agents such as amiodarone, quinidine, disopyramide, or propafenone, and for the congestive heart failure drug, carvediol. Some drugs for the treatment of peripheral or central vascular disease also have the potential to interact with grapefruit juice. Interaction with sildenafil, tadalafil, or vardenafil for erectile dysfunction, may cause serious systemic vasodilatation especially when combined with a nitrate. Interaction between ergotamine for migraine and grapefruit juice may cause gangrene or stroke. In stroke, interaction with nimodipine may cause systemic hypotension. If a drug has low inherent oral bioavailability from presystemic metabolism by CYP3A4 or efflux transport by P-gp and the potential to produce serious overdose toxicity, avoidance of grapefruit juice entirely during pharmacotherapy appears mandatory. Although altered drug response is variable among individuals, the outcome is difficult to predict and avoiding the combination will guarantee toxicity is prevented. The elderly are at particular risk, as they are often prescribed medications and frequently consume grapefruit juice.
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PMID:Interactions between grapefruit juice and cardiovascular drugs. 1544 71

Diabetes is a vascular disease. Endothelial dysfunction is the initial process in vascular manifestations of diabetes mellitus (DM). There are multiple pathways involved in the pathophysiologic process related to endothelial dysfunction in DM. Most of these abnormalities occur secondary to insulin resistance. In this article the role of insulin, glucose,dyslipidemia, oxidative stress and various cellular mechanisms related to endothelial dys-function in diabetes are discussed in detail.
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PMID:Diabetes is a vascular disease: the role of endothelial dysfunction in pathophysiology of cardiovascular disease in diabetes. 1550 19

Patients with chronic kidney disease (CKD) have a substantially increased risk of cardiovascular disease (CVD) compared with the general population. The high prevalence of established traditional risk factors for atherosclerosis (diabetes, hypertension, dyslipidemia) in these patients undoubtedly contributes to the accelerated rate of vascular disease. In addition, several hypotheses have emerged to explain the high prevalence of CVD in patients with chronic renal failure. Growing evidence has been gathered over the last 15 years regarding the role of uremia-related risk factors such as inflammation and oxidant stress in the pathogenesis of atherosclerosis in subjects with renal failure. This paper will review current knowledge regarding the potential role of these non-traditional or uremia-related risk factors for atherosclerosis with special emphasis on prevalence, cardiac risk, and management in patients with CKD.
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PMID:[Vascular risk factors and renal failure]. 1558 63

The pharmacologic regulation of lipid metabolism in patients with dyslipidemia is unequivocally associated with significant reductions in risk for cardiovascular morbidity and mortality. A number of therapeutic drug classes have been developed in an effort to ever more precisely and intensively modulate lipid metabolism. Statins, fibrates, ezetimibe, and niacin exert their effects via different mechanisms and afford physicians the opportunity to beneficially impact multiple pathways in patients. When used alone or in combination, these drugs decrease risk for the development and progression of atherosclerotic disease. There are strong clinical trial data to support of the use of lipid-lowering therapies in the settings of both primary and secondary prevention. This article (1) discusses the mechanisms of action of antilipidemic medications, (2) reviews dosing regimens and the pharmacokinetic differences among drugs of the same class, (3) assesses risk for drug interactions, and (4) reviews the clinical trial evidence used to support the use of particular antilipidemic medications in specific physiologic settings. The incidence of dyslipidemia is rising worldwide. This trend portends an ever-growing need for the aggressive and judicious use of different antilipidemic medication(s) in patients at risk for all forms of atherosclerotic vascular disease.
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PMID:Comparative effects of lipid-lowering therapies. 1558 50

Impaired insulin action has been associated with diabetes, dyslipidemia and atherosclerotic vascular disease. The expression of insulin resistance results from the interaction of environmental and genetic factors. Human hepatic lipase (HL) is a lipolytic enzyme that plays a role in the metabolism of several lipoproteins, while insulin up-regulates the activity of HL via insulin-responsive elements in the HL promoter. We have examined the influence of -514 C/T polymorphism in the hepatic lipase gene promoter on insulin sensitivity in 59 healthy young subjects (30 males and 29 females). The volunteers were subjected to three dietary periods, each lasting four weeks. During the first period all subjects consumed a saturated fat (SFA)-enriched diet with 38% as fat (20% SFA, 12% monounsaturated fatty acids (MUFA) and 6% polyunsaturated fatty acids (PUFA)). In the second and third dietary periods, a randomized crossover design was used, consisting of a low fat, high carbohydrate diet (CHO diet) (< 10% SFA, 12% MUFA and 6% PUFA) and a high-MUFA, or Mediterranean diet, with < 10% SFA, 22% MUFA and 6% PUFA. We determined the in vivo insulin resistance using the insulin suppression test with somatostatin. Steady-state plasma glucose (SSPG) concentrations (a measure of insulin sensitivity) were significantly higher in men carriers of the -514T allele after the consumption of the SFA diet than after the CHO diet and the Mediterranean diet. This effect was not observed in women. Moreover, there were no significant differences in insulin sensitivity after the three diets in men and women with the CC genotype. In summary, our results show an improvement in insulin sensitivity in men with the -514T allele of the HL promoter polymorphism, when MUFA and carbohydrates are consumed instead of SFA fat.
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PMID:The -514 C/T polymorphism in the hepatic lipase gene promoter is associated with insulin sensitivity in a healthy young population. 1582 Nov

