UMLS:C0948265 - FACTA Search

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Query: UMLS:C0948265 (metabolic syndrome)
24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Secondary hyperlipoproteinemias are found in connection with other primary organic diseases. Typical examples are those seen with diabetes mellitus, liver and kidney diseases. In addition there are changes induced by hormonal dysfunctions such as hypothyroidism, by the use of oral contraceptives or in postmenopausal women. During pregnancy there is a physiological transient increase in lipoproteins. In addition to primary organic diseases there are a number of exogenous factors such as obesity, malnutrition and alcohol abuse causing hyperlipidemia. The relation between hypertension and hyperlipidemia described as familial dyslipidemic hypertension is less well known. Obesity, hypertension, dyslipidemia, hyperuricemia and impaired glucose tolerance are the basic conditions of the metabolic syndrome. Familial combined hyperlipidemia is a genetically determined, dyslipidemic syndrome with a high prevalence among patients with coronary artery disease and stroke. As there are some links between familial combined hyperlipidemia and secondary hyperlipoproteinemias, this disease entity is discussed together in this paper. Familial combined hyperlipidemia is metabolically, genetically and by this on a molecular level closely linked to familial dyslipidemic hypertension as well as the metabolic syndrome. The exact mechanism of this disease is currently unknown.
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PMID:[Secondary disorders of lipid metabolism, metabolic syndrome and familial combined hyperlipidemia]. 865 Sep 33

The cellular retinoic acid binding protein-II (CRABP-II) is an intracellular protein involved in the transmission of the vitamin A-derived signal which regulates genes responsible for lipid metabolism and adipocyte differentiation. Cellular Retinoic Acid Binding Protein-II gene (CRABP-II) (GDB 134819) is located on chromosome 1q21-23 and this region has been linked with related disorders such as Familial Combined Hyperlipidemia (FCHL), type 2 Diabetes Mellitus, and Lipodystrophy. In this context we hypothesized that CRABP-II is an interesting protein and aimed to provide genetic markers for future studies. In order to do that, we screened the promoter and the entire coding regions for mutations in 53 patients diagnosed with FCHL and 89 normolipidemic controls. Two new single nucleotide polymorphisms (SNPs) were identified in the promoter region a C to A change at position -515 and a T to C substitution at position -394, the latter creating a binding site for SP1. The change -515C > A was identified in a FCHL patient whereas the -394T > C was found in 3 FCHL patients and 4 normolipidemic subjects. This report provides two new polymorphisms in CRABP-II, which can be used as genetic markers for future studies of association or linkage with diseases, particularly those associated with the metabolic syndrome.
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PMID:Two novel single nucleotide polymorphisms in the promoter of the cellular retinoic acid binding protein II gene (CRABP-II). 1262 90

Regional body fat distribution has an important influence on metabolic and cardiovascular risk factors. Increased abdominal (visceral) fat accumulation is a risk factor for coronary artery disease (CAD), dyslipidemia, hypertension, stroke, and type 2 diabetes. The recent emphasis on treatment of the dyslipidemia of the metabolic syndrome (hypertriglyceridemia, reduced high-density lipoprotein, and increased small, dense low-density lipoprotein particle number) has compelled practitioners to consider lipid-lowering therapy in a greater number of their patients, as one in two individuals over age 50 has the metabolic syndrome. Individuals with the metabolic syndrome typically have normal low-density lipoprotein cholesterol levels, and current lipid-lowering guidelines may underestimate their cardiovascular risk. Two subgroups of patients with the metabolic syndrome are at particularly high risk for premature CAD. One, individuals with type 2 diabetes, accounts for 20-30% of early cardiovascular disease. The second, familial combined hyperlipidemia, accounts for an additional 10-20% of premature CAD. Familial combined hyperlipidemia is characterized by the metabolic syndrome in addition to a disproportionate elevation of apolipoprotein B levels. The measurement of fasting glucose and apolipoprotein B, in addition to the fasting lipid profile, can help to estimate CAD risk in patients with the metabolic syndrome.
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PMID:Abdominal obesity and dyslipidemia in the metabolic syndrome: importance of type 2 diabetes and familial combined hyperlipidemia in coronary artery disease risk. 1518 Oct 30

Familial combined hyperlipidemia (FCHL) shows many features of the metabolic syndrome. The strong genetic component makes it an excellent model to study the genetic background of metabolic syndrome and insulin resistance. Adipose tissue is believed to contribute to, or even underlie, the FCHL phenotype and is an interesting target tissue for gene expression studies. However, interpretation of adipose tissue gene expression experiments is complex since expression differences cannot only arise as a direct consequence of a genetic trait, but may also reflect an adaptation to metabolic influences at the cellular level. In the present study, we measured gene expression levels in cultured primary human preadipocytes from FCHL and control subjects. Since isolated preadipocytes were allowed to replicate for weeks under standardized conditions, the contribution of previous metabolic influences is rather small whereas genetic defects are preserved and expressed in vitro. The main finding was up-regulation of CD36/FAT in FCHL preadipocytes, confirmed in two independent groups of subjects, and a concomitant increase in CD36/FAT-mediated fatty acid uptake. CD36/FAT overexpression has previously been shown to be associated with other insulin-resistant states. The present data suggest that CD36/FAT overexpression in FCHL occurs very early in adipocyte differentiation and may be of genetic origin.
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PMID:Up-regulation of CD36/FAT in preadipocytes in familial combined hyperlipidemia. 1621 5

