UMLS:C0242339 - FACTA Search

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Query: UMLS:C0242339 (dyslipidemia)
13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mercury, cadmium, and other heavy metals have a high affinity for sulfhydryl (-SH) groups, inactivating numerous enzymatic reactions, amino acids, and sulfur-containing antioxidants (NAC, ALA, GSH), with subsequent decreased oxidant defense and increased oxidative stress. Both bind to metallothionein and substitute for zinc, copper, and other trace metals reducing the effectiveness of metalloenzymes. Mercury induces mitochondrial dysfunction with reduction in ATP, depletion of glutathione, and increased lipid peroxidation; increased oxidative stress is common. Selenium antagonizes mercury toxicity. The overall vascular effects of mercury include oxidative stress, inflammation, thrombosis, vascular smooth muscle dysfunction, endothelial dysfunction, dyslipidemia, immune dysfunction, and mitochondrial dysfunction. The clinical consequences of mercury toxicity include hypertension, CHD, MI, increased carotid IMT and obstruction, CVA, generalized atherosclerosis, and renal dysfunction with proteinuria. Pathological, biochemical, and functional medicine correlations are significant and logical. Mercury diminishes the protective effect of fish and omega-3 fatty acids. Mercury, cadmium, and other heavy metals inactivate COMT, which increases serum and urinary epinephrine, norepinephrine, and dopamine. This effect will increase blood pressure and may be a clinical clue to heavy metal toxicity. Cadmium concentrates in the kidney, particularly inducing proteinuria and renal dysfunction; it is associated with hypertension, but less so with CHD. Renal cadmium reduces CYP4A11 and PPARs, which may be related to hypertension, sodium retention, glucose intolerance, dyslipidemia, and zinc deficiency. Dietary calcium may mitigate some of the toxicity of cadmium. Heavy metal toxicity, especially mercury and cadmium, should be evaluated in any patient with hypertension, CHD, or other vascular disease. Specific testing for acute and chronic toxicity and total body burden using hair, toenail, urine, serum, etc. with baseline and provoked evaluation should be done.
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PMID:The role of mercury and cadmium heavy metals in vascular disease, hypertension, coronary heart disease, and myocardial infarction. 1740 90

Dyslipidemia is a common metabolic complication among HIV-infected patients who receive protease inhibitor (PI)-based antiretroviral therapy (ART). In order to assess the prevalence of lipid abnormalities and related factors, a cross-sectional analytic study of the lipid profiles of 170 Thai adult HIV-infected patients receiving PI-containing HAART who attended the HIV-clinic, King Chulalongkorn Memorial Hospital, Bangkok, Thailand between January and August 2005 was conducted. Studied subjects had a median age of 40 years with a median duration of taking PIs of 22.1 months. The mean serum total cholesterol (TC), high density lipoprotein cholesterol (HDL-c), low density lipoprotein cholesterol (LDL-c), and triglyceride (TG) levels were 259.7, 43.7, 135.2, and 506.8 mg/dl, respectively, and the mean TC:HDL-c ratio = 6.4. According to the US National Cholesterol Education Program (NCEP) Adult Treatment Panel III (ATP III) guidelines, high TC, low HDL-c, high TC:HDL-c ratio, high LDL-c, and high TG were found in 52.4, 36.5, 18.8, 44.1, and 42.9%, respectively. Seventy-five subjects (44.1%) were taking lipid-lowering drugs. Only 54 subjects (31.8%) had baseline serum lipid profiles tested before beginning PI. There was statistically significant association between group of PI with serum TC and TG. Subjects taking double boosted and single boosted PI had significantly higher serum TC and TG levels than unboosted PI. Males had significantly higher serum TG levels, while females had significantly higher serum HDL-c levels. Age was significantly associated with serum TC, LDL-c levels, and TC:HDL-c ratios. Serum TC and LDL-c levels were also significantly higher in subjects taking efavirenz.
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PMID:Lipid profiles of Thai adult HIV-infected patients receiving protease inhibitors. 1753 49

Carpal tunnel syndrome (CTS) is the most common entrapment neuropathy. Many factors such as diabetes mellitus, hypothyroidism, hormonal replacement therapy, corticosteroid use, rheumatoid arthritis and wrist fractures may cause CTS. Metabolic syndrome includes abdominal obesity, dyslipidemia, hyperglycemia, and hypertension that may cause CTS. In this study, we aimed to evaluate the relation between CTS and metabolic syndrome. We studied 107 (96 female and 11 male) right-handed patients who had a clinical and electrophysiologically confirmed diagnosis of CTS. We then divided the patients into two groups (patients with and without metabolic syndrome) according to the criteria of ATP III definition. Eighty (75%) of the patients with CTS had metabolic syndrome. Among the 80 patients with metabolic syndrome, CTS was found in 150 hands (43 mild, 58 moderate and 49 severe cases). Among the 27 patients without metabolic syndrome, CTS was found in 43 hands (27 mild, 14 moderate and 2 severe cases). The electrophysiological parameters (median nerve distal motor latency, median nerve motor amplitude, median nerve motor conduction velocity, median nerve sensory onset latency, median nerve sensory amplitude and median nerve sensory conduction velocity) were worse in patients with metabolic syndrome (P < 0.05). In conclusion, metabolic syndrome was found to be three times more common in patients with CTS and CTS was more severe in patients with metabolic syndrome when compared with those without metabolic syndrome.
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PMID:Carpal tunnel syndrome and metabolic syndrome. 1766 97

