UMLS:C0242339 - FACTA Search

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Query: UMLS:C0242339 (dyslipidemia)
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Atherosclerotic renovascular disease is a combination of renal artery stenosis and renal ischemia. Blood pressure does not rise until the stenosis is 60% or greater. Disease of both large and small blood vessels is often accompanied by the loss of glomerular filtration rate. Activation of the renin-angiotensin-aldosterone system leads to vasoconstriction and salt retention. Risk factors for atherosclerotic renovascular disease include long-standing hypertension, diabetes, smoking and dyslipidemia. The prevalence of the condition in patients with hypertension resistant to two medications is 20%. As yet, there is no single ideal screening test or evidence-based recommended screening algorithm. Magnetic resonance angiography and computed tomography angiography are noninvasive and have high sensitivity and specificity, but also have high costs associated with them. The captopril renal scan has low sensitivity and specificity in people with renal disease (the population most likely to require the test). Doppler ultrasonography has high sensitivity and specificity in experienced hands, and the renal resistance index, which can easily be added to this test, can identify those with microvascular disease who may not benefit from revascularization. The best determinant of patient outcome is not the degree of renal artery stenosis but the degree of renal parenchymal disease. To date, renal revascularization has not been associated with improved renal survival compared with medical treatment alone. Today, the approach to atherosclerotic renovascular disease is determined by the patient's blood pressure and renal function; possibly, in the future, it will be determined by the result of the renal resistance index as part of a screening algorithm. If the blood pressure is uncontrollable or the renal function is deteriorating, the patient should be considered for renal revascularization initially, with a percutaneous endovascular stent. The management of hypertension involves the use of combinations of antihypertensive agents at doses sufficient to control blood pressure. Medical management also includes aggressive lipid-lowering therapy.
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PMID:Atherosclerotic renovascular disease. 1675 19

Lipid metabolism can modulate structural and functional characteristics of the vascular system. Recent studies suggested that dyslipidemia may also affect the hemodynamic response to salt intake through the impairment of intravascular volume regulation and cellular sodium handling. Indeed, dyslipidemia may affect sodium homeostasis through several pathways, including defective nitric oxide and eicosanoid production, enhanced renin-angiotensin system activity and increased sympathetic response. Moreover, dyslipidemia directly affects cellular membrane viscosity and modifies membrane ion transport activity. In line with this evidence, attenuation of the above mentioned mechanisms has been demonstrated after lipid-lowering treatment. From the clinical point of view, such interaction between plasma lipids and sodium homeostasis may adversely affect the clinical presentation of diseases such as salt-sensitive hypertension, congestive heart failure, renal diseases with proteinuria or sodium retention. This review considers the interplay between plasma lipids and sodium homeostasis and its potential clinical implication.
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PMID:Lipid modulation of intravascular and cellular sodium handling: mechanistic insights and potential clinical implications. 1707 5

Underlying causes and precipitating causes of heart failure (HF) should be treated when possible. Persons with HF and normal left ventricular ejection fraction (LVEF) should have maintenance of sinus rhythm, treatment of hypertension, myocardial ischemia, dyslipidemia, and anemia, slowing of the ventricular rate below 90 bpm, and reduction of salt overload. First-line drug treatment in the management of these persons is the use of loop diuretics combined with beta blockers and angiotensin-converting enzyme (ACE) inhibitors. If persons are unable to tolerate ACE inhibitors because of cough, angioneurotic edema, rash, or altered taste sensation, angiotensin II type I receptor antagonists (ARBs) should be given. If HF persists despite diuretics, beta blockers, and ACE inhibitors or ARBs, isosorbide dinitrate plus hydralazine should be administered. Beta blockers, verapamil, diltiazem, and digoxin may be used to slow a rapid ventricular rate in persons with supraventricular tachyarrhythmias. Digoxin should not be used in persons with HF in sinus rhythm with normal LVEF. Exercise training should be encouraged in persons with mild to moderate HF to improve functional status and to decrease symptoms.
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PMID:Treatment of heart failure with normal left ventricular ejection fraction. 1802 14