The metabolic syndrome is a cluster of metabolic and vascular abnormalities that include central obesity, insulin resistance, hyperinsulinemia, glucose intolerance, hypertension, dyslipidemia, hypercoagulability and an increased risk of coronary and cerebral vascular disease. These metabolic and vascular abnormalities are the main cause of cardiovascular mortality in western societies. Endothelial dysfunction, an early step in the development of atherosclerosis, has been reported in obese nondiabetic individuals and in patients with Type 2 diabetes. It has also been observed in individuals at high risk for Type 2 diabetes, including those with impaired glucose tolerance and the normoglycemic first-degree relatives of Type 2 diabetic patients. Recent evidence points to adipocytes as a complex and active endocrine tissue whose secretory products, including free fatty acids and several cytokines (i.e., leptin, adiponectin, tissue necrosis factor-alpha, interleukin-6, and resistin) play a major role in the regulation of human metabolic and vascular biology. These adipocytokines have been claimed to be the missing link between insulin resistance and cardiovascular disease. Interventions designed to improve endothelial and/or adipose-tissue functions may reduce cardiovascular events in obese individuals with either the metabolic syndrome or Type 2 diabetes. Lifestyle modification in the form of caloric restriction and increased physical activity are the most common modalities used for treating those individuals at risk and is unanimously agreed to be the initial step in managing Type 2 diabetes. Several recent studies have demonstrated favorable impacts of lifestyle modifications in improving endothelial function and insulin sensitivity, in addition to altering serum levels of adipocytokines and possibly reducing cardiovascular events. This review discusses current knowledge of the role of lifestyle modifications in ameliorating cardiovascular risk in obese subjects with either the metabolic syndrome or Type 2 diabetes.
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PMID:Lifestyle modification and endothelial function in obese subjects. 1585 97

Lipid abnormalities play an important part in raising the cardiovascular risk in diabetic subjects. The main components of diabetic dyslipidemia are increased plasma triglycerides, low concentration of high-density lipoprotein cholesterol, preponderance of small, dense low-density lipoprotein, and excessive postprandial lipemia. Small, dense low-density lipoprotein, the elevation in remnant triglyceride-rich lipoprotein particles, and the low high-density lipoprotein are the most powerful atherogenic components. The coexistence of these three factors strongly aggravates the lipid accumulation in the arterial wall and the formation of atherosclerotic plaques. The position of diabetes in cardiovascular risk assessment has been recently reviewed in the Harmonized Clinical Guidelines on Prevention of Atherosclerotic Vascular Disease. In general, patients with diabetes carry a high risk for cardiovascular disease, but the absolute risk varies depending on the type of diabetes, age, and population baseline risk. The Adult Treatment Program III (ATP III) and the American Heart Association have designated diabetes as a high-risk condition and recommended intensive risk-factor management. Concerning therapeutic targets, both ATP III and the American Diabetes Association (ADA) guidelines have identified low-density lipoprotein cholesterol as the first priority of lipid lowering, and the optimal level was set at less than 2.6 mmol/L (100 mg/dL). There is strong evidence, coming from landmark secondary prevention studies, that LDL lowering in people with diabetes is associated with significant clinical benefits. The benefits of statin therapy in type 2 diabetics can no longer be questioned. Ongoing clinical trials will help clarify the question of whether increasing high-density lipoprotein cholesterol with fibrates in the presence of low low-density lipoprotein levels (lower than 3.4 mmol/L, or 130 mg/dL) will be more beneficial than statin therapy alone. The new paradigms in risk-reduction therapies for type 2 diabetic subjects are focused on cardiovascular disease prevention, rather than only on glucose or lipid control. Therapeutic lifestyle changes are considered primary therapies for hyperglycemia and coexisting metabolic syndrome, which can be diagnosed in more than half of type 2 diabetes subjects. New perspectives of lipid management in type 2 diabetes should take into account that insulin resistance, increased lipolysis, and overproduction of large, buoyant, very low density lipoprotein particles are at the base of diabetic dyslipidemia. Accordingly, drugs acting in the regulatory steps of very low density lipoprotein assembly should be developed. Activation of peroxisome proliferator activated receptor alpha (PPARalpha), as occurs with fibrates, lowers free fatty acids (FFAs) and triglyceride levels. PPARgamma agonism, as demonstrated by the thiazolidinediones, increases triglyceride lipolysis, FFA transport, and conversion of FFAs to triglycerides. As separate activation of PPARalpha and PPARgamma improves lipid metabolism, the development of new drugs integrating PPARalpha and PPARgamma activity (PPAR-alpha/gamma agonists) is a promising line that may further improve insulin resistance, FFA metabolism, and consequently, atherogenic diabetic dyslipidemia.
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PMID:Statins and diabetes. 1586 14