Familial combined hyperlipidemia (FCH) is closely related with metabolic syndrome (MetSyn), and coronary artery disease (CAD) is positively associated to MetSyn and FCH. In this study, we evaluated the prevalence of MetSyn and its components between patients with FCH and a control group. We also investigated the role of MetSyn and diabetes mellitus (DM) on the incidence of CAD within the FCH group. Our study population consisted of 463 male and 243 female patients with FCH who were not receiving any hypolipidemic treatment, and 1128 men and 1154 women who came from the same geographical region. The prevalence of MetSyn was 42% and 19.8% among FCH subjects and controls, respectively, whereas MetSyn increased with age in both groups. The prevalence of CAD was 15.3% in the FCH group. Moreover, after dividing FCH patients into 3 subgroups, with and without MetSyn and with DM, CAD prevailed at a percentage of 15.2%, 11.1%, and 26.5%, respectively. However, statistically significant differences in the prevalence of CAD were observed only between FCH subjects with DM compared with the other 2 subgroups, even when an adjustment for age, sex, and smoking was conducted. People with FCH and MetSyn differed in several anthropometric, biochemical, and clinical characteristics, compared with the non-MetSyn subgroup of FCH. MetSyn is more prevalent in the FCH than in the control group. Among subjects with FCH, only DM was significantly associated with an increase in the prevalence of CAD in this subgroup compared with FCH individuals with or without MetSyn.
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PMID:Metabolic syndrome prevalence and characteristics in Greek adults with familial combined hyperlipidemia. 1716 Dec 36

Postprandial hyperlipidaemia is a common metabolic disturbance in atherosclerosis. During the postprandial phase, chylomicrons and their remnants can penetrate the intact endothelium and cause foam cell formation. These particles are highly atherogenic after modification. People in the Western world are non-fasting for most of the day, which consequently leads to a continuous challenge of the endothelium by atherogenic lipoproteins and their remnants. Furthermore, atherosclerosis is considered a low-grade chronic inflammatory disease. Many studies have shown that the process of atherogenesis in part starts with the interaction between the activated leucocytes and activated endothelium. Postprandial lipoproteins can activate leucocytes in the blood and up-regulate the expression of leucocyte adhesion molecules on the endothelium, facilitating adhesion and migration of inflammatory cells into the subendothelial space. Another inflammatory process associated with postprandial lipaemia is the activation of the complement system. Its central component C3 has been associated with obesity, coronary sclerosis, the metabolic syndrome and fasting and postprandial TAGs (triacylglycerols). Moreover, chylomicrons are the strongest stimulators of adipocyte C3 production via activation of the alternative complement cascade. A postprandial C3 increment has been shown in healthy subjects and in patients with CAD (coronary artery disease) and with FCHL (familial combined hyperlipidaemia). Postprandial lipaemia has been related to TAG and free fatty acid metabolism. All of these mechanisms provide an alternative explanation for the atherogenicity of the postprandial period.
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PMID:Postprandial inflammation and endothelial dysfuction. 1751 29

Familial combined hyperlipidaemia (FCH) was identified in early genetic studies of populations as a dominant condition associated with mixed hyperlipidaemia and early onset coronary heart disease. Later studies extended the phenotype and noted that this genetic hyperlipidaemia was sensitive to environmental effects. This article reviews the definitions, animal models and genetics of FCH. In contrast to familial hypercholesterolaemia, which is caused by mutations in a limited number of affected genes, the genetics of FCH have remained obscure and very few definite candidate genes have been identified. A strong role for the apoA-I, A-IV, A-V, C-III cluster on chromosome 11 was identified early on and multiple associations have been found to hyperlipidaemia in this region and more strongly to adjacent sections of the chromosome. More recently quantitative trait mapping has identified a number of candidate genes including upstream transcription factor -1 (USF-1) on 1 q21 and CD-36 on chromosome 4. Of these the strongest evidence, based on 4 analyses, links the lipid components of FCH to intronic variants in the USF-1 gene on chromosome 1q21-23. Unfortunately USF-1 yet fails to show clear associations with diabetes and the metabolic syndrome which co-map to this region and are also associated with mixed hyperlipidaemia. Large scale validation of USF-1 variants in other populations is still awaited. It is likely that FCH is a heterogeneous condition, that is subject to wide-scale environmental confounding from common traits such as obesity and the metabolic syndrome, and that the resolution of its genetics is going to prove a severe challenge.
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PMID:Familial combined hyperlipidaemia: under - defined and under - diagnosed? 1822 Sep 35

