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)

Immediate-release niacin manifests beneficial effects in cardiovascular disease with respect to dyslipidemic states. It lowers low-density lipoprotein (LDL) cholesterol, triglycerides, lipoprotein(a), and apoprotein B; at the same time, it increases high-density lipoprotein (HDL) cholesterol, HDL2, and apoprotein A-I. However, use of crystalline niacin has drawbacks: therapy requires multidose regimens, and side effects include flushing and pruritus. Slowing absorption with sustained-release formulations succeeds in decreasing flushing and increasing tolerance, but increases in hepatic enzyme levels have raised safety concerns. A new extended-release, once-daily formulation of niacin (Niaspan) shows promise in minimizing flushing while avoiding hepatotoxicity. A multicenter, randomized, double-blind clinical trial of Niaspan enrolled 122 patients with confirmed diagnosis of primary dyslipidemia (LDL cholesterol >4.14 mmol/L [160 mg/dL] and triglycerides <9 mmol/L [800 mg/dL]) into 3 treatment groups: (1) Niaspan 1,000 mg/day; (2) Niaspan 2,000 mg/day; and (3) placebo. The primary treatment endpoint was LDL-cholesterol level. This endpoint was not significantly affected by placebo (0.2% increase), but Niaspan decreased LDL cholesterol by 5.8% (1,000 mg/day) and 14.6% (2,000 mg/day) (p <0.001). Likewise, with placebo there were significant changes in total cholesterol, triglycerides, lipoprotein(a), and apoprotein B, whereas both Niaspan 1,000 and 2,000 mg/day significantly (p <0.001) decreased these parameters. In addition, both Niaspan groups showed significant (p <0.001) increases in HDL cholesterol (17% and 23%, respectively), including HDL subfractions. With respect to flushing, 20% of the placebo group reported at least 1 episode, whereas 88% and 83% of the Niaspon 1,000- and 2,000-mg/day groups, respectively, reported episodes. There was no hepatotoxicity as liver enzyme levels remained within clinically accepted limits in all treatment groups. However, Niaspan 2,000 mg/day showed a significant increase in aspartate aminotransferase compared with baseline and placebo. This trial demonstrated a cholesterol-modifying effect of Niaspan consistent with those reported for niacin, but demonstrated a better tolerance for flushing. Moreover, in contrast to sustained-release formulations, Niaspan showed relatively mild hepatic effects.
Am J Cardiol 1998 Dec 17
PMID:A new extended-release niacin (Niaspan): efficacy, tolerability, and safety in hypercholesterolemic patients. 991 60

Usual risk factors for coronary artery disease account for only 25-50% of increased atherosclerotic risk in diabetes mellitus. Other obvious risk factors are hyperglycemia and dyslipidemia. However, hyperglycemia is a very late stage in the sequence of events from insulin resistance to frank diabetes, whereas lipoprotein abnormalities are manifested during the largely asymptomatic diabetic prodrome and contribute substantially to the increased risk of macrovascular disease. The insulin-resistant diabetes course affects virtually all lipids and lipoproteins. Chylomicron and very-low-density lipoprotein (VLDL) remnants accumulate, and triglycerides enrich high-density lipoprotein (HDL) and low-density lipoprotein (LDL), leading to high levels of potentially atherogenic particles and low levels of HDL cholesterol. Hyperglycemia eventually impairs removal of triglyceride-rich lipoproteins, the accumulation of which accentuates hypertriglyceridemia. As triglycerides increase-still within the so-called normal range-abnormalities in HDL and LDL became more apparent. Thus, when triglycerides are >200 mg/dL, LDL particles are small and dense (when they are <90 mg/dL, the particles are of the large, buoyant variety). The atherogenicity of small, dense LDL particles is attributed to their increased susceptibility to oxidation, but in many patients they may be a marker for insulin resistance or the presence of atherogenic VLDL. Hypertriglyceridemia is associated with atherosclerosis because (1) it is a marker for insulin resistance and atherogenic metabolic abnormalities; and (2) the small size of triglyceride-enriched lipoproteins enables them to infiltrate the blood vessel wall where they are oxidized, bind to receptors on macrophages, and ingested, leading to the development of the atherosclerotic lesion. Various studies (primary prevention with gemfibrozil: Helsinki Heart Study; secondary prevention with simvastatin and pravastatin: Scandinavian Simvastatin Survival Study [4S] and Cholesterol and Recurrent Events [CARE], respectively) have demonstrated that lipid-lowering therapy in type 2 diabetes is effective in decreasing the number of cardiac events. Risk reduction was 22% to 50% (statins) and approximately 65% (fibrate) relative to placebo. It was also noted (in 4S and CARE) that the risk of major coronary events in untreated diabetic patients was 1.5-1.7-fold greater than in untreated nondiabetic patients. Although gemfibrozil (fibric acid derivative) is more effective in decreasing triglycerides and increasing HDL cholesterol in diabetic patients than the statins, it does not change and may even increase LDL-cholesterol levels (fenofibrate may be an exception, decreasing LDL cholesterol by 20-25% in some studies). However, gemfibrozil does increase LDL particle size. Nevertheless, the statins are the current lipid-lowering drugs of choice because the change in LDL-cholesterol-to-HDL-cholesterol ratio is better than with gemfibrozil. Moreover, the diabetic patient may be more likely to benefit from statin therapy than the nondiabetic patient. It should be noted that, in theory, nicotinic acid can correct or improve all lipid or lipoprotein abnormalities in patients with type 2 diabetes. Unfortunately, it is relatively contraindicated because it causes insulin resistance and may precipitate or aggravate hyperglycemia (in addition to its other well-known side effects such as flushing, gastric irritation, development of hepatotoxicity, and hyperuricemia). It is unknown at present whether newer formulations such as once-daily Niaspan may be better tolerated in diabetes. In any case, most patients with type 2 diabetes have risk factors for coronary artery disease and qualify for aggressive LDL cholesterol-lowering therapy. At the same time, it is presently unknown whether improved glycemic control decreases coronary artery disease risk in such patients.
Am J Cardiol 1998 Dec 17
PMID:Diabetic dyslipidemia. 991 65