A new guideline on metabolic syndrome (MS) in Japanese was introduced in 2005. The purpose of this study was to evaluate the prevalence and lifestyle characteristics of Japanese hypertensive patients with MS. Subjects were 290 patients (mean age: 64+/-11 years) who had been followed at our hospital. The waist circumference (WC) and body mass index (BMI) were assessed. Subjects who had BMI >or=25 kg/m(2) were defined as having BMI obesity, while abdominal obesity was defined as a WC >or=85 cm in men and >or=90 cm in women, respectively. Since all patients had hypertension, the definition of MS was made when the patient had abdominal obesity plus either dyslipidemia or glucose intolerance, or both. Among the subjects, 230 patients underwent 24-h home urine collection to measure urinary salt and potassium excretions. Dietary habits were also assessed by use of a questionnaire. Mean values of BMI and WC were 24.2+/-3.4 kg/m(2) and 87.1+/-9.6 cm, respectively. Among the total subject group, 39% patients were classified as having BMI obesity, 49% as having abdominal obesity, and 27% as having MS. BMI was significantly correlated with WC both in men (r=0.86; p<0.01) and in women (r=0.79; p<0.01). More men than women belonged to the BMI obesity (46% vs. 33%, p<0.05), abdominal obesity (63% vs. 39%, p<0.01) and MS (39% vs. 18%, p<0.01) groups. There were no significant differences in blood pressure between patients with and without MS, while patients with MS needed a greater number of antihypertensive drugs than those without MS. Mean urinary salt and potassium excretions were 8.9+/-3.8 g/day and 1.9+/-0.7 g/day, respectively. Urinary salt excretion of <6 g (100 mmol of sodium)/day was achieved in 20% of the subjects. Urinary salt excretion in the patients with MS was significantly higher than that in the patients without (10.1+/-4.2 vs. 8.5+/-3.6 g/day; p<0.01). Only 16% of the patients with MS achieved salt restriction (<6 g/day). The patients with MS had a significantly greater the chance to eat out than the patients without MS. They were also less aware of the need to increase their vegetable consumption. The results suggested that MS is prevalent in Japanese hypertensive patients. Patients with MS showed higher urinary salt excretion and needed more antihypertensive drugs to manage their blood pressure. Dietary counseling focusing not only on sodium restriction but also on the need to increase fruit and vegetable consumption seems to be important.
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PMID:Prevalence and lifestyle characteristics of hypertensive patients with metabolic syndrome followed at an outpatient clinic in fukuoka, Japan. 1825 May 57

The metabolic syndrome (involving obesity, hypertension, dyslipidemia, insulin resistance, and a proinflammatory/prethrombotic state) is a major risk factor for cardiovascular disease. Its incidence continues to rise, in part because of the epidemic increase in obesity. The Lyon hypertensive (LH) rat is a model for hypertension and several other features of the metabolic syndrome, having high body weight, plasma cholesterol, and triglycerides, increased insulin-to-glucose ratio, and salt-sensitive hypertension. Previous genetic studies in LH/Mav rats and a normotensive control (LN/Mav) identified quantitative trait loci (QTLs) on rat chromosome (RNO)17 for multiple features of the metabolic syndrome. To further evaluate the role of RNO17 in the LH rat, we generated a consomic strain (LH-17(BN)) by substituting LH RNO17 with that of the sequenced Brown Norway (BN/NHsdMcwi) rat. Male LH and BN rats and LH-17(BN) rats were characterized for blood pressure and metabolic and morphological parameters. Similar to the protective effect of LN alleles, the LH-17(BN) rat also showed decreased body weight, triglycerides, and blood pressure; however, there was no significant difference in cholesterol or insulin-to-glucose ratio. Therefore, the substitution of the LH chromosome 17 is sufficient to recapitulate some, but not all, of the traits previously mapped to this chromosome. This could be due to the lack of a susceptible LH genome background or due to the introgression of chromosome 17 from another strain. Regardless, this study provides a single-chromosome genetic model for further dissection of blood pressure and morphological and metabolic traits on this chromosome.
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PMID:Effects of chromosome 17 on features of the metabolic syndrome in the Lyon hypertensive rat. 1828 21