Familial combined hyperlipidemia (FCH) and familial hypertriglyceridemia (FHTG) share pathogenic mechanisms and a high interaction with components of the metabolic syndrome. The metabolic syndrome associates increased serum ferritin concentration and high cardiovascular risk. The objective was to describe the frequency of iron overload and the relationship between serum ferritin and the phenotype in patients with FCH and FHTG. The study was composed of 211 consecutive unrelated patients aged at least 18 years with primary hypertriglyceridemia, 149 with FCH, and 62 with FHTG. The prevalence of the metabolic syndrome and hyperferritinemia was very high in both hypertriglyceridemic groups (51.7% and 20.1% in FCH and 62.9% and 16.1% in FHTG, respectively), without significant statistical differences between them. Serum ferritin concentration did not show any significant association with the number of metabolic syndrome criteria. Subjects in the highest tertile of ferritin concentration (ferritin >200 mug/L) presented higher concentrations of triglycerides and liver enzymes than subjects in the first tertile of ferritin concentration (ferritin <90 mug/L). The highest positive correlation coefficient for triglycerides was found with ferritin in FCH and in FHTG subjects (R = 0.317 [P < .001] when combined). Ferritin was also the covariate that showed the highest independent association with triglycerides in FCH and FHTG. In contrast, ferritin was not associated with carotid intima-media thickness. In summary, serum ferritin is commonly increased in FCH and in FHTG, it is not related with the presence of metabolic syndrome, and it is highly correlated with liver enzymes.
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PMID:Serum ferritin is a major determinant of lipid phenotype in familial combined hyperlipidemia and familial hypertriglyceridemia. 1991 43

Apolipoprotein B-100 (apo B-100) and small, dense LDL-C (sdLDL-C) are beneficial risk markers for CHD. Apo B-100 indicates the number of LDL particles that reflect the risk of CHD better than the LDL-C concentration. SdLDL is a lipoprotein subclass that causes arteriosclerosis with a much higher risk than large LDL. Apo B-100 is measured by a fully automated turbidimetric immunoassay, while small-dense LDL-C is measured by an enzymatic homogeneous assay with an automated analyzer. Elevated apo B-100 and sdLDL-C are observed among people with familial hypercholesterolemia, familial combined hyperlipidemia, diabetes mellitus, or metabolic syndrome, all of which lead to CHD with high probability. Although both apo B-100 and sdLDL-C are high in all of these cases, the two markers show noticeably different tendencies for each case. Familial hypercholesterolemia patients have higher apo B-100 than sdLDL-C; in contrast, people with diabetes mellitus or metabolic syndrome have higher sdLDL-C than apo B-100. Familial combined hyperlipidemia cases do not show much difference between the two values. The results of both apo B-100 or sdLDL-C can be good risk markers of CHD when tested individually, whereas the cause of CHD may be further clarified by assessing them in combination. By identifying the cause, patients can receive appropriate medical treatments. In conclusion, measuring both apo B-100 and sd LDL-C potentially implies further additional information on clinical utility.
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PMID:[Apolipoprotein B and small, dense LDL-C]. 2268 43

Familial combined hyperlipidemia (FCH) is a primary atherogenic dyslipidemia with insulin resistance and increased cardiovascular risk. Plasminogen activator inhibitor type 1 (PAI-1) and myeloperoxidase (MPO) activity are associated with proinflammatory and atherothrombotic risk. Our aim was to study the role played by PAI-1 and MPO activity in the carotid atherosclerosis prevalence in FCH subjects. 36 FCH unrelated subjects (17 women) were matched by age and body weight with 36 healthy normolipidemic subjects (19 female). Blood lipids, glucose, insulin, insulin resistance (homeostasis model assessment (HOMA)), MPO, and PAI-1 were determined in both groups. Carotid intima media thickness (IMT) was measured by the same investigator by standardized protocol. No differences in age, body mass index (BMI) or waist circumference were observed between the two groups. HOMA and PAI-1 values were higher in the FCH group, reaching statistical significance in those subjects with insulin resistance. In addition, PAI-1 values correlated significantly with metabolic syndrome components and carotid IMT. It is known that the elevated cardiovascular risk that characterizes FCH is frequently associated with insulin resistance. We have detected that two known proinflammatory and proatherothrombotic factors (MPO and PAI-1) are significantly elevated in FCH subjects with insulin resistance. These results could partly explain the high cardiovascular risk present in FCH subjects.
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PMID:PAI-1 levels are related to insulin resistance and carotid atherosclerosis in subjects with familial combined hyperlipidemia. 2882 73

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