The pathophysiological events regarding the atherosclerotic processes are present already in early childhood. Various clinical trials confirm tight correlation between dyslipidemia and cardiac and cerebrovascular complications. Over the clinical dyslipidemia genetically determined, various systemic diseases can lead to anomalies of the lipidic metabolism. The determination and analysis of the lipidic pattern is essential during childhood and in particular in patients with renal disease for the increased risk of progressive failure of renal function and for the central role of kidney in lipidic homeostasis. Cardiovascular event is the most important cause of mortality in patients with end-stage renal disease. In children with nephrotic syndrome, renal failure, hemodialysis or after renal transplantation, an increase of the serum values of triglycerides, cholesterol, LDL, VLDL is generally observed. The presence of anomalies in lipidic pattern must be considered during the course of renal disease for preventing the progression of renal damage. Thus, the pharmacological therapy and diet permit to prevent the atherosclerotic events.
Minerva Pediatr 1998 Dec
PMID:[Lipid metabolism and atherosclerosis risk in renal diseases in pediatric age]. 1021 Sep 42

Epidemiological data reveal that hyperuricemia is a risk factor of atherosclerosis. The risk is possibly caused by a link between hyperuricemia and insulin resistance-related metabolic syndrome. Recently it has been proposed that a missense mutation (Trp64Arg) in the beta3-adrenergic receptor (beta3-AR) gene may contribute to the accumulation of multiple risk factors related to insulin resistance. The present study was undertaken to further clarify an association between the Trp64Arg mutation and the metabolic syndrome in 47 Japanese men with hyperuricemia, who are substantially at high risk of atherosclerosis. One patient (2%) had the homozygous mutation, 12 (26%) were heterozygous for the mutation, and 31 (72%) had no mutation found by the PCR-RFLP analysis. The Trp64Arg mutation was not related to past maximal body mass index (BMI), BMI and waist/hip ratio. The subjects with the heterozygous mutation showed a slightly higher incidence of impaired glucose tolerance and diabetes mellitus in the 75 g oral glucose challenge (67%), as compared with those without the mutation (39%). Serum insulin response at 60 min and the sum of serum insulin in the glucose challenge were greater in the former subjects than those in the latter subjects (P=0.041 and 0.076, respectively). An increase in serum lipoprotein(a) was also observed in the subjects with the heterozygous mutation, but the Trp64Arg mutation was not associated with other dyslipidemia, blood pressure or ischemic changes on the electrocardiogram. These results indicate that the heterozygous mutation of Trp64Arg in the beta3-AR gene partly contributes to the accumulation of multiple risk factors in male subjects with hyperuricemia. A larger prospective study is necessary to elucidate a possible role of the Trp64Arg mutation in atherosclerotic diseases in future.
Endocr J 1998 Dec
PMID:Contribution of a missense mutation (Trp64Arg) in beta3-adrenergic receptor gene to multiple risk factors in Japanese men with hyperuricemia. 1039 34