Although hyperlipidemia is known to contribute to vascular disease and it may play a role in dementia, specific studies for elderly are limited. The aim of this study is to examine the relationship between dyslipidemia and dementia. In this study, 1251 patients admitted to the Hacettepe University Division of Geriatric Medicine were enrolled. On the basis of the mini mental state examination (MMSE), the clock drawing test (CDT) scores, the APA DSM-IV and the NINCDS-ADRDA criteria and the Hachinski ischemic score (HIS), the subjects were divided into four groups: Alzheimer's disease (AD), vascular dementia (VD), mild cognitive impairment (MCI) and normal cognitive status (NCS). The lipoprotein levels were measured, and we analyzed the data using chi2 and the one-way analysis of variance methods. Among the subjects, 14.8% had low high-density lipoproteins (HDL), 58.5% had high triglyceride (TG), 73.6% had high low-density lipoproteins (LDL), and 21.6% had high lipoprotein-a (Lp(a)) of our study population. There was no difference between the dementia subgroups and the NCS group in the lipoprotein levels. The only significant relationship was between high TG levels and the AD, as well as the MCI groups. Low HDL and high LDL are important problems in elderly. Although serum lipid levels, especially of Lp(a), has recently been thought to be related with dementia, our study suggests the absence of such a relationship. The national data regarding the elderly population should be evaluated on the basis of genetic and environmental factors in each country. The present study showing no significant relationship between Lp(a) and the cognitive status adds new information to the available literature.
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PMID:Are serum lipid and lipoprotein levels related to dementia? 1591 Oct 36

Although circumstantial evidence supports raising high-density lipoprotein cholesterol (HDLC) in patients with low levels of HDLC, the scarcity of event-based trials has led to uncertainty with regard to the benefit of high-density lipoprotein (HDL)-raising therapy. Based on the National Cholesterol Education Program guidelines, therapy for dyslipidemia is focused initially on targeting low-density lipoprotein cholesterol (LDLC), and in patients with hypertriglyceridemia, secondarily on targeting non-HDLC. When HDLC remains low, the decision to target HDLC depends on the assessment of risk of cardiovascular events. We often consider drug therapy specifically to raise HDLC in high-risk patients, such as those with established atherosclerotic vascular disease, type 2 diabetes, or a Framingham risk score of 20% or above. The majority of high-risk patients require drug therapy, usually a statin, to achieve aggressive LDLC and non-HDLC goals, and thus many patients with low HDLC are candidates for statin therapy. However, a second drug is often required to achieve substantial HDL raising. Although no formal goals for HDLC exist, reasonable goals are HDLC greater than 40 mg/dL in men and greater than 50 mg/dL in women. We often add either niacin or a fibrate to a statin in high-risk patients with low HDLC levels. Targeting HDLC with pharmacologic therapy is a more difficult decision in moderate-risk patients, in whom therapy must be highly individualized.
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PMID:Current Drug Options for Raising HDL Cholesterol. 1591

The authors evaluated the lipid profile of children with a positive family history of coronary heart disease (CHD), cerebrovascular disease (CVD), or hyperlipidemia and compared them with controls in order to identify risk indicators for atherosclerosis. A group of 315 children (group A) aged more than 2 years old with a positive family history were evaluated for serum concentrations of total cholesterol (TC), low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), triglycerides (TG), apolipoprotein B100 (ApoB100), apolipoprotein A1 (Apo A1), and lipoprotein (a) (Lp[a]). These values were compared with the levels of a control group of 214 children of comparable age (group B). The median age of children in groups A and B was 10.6 (range 2.3-16) and 9.8 (range 3-13.7) years of age, respectively. Among these children, 196 (52%), 47 (12.5%), and 72 (19.1%) had a positive family history of CHD (group A1), cerebrovascular disease (CVD) (group A2), and hypercholesterolemia (group A3), respectively. We identified 8 children with genetically determined dyslipidemia: 2 children with homozygous and 6 with heterozygous familial hypercholesterolemia. Children in group A3 had significantly higher concentrations of TC, TG, LDL-C, and ApoB100 and lower concentrations of Apo A1 compared with controls, while no significant differences were found in concentrations of lipid variables among children of group A1, A2, and A3. Significant differences were also noted in the concentrations of TC, LDL-C, and Lp(a) between children of group A1 and controls. Screening the progeny of young patients with CHD or familial hypercholesterolemia can identify children at excessive risk for future vascular disease.
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PMID:Lipid profile of children with a family history of coronary heart disease or hyperlipidemia: 9-year experience of an outpatient clinic for the prevention of cardiovascular diseases. 1607 21


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