Separation of lipoproteins by traditional sequential salt density floatation is a prolonged process ( approximately 72 h) with variable recovery, whereas iodixanol-based, self-generating density gradients provide a rapid ( approximately 4 h) alternative. A novel, three-layered iodixanol gradient was evaluated for its ability to separate lipoprotein fractions in 63 subjects with varying degrees of dyslipidemia. Lipoprotein cholesterol, triglycerides, and apolipoproteins were measured in 21 successive iodixanol density fractions. Iodixanol fractionation was compared with sequential floatation ultracentrifugation. Iodixanol gradient formation showed a coefficient of variation of 0.29% and total lipid recovery from the gradient of 95.4% for cholesterol and 84.7% for triglyceride. Recoveries for VLDL-, LDL-, and HDL-cholesterol, triglycerides, and apolipoproteins were approximately 10% higher with iodixanol compared with sequential floatation. The iodixanol gradient effectively discriminated classic lipoproteins and their subfractions, and there was evidence for improved resolution of lipoproteins with the iodixanol gradient. LDL particles subfractionated by the gradient showed good correlation between density and particle size with small, dense LDL (<25.5 nm) separated in fractions with density >1.028 g/dl. The new iodixanol density gradient enabled rapid separation with improved resolution and recovery of all lipoproteins and their subfractions, providing important information with regard to LDL phenotype from a single centrifugation step with minimal in-vitro modification of lipoproteins.
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PMID:Lipoprotein separation in a novel iodixanol density gradient, for composition, density, and phenotype analysis. 1833 16

Increased dietary fructose in rodents recapitulates many aspects of the Metabolic Syndrome with hypertension, insulin resistance and dyslipidemia. Here we show that fructose increased jejunal NaCl and water absorption which was significantly decreased in mice whose apical chloride/base exchanger Slc26a6 (PAT1, CFEX) was knocked out. Increased dietary fructose intake enhanced expression of this transporter as well as the fructose-absorbing transporter Slc2a5 (Glut5) in the small intestine of wild type mice. Fructose feeding decreased salt excretion by the kidney and resulted in hypertension, a response almost abolished in the knockout mice. In parallel studies, a chloride-free diet blocked fructose-induced hypertension in Sprague Dawley rats. Serum uric acid remained unchanged in animals on increased fructose intake with hypertension. We suggest that fructose-induced hypertension is likely caused by increased salt absorption by the intestine and kidney and the transporters Slc26a6 and Slc2a5 are essential in this process.
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PMID:Fructose-induced hypertension: essential role of chloride and fructose absorbing transporters PAT1 and Glut5. 1867 Apr 4

According to the "Guideline of the Hypertension Treatment 2004", nutritional recommendation for hypertension is reviewed. The subjects discussed are as follows. 1) restriction of salt (< 6 g/day), 2) advice for vegetables and fruits in connection with potassium and magnesium, 3) control of cholesterol and saturated fatty acid intake, 4) weight control nutritional recommendation for hypertension should be also useful for another atherosclerotic risk factors for example diabetes mellitus, dyslipidemia.
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PMID:[Nutritional recommendation for hypertension]. 1870 May 56

ABT-335 is the choline salt of fenofibric acid under clinical development as a combination therapy with rosuvastatin for the management of dyslipidemia. ABT-335 and rosuvastatin have different mechanisms of actions and exert complementary pharmacodynamic effects on lipids. The current study assessed the pharmacokinetic interaction between the 2 drugs following a multiple-dose, open-label, 3-period, randomized, crossover design. Eighteen healthy men and women received 40 mg rosuvastatin alone, 135 mg ABT-335 alone, and the 2 drugs in combination once daily for 10 days. Blood samples were collected prior to dosing on multiple days and up to 120 hours after day 10 dosing for the measurements of fenofibric acid and rosuvastatin plasma concentrations. Coadministering 40 mg rosuvastatin had no significant effect on the steady-state Cmax, Cmin, or AUC24 of fenofibric acid (P > .05). Coadministering ABT-335 had no significant effect on the steady-state Cmin or AUC24 of rosuvastatin (P > .05) but increased Cmax by 20% (90% confidence interval: 12%-28%). All 3 regimens were generally well tolerated with no clinically significant changes in clinical laboratory values, vital signs, or electrocardiograms during the study. Results from this study demonstrate no clinically significant pharmacokinetic interaction between ABT-335 at the full clinical dose and rosuvastatin at the highest approved dose.
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PMID:ABT-335, the choline salt of fenofibric acid, does not have a clinically significant pharmacokinetic interaction with rosuvastatin in humans. 1895 10