Treatment of dyslipidemia and its frequently associated complications (manifest atherosclerosis) is very pretentious from the economic aspect. Diagnostic and therapeutic criteria are based mainly on biochemical analyses. Although demands on laboratories are relatively strict (respecting defined laboratory errors, analytical and preanalytical conditions), when defined diagnostic criteria are used, the results of biochemical analyses are not yet satisfactory. A typical example is the stratification of risk patients according to the LDL concentration which in our country is very often preferred, although the LDL concentration is based only on calculation (contrary to investigations from which the majority of recommendations was derived where the LDL concentration was assessed directly). We know from our own experience that a large percentage of results of estimated and assessed LDL differs significantly. Therefore we wanted to know whether the assessed LDL concentration correlates with its estimate according to Friedewald s formula and which analytes have the greatest impact on the LDL concentration. Our objective was also to assess th percentage of incorrectly listed patients (according to the LDL stratification scale). In 1997-1998 we examined a group of 4578 probands, patients of the consultant out-patient departments of the Sternberk hospital. Their mean age was 56 years. On average subjects with as slightly atherogenic phenotype were involved (classification A according to EAS). The values of lipid parameters did not differ significantly in the two sexes. The cholesterol, LDL and triacylglycerol concentrations increased with advancing age. The LDL values obtained by assessment and calculation correlated closely. The LDL value was influenced most by ApoB and total cholesterol. Triacylglycerols correlated with LDL assessment only up to a concentration of .3 mmol/l. HDL, ApoA-1 and higher triacylglycerol concentrations (1.3 mmol/l) did not correlate with the LDL value. The authors provided evidence that in subjects where it was possible to calculate LDL lege artis (2458 probands) were listed according to LDL calculation into a wrong group (stratification according to NCEP) whereby up to an LDL concentration .11 mmol/l this parameter cannot be predicted at all by calculation (error up to 85%). A satisfactory estimate is assumed only at LDL concentrations 5.2 mmol/l. Because the estimated LDL values are in the majority of patients lower than the calculated values, it may be assumed that during stratification of LDL obtained by calculation the patients are treated too aggressively. Assuming pharmacological treatment of all mentioned patients, it may be estimated that by using analyses of direct LDL for stratification of probands the costs of hypolipidaemic treatment will by reduced by about 1/4-1/3 (in the catchment area of the Sternberk hospital this would save more than 10 million crowns). The costs of LDL analyses per year are about 180,000 crowns (in the Sternberk hospital--which amounts to cca 1.5% of the money saved on pharmacotherapy).
Vnitr Lek 1998 Dec
PMID:[Benefit of direct determination of LDL-cholesterol (comparison with LDL measurement using calculated estimates]. 1042 14

The relationship between macrovascular complications of diabetes mellitus, hypertension, and dyslipidemia is explored. Management strategies for patients with lipid abnormalities are given, along with indications and use of available drug classes. Pharmacologic and nonpharmacologic approaches to hypertension management are reviewed. The controversies concerning the use of various classes of anti-hypertensive drugs including calcium channel blockers and diuretic therapy are also discussed.
Prim Care 1999 Dec
PMID:The treatment of hypertension and dyslipidemia in diabetes mellitus. 1052 69

Genetic studies of the type 2 diabetes-like GK rat have revealed several susceptibility loci for the compound diabetes phenotype. Congenic strains were established for Niddm1, the major quantitative trait locus (QTL) for postprandial glucose levels, by transfer of GK alleles onto the genome of the normoglycemic F344 rat. Despite the polygenic nature of diabetes in GK, the locus-specific diabetes phenotype was retained in the congenic strain Niddmla, containing a GK-derived genomic fragment of 52 cM from the Niddm1 locus. Furthermore, Niddm1 was divided into two non-overlapping loci, physically separated in the two congenic strains Niddmlb and Niddm1i with distinct metabolic phenotypes. Both strains displayed postprandial hyperglycemia and reduced insulin action in isolated adipose cells. Furthermore, Niddm1i already exhibits a pronounced in vivo insulin secretion defect at 65 days, while Niddm1b develops a relative insulin secretory defect at 95 days. This suggests that Niddm1i impairs mechanisms common to insulin secretion in pancreatic B-cells and insulin action in adipocytes. Niddm1b rats show signs of increasing insulin resistance with age associated with obesity, hyperinsulinemia, and dyslipidemia. Moreover, the data indicated nonallelic interaction (epistasis) between Niddm1b and Niddm1i on the postprandial glucose levels. These data emphasize the pathophysiological complexity of diabetes, even within an apparently single QTL, and demonstrate the potential of the GK model in transforming the multifactorial diabetes phenotype into single traits, suitable for positional cloning.
Diabetes 1999 Dec
PMID:Pathophysiological and genetic characterization of the major diabetes locus in GK rats. 1058 Apr 37