Risk assessment algorithms, such as that used in the third Adult Treatment Panel (ATP III) of the National Cholesterol Education Program (NCEP) for treating low-density lipoprotein cholesterol, can be used to classify patients' risk for cardiovascular and metabolic problems and to determine the appropriate level of therapeutic intervention. Patients at highest risk should receive the most intensive therapy. The presence of the metabolic syndrome, a clustering of atherogenic risk factors including dyslipidemia, elevated blood pressure, elevated blood glucose, and other problems, confers additional risk for diabetes mellitus and atherosclerotic cardiovascular disease at every level of risk. Pharmacotherapy with lipid-lowering, antiplatelet, antihypertensive, or insulin-sensitizing agents to modify specific risk factors is indicated in patients at higher risk, but lifestyle change (e.g., smoking cessation, weight reduction, increased physical activity, and "heart-healthy" dietary modifications) and blood pressure control can be used across all categories of risk.
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PMID:Cardiovascular and metabolic risk factors: how can we improve outcomes in the high-risk patient? 1772 Mar 59

Atherogenic dyslipidemia, manifest by low HDL-cholesterol and high TG levels, is an important component of ATP-III defined metabolic syndrome. Here, we dissected the phenotypic and genetic architecture of these traits by assessing their relationships with other metabolically relevant measures, including plasma adipo-cytokines, highly sensitive C-reactive protein (hsCRP) and LDL particle size, in a large family data set (n=2800) and in an independent set of dyslipidemic cases (n=716) and normolipidemic controls (n=1073). We explored the relationships among these phenotypes using variable clustering and then estimated their genetic heritabilities and cross-trait correlations. In families, four clusters explained 61% of the total variance, with one adiposity-related cluster (including hsCRP), one BP-related cluster, and two lipid-related clusters (HDL-C, TG, adiponectin and LDL particle size; apoB and non-HDL-C). A similar structure was observed in dyslipidemic cases and normolipidemic controls. The genetic correlations in the families largely paralleled the phenotype clustering results, suggesting that common genes having pleiotropic effects contributed to the correlations observed. In summary, our analyses support a model of metabolic syndrome with two major components, body fat and lipids, each with two subcomponents, and quantifies their degree of overlap with each other and with metabolic-syndrome related measures (adipokines, LDL particle size and hsCRP).
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PMID:Genetic and phenotypic architecture of metabolic syndrome-associated components in dyslipidemic and normolipidemic subjects: the GEMS Study. 1788 29

Although statins are effective in reducing cardiovascular risk, combination therapy may be required to meet recommended target LDL-C levels. However, the utility of current combination therapies with niacin or bile acid sequestrants is limited by side effects and compliance. Ezetimibe, as a selective cholesterol absorption inhibitor, represent a new class of pharmaceutical agents. The combination of ezetimibe with statins has shown a 16-21% increase in the percentage of patients achieving their ATP III LDL-C goal. Randomized, double-blind studies have shown that coadministration of ezetimibe with simvastatin is well tolerated, causing dose-dependent reduction in LDL-C and total cholesterol levels, with no apparent effect on high-density lipoprotein cholesterol or triglycerides. Even in diabetes mellitus type 2 patients; the addition of ezetimibe 10 mg to simvastatin 20 mg is more efficacious than doubling the dose of simvastatin in lowering lipid parameters. Similarly the coadministration of ezetimibe and rosuvastatin, has shown a mean incremental reduction in LDL-C of -16%, compared with rosuvastatin alone, while there was no apparent effect on HDL-C or triglycerides. Ezetimibe and fenofibrate co-administration has shown also improvement in the lipid/lipoprotein profile. The combination therapy with ezetimibe and statin or fibrate may be an effective therapeutic option for patients with dyslipidemia.
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PMID:Combination of a sterol absorption inhibitor and cardiovascular agents for the treatment of dyslipidemia. 1822 Oct 76

High density lipoprotein (HDL) has proven its role in reverse cholesterol transport and cellular cholesterol efflux thus acting as a protective factor against atherogenic cardiovascular diseases. The article focuses primarily on structure and function of genes influencing HDL metabolism. Various novel targets involve liver X receptor, retinoid X receptor, peroxisome proliferators activated receptor agonists and apoA-I mimetics. New molecules targeting these nuclear receptors are described. Phospholipid transfer protein and scavenger receptor B1 are also attractive targets in HDL metabolism. ATP-Binding Cassette transporter A1 and several lipases also play a crucial role in HDL metabolism and are very useful target for atherogenic dyslipidemia. Cholesteryl ester transfer protein inhibitors have shown great promise as possible drug candidates of future. Notably, JTT-705 (Japan Tobacco, Roche) is of great interest in spite of withdrawal of torcetrapib. Considering modest effect of currently available therapeutic options on HDL, these novel HDL elevating targets are doubtlessly the target for future atherosclerotic intervention.
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PMID:HDL elevation and lipid lowering therapy: current scenario and future perspectives. 1822 Nov 21