TREATMENT OF ARTERIAL HYPERTENSION - Blood pressure (BP) should be regularly measured in all patients with CKD (Strength of Recommendation C). - BP control and proteinuria reduction delay progression of CKD (Strength of Recommendation A) and reduce cardiovascular risk (Strength of Recommendation C). Thus, control of both factors should be the treatment objective. - The BP target in patients with CKD should be < 130/80 mmHg, and 125/75 mmHg if proteinuria is > 1 g/24 hours (Strength of Recommendation A). - Lifestyle changes should be made: low-sodium diet (less than 100 mEq/day of sodium or 2.4 g/day of salt); weight reduction if patient is overweight (body mass index 20-25 kg/m2); regular aerobic physical exercise and moderate alcohol intake for BP control and prevention of cardiovascular risk (Strength of Recommendation A). - The choice of the antihypertensive drug in patients with CKD depends on the etiology of CKD, cardiovascular risk, or presence of clinical or subclinical cardiovascular disease (Strength of Recommendation A). - Two or more antihypertensive drugs are usually required to control blood pressure in patients with CKD (Strength of Recommendation B), and will frequently include a diuretic, which in stages 4-5 should be a loop diuretic (Strength of Recommendation B). - Renin-angiotensin-aldosterone system (RAAS) inhibitors are first choice drugs in patients with diabetic nephropathy, patients with non-diabetic nephropathy with a protein/creatinine ratio higher than 200 mg/g, and patients with heart failure (Strength of Recommendation A). The combination of ACEIs and ARBs is indicated for reducing proteinuria that remains high despite treatment with a RAAS inhibitor, provided potassium levels do not exceed 5.5 mEq/L (Strength of Recommendation B). - When RAAS blockers are started or their dose is changed in patients with advanced CKD, kidney function and serum potassium levels should be monitored at least after 1-2 weeks. DIAGNOSIS AND TREATMENT OF DYSLIPIDEMIA - A complete evaluation of the lipid profile including total cholesterol, LDL-C, HDL-C, and triglycerides should be performed in any patient with CKD at baseline and at least annually (Strength of Recommendation B). - In patients with stage 4-5 CKD and LDL-C >or= 100 mg/dL, treatment to decrease levels to < 100 mg/dL should be considered because of their high CV risk. This reduction is recommended in secondary prevention and in primary prevention in diabetic patients. Lipid-lowering treatment is recommended in all other patients, although no evidence showing its benefits is available yet (Strength of Recommendation C). - In patients with stage 4-5 CKD and triglyceride levels >or= 500 mg/dL which are not corrected by treating the underlying cases, treatment with triglyceride-lowering drugs may be considered to reduce the risk of pancreatitis. However, treatment with fibrates should be used with caution, and these drugs should not be associated to statins due to the risk of rhabdomyolysis (Strength of Recommendation C). There is little experience on the efficacy and safety of omega-3 fatty acids for the treatment of hypertriglyceridemia in patients with grade 4-5 CRF, but they may be considered a possibly safer alternative to fibrates (Strength of Recommendation C). SMOKING - Smoking is a cardiovascular risk factor and a risk factor for progression of kidney disease in patients with CRF (Strength of Recommendation B). - Use of active measures to achieve smoking cessation is recommended in patients with CRF (Strength of Recommendation C). HOMOCYSTEINE - Hyperhomocysteinemia has been postulated as a cardiovascular risk factor in the general population and in kidney patients, but the available evidence is not consistent. - There is no evidence that vitamin therapy decreases cardiovascular risk in patients with CRF, and recommendation of routine vitamin measurement and start of vitamin therapy to reduce cardiovascular risk in these patients is therefore questionable (Strength of Recommendation B). LEFT VENTRICULAR HYPERTROPHY - Left ventricular hypertrophy (LVH) is a cardiovascular risk factor in patients with CRF (Strength of Recommendation B). - It is advisable to perform an echocardiogram at baseline and every 12-24 months and to consider treatments allowing for LVH regression (Strength of Recommendation C). The approach to LVH should be early and multifactorial because its reversibility is limited once established (Strength of Recommendation C). - RAAS blockade with ACEIs or ARBs partially reverts LVH in patients with CRF (Strength of Recommendation B). ANTI-PLATELET AGGREGATION - Because of the high cardiovascular risk in patients with CKD, anti-platelet aggregant therapy, especially low-dose aspirin, would be indicated in patients with type 2 diabetes as primary prevention, and in all patients with CKD as secondary prevention. There is however no evidence of the benefits of anti-platelet aggregant therapy in primary prevention in patients with CKD, particularly in stages 4-5; indication for treatment in this situation should therefore be individualised because of its greater risk of bleeding. - Adequate good blood pressure control should previously be achieved to minimise the risk of haemorrhagic stroke (Strength of Recommendation C).
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PMID:[Arterial hypertension and dyslipidemia in patients with chronic kidney disease (CKD). Anti-platelet aggregation. Goal oriented treatment]. 1901 37

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