Diabetic patients typically have not only hyperglycemia but also dyslipidemia. Study of the pathogenic components of the diabetic milieu and mechanisms of accelerated atherosclerosis is hindered by inadequate animal models. A potentially suitable animal model for human diabetic dyslipidemia is the pig, because it carries a large fraction of total cholesterol in low-density lipoprotein (LDL), similar to humans. In this study, male Sinclair miniature pigs were made diabetic by destroying the insulin-producing cells of the pancreas with alloxan and then were fed a high fat and high cholesterol diet for comparison with pigs fed a nondiabetic high fat and high cholesterol diet and control pigs. Diabetic pigs exhibited hyperglycemia, but plasma urea nitrogen, creatinine, and transaminase levels were in the normal range, indicating no adverse effects on kidney and liver function. The lipoprotein profile in diabetic pigs was similar to that found in human diabetic patients and was characterized by hypertriglyceridemia (2.8-fold increase versus control and high fat-fed pigs) and a profound shift of cholesterol distribution into the LDL fraction (81%) versus the distribution in high fat-fed (64%) and control (57%) pigs. LDL particles were lipid-enriched and more heterogeneous in diabetic pigs. Apolipoprotein B was distributed among a much broader spectrum of LDL particles, and apolipoprotein E was partially redistributed from high-density lipoprotein to apolipoprotein B-containing lipoproteins in diabetic pigs. There was little change in apolipoprotein A-I distribution. Diabetic pigs showed several early signs of excess vascular disease. In diabetic pigs, 75% of the coronary artery segments showed contractile oscillations in response to prostaglandin F(2alpha) compared with 25% in high fat-fed pigs and 10% in control pigs. Endothelium-dependent relaxation of brachial arteries was nearly abolished in diabetic pigs but unchanged in high fat-fed versus control pigs. Carotid artery Sudan IV staining for fatty streaks was significantly increased only in diabetic pigs. This porcine model should provide insights into the etiology of human diabetic dyslipidemia and facilitate study of peripheral vascular and coronary artery disease in diabetic patients.
Arterioscler Thromb Vasc Biol 1999 Dec
PMID:Dyslipidemia and vascular dysfunction in diabetic pigs fed an atherogenic diet. 1059 79

The prevalence of overweight and obesity has increased dramatically in the recent decades, and obesity is now a major public health problem. Obesity negatively influences an individual's health by increasing mortality and raising the risk for multiple medical conditions such as type 2 diabetes mellitus, hypertension, dyslipidemia, and coronary heart disease. In addition, the obese individual is often the brunt of social discrimination. Weight loss has been shown to reduce the risk for many of these comorbid conditions. A multifaceted approach to the obese patient should include identifying potential causes for weight gain, outlining medical conditions that would benefit by weight loss, and tailoring a weight loss program that is safe and effective for the individual. Components of a successful weight loss program include dietary intervention, recommendations for physical activity, behavior modification, and, in a select group of patients, pharmacologic or surgical intervention.
Mayo Clin Proc 1999 Dec
PMID:Safe and effective management of the obese patient. 1059 55

The etiology and pathogenesis of the pregnancy syndrome preeclampsia remain poorly understood. There is substantial evidence to suggest that the diverse manifestations of preeclampsia, including altered vascular reactivity, vasospasm, and discrete pathology in many organ systems, are derived from pathologic changes within the maternal vascular endothelium. With the theme of endothelial cell dysfunction emphasized, this review focuses on the role of oxidative stress (an imbalance favoring oxidant over antioxidant forces) in the pathogenesis of preeclampsia. Data are summarized regarding 1) the role of the placenta in preeclampsia; 2) evidence and mechanisms of oxidative stress in the preeclampsia placenta; 3) markers of oxidative stress in the maternal circulation; and 4) the potential role of maternal dyslipidemia in generation of oxidative stress. A recurrent theme is that free radical reactions, promoted by "cross-talk" between the diseased placenta and maternal dyslipidemia, promote a vicious cycle of events that make cause and effect difficult to distinguish but likely contribute to the progression of preeclampsia.
Proc Soc Exp Biol Med 1999 Dec
PMID:Oxidative stress in the pathogenesis of preeclampsia. 1060 81


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