Treatment for dyslipidemia in diabetes reduces cardiovascular events. Diabetes is associated with major abnormalities in fatty acid metabolism. The resulting disturbance results in an abnormal lipoprotein cascade from the large chylomicron through to the small HDL particle. This suggests that drugs that alter formation of the chylomicron particle might have a very important role in diabetic dyslipidemia. Achieving normal glycemia will reverse the abnormalities in fatty acid metabolism, but this is difficult, particularly as the disease progresses. Genes that regulate cholesterol absorption and excretion have been described (Niemann Pick C1-like 1 [NPC1-L1] and ATP binding cassette proteins [ABC] G5 and G8). An effective NPC1-L1 inhibitor (ezetimibe) improves the reduction in cholesterol caused by statins. Agonists of ABCG5 and G8 may become important in the treatment of dyslipidemia. Microsomal triglyceride transfer protein (MTP) is responsible for the assembly of the chylomicron and VLDL particles. New MTP inhibitors, acting only on the intestine, are exciting possible treatments. The advisability of sitosterol-enriched foods to lower cholesterol may have to be reassessed for patients with diabetes, since these products may lead to an increase in chylomicron sitosterol in diabetic patients. More successful treatment of diabetic dyslipidemia is essential if we are to reduce the burden of cardiovascular disease so commonly found in diabetes.
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PMID:Targets for intervention in dyslipidemia in diabetes. 1822 92

Insulin resistance is characteristic of obesity, type 2 diabetes, and components of the cardiometabolic syndrome, including hypertension and dyslipidemia, that collectively contribute to a substantial risk for cardiovascular disease. Metabolic actions of insulin in classic insulin target tissues (eg, skeletal muscle, fat, and liver), as well as actions in nonclassic targets (eg, cardiovascular tissue), help to explain why insulin resistance and metabolic dysregulation are central in the pathogenesis of the cardiometabolic syndrome and cardiovascular disease. Glucose and lipid metabolism are largely dependent on mitochondria to generate energy in cells. Thereby, when nutrient oxidation is inefficient, the ratio of ATP production/oxygen consumption is low, leading to an increased production of superoxide anions. Reactive oxygen species formation may have maladaptive consequences that increase the rate of mutagenesis and stimulate proinflammatory processes. In addition to reactive oxygen species formation, genetic factors, aging, and reduced mitochondrial biogenesis all contribute to mitochondrial dysfunction. These factors also contribute to insulin resistance in classic and nonclassic insulin target tissues. Insulin resistance emanating from mitochondrial dysfunction may contribute to metabolic and cardiovascular abnormalities and subsequent increases in cardiovascular disease. Furthermore, interventions that improve mitochondrial function also improve insulin resistance. Collectively, these observations suggest that mitochondrial dysfunction may be a central cause of insulin resistance and associated complications. In this review, we discuss mechanisms of mitochondrial dysfunction related to the pathophysiology of insulin resistance in classic insulin-responsive tissue, as well as cardiovascular tissue.
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PMID:Role of mitochondrial dysfunction in insulin resistance. 1830 8

5'AMP-activated protein kinase (AMPK) is a serine/threonine kinase that acts as a fuel gauge in regulating energy metabolism. It restores cellular ATP levels by switching on catabolic pathways and switching off anabolic pathways. Some evidence indicates that AMPK could be also implicated in reproductive functions such as granulosa cell steroidogenesis and nuclear oocyte maturation in several species. Some metabolic hormones such as leptin, resistin, adiponectin (three adipokines) and ghrelin may in part act through the AMPK signaling. These hormones are also involved in the control of the reproductive functions at the hypothalamus-pituitary-gonadal axis level in both male and female. Thus, AMPK could be one of the signaling pathways controlling the interactions between energy balance and reproduction. The reproductive system is tightly coupled with energy balance, and thereby metabolic abnormalities can lead to the development of some physiopathological situations such as the polycystic ovary syndrome (PCOS). Women with PCOS show altered fertility mostly associated with metabolic disorders such as insulin-resistance, hyperinsulinemia and/or dyslipidemia. Metformin, an insulin-sensitizer, is used for the treatment of women with PCOS. It restores subnormal fertility and energy balance. Recent studies show that AMPK is involved in the mechanism of action of metformin. Thus, it may be a therapeutic target. However, further investigations are necessary to elucidate the functions of AMPK in both metabolic and reproductive tissues.
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PMID:[AMPK: a link between metabolism and reproduction?]. 1833 79

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