UMLS:C0242339 - FACTA Search

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Query: UMLS:C0242339 (dyslipidemia)
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Recent trends in the American lifestyle, such as a high-fat diet and inactivity, have promoted the emergence of a metabolic disorder titled syndrome X. Although originally linked to non-insulin-dependent diabetes mellitus (NIDDM) and characterized by insulin resistance, syndrome X is now better described as a cascade of disorders encompassing not only NIDDM, but also hypertension, atherosclerosis, centrally distributed obesity, and dyslipidemia. Further pathology has been linked to syndrome X, such as polycystic ovary disease, microvascular angin, and the presence of acanthosis nigricans. Recognition and appropriate management of syndrome X will prevent deleterious patient outcomes that might occur without continuity of care in treating associated disorders. Pharmacological management of syndrome X includes the use of insulin-sparing antihyperglycemic agents and/or combination therapy and avoidance of several frequently prescribed medications. Clinicians need to initiate renewed efforts to provide lifestyle counselling to promote ideal body weight, since interpretation of research data concerning syndrome X reinforces that serious health consequences will result from obesity and inactivity.
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PMID:Syndrome X. Recognition and management of this metabolic disorder in primary care. 878 76

Obesity is strongly implicated in the pathophysiology of insulin resistance, diabetes mellitus and dyslipidemia. The mechanisms, however, by which obesity causes these complications are not known. The study of single-gene disorders affecting adipose tissue may elucidate some of the mechanisms involved in these processes. Familial partial lipodystrophy, Dunnigan variety, (FPLD, OMIM 308980) is an autosomal-dominant condition characterized by marked loss of subcutaneous adipose tissue affecting the trunk and extremities but with excess fat deposition in the head and neck areas. Affected individuals show an increased preponderance of insulin resistance, diabetes mellitus, dyslipidemia and acanthosis nigricans. The genetic basis of FPLD is unknown. We carried out a genome-wide scan with a set of highly polymorphic short tandem-repeats (STR) in individuals from five well-characterized pedigrees and mapped the FPLD locus to chromosome 1q21-22. The maximum two-point lod score obtained with a highly polymorphic microsatellite at D1S2624 at theta(max)=0 was 5.84. Multipoint-linkage analysis yielded a peak lod score of 8.25 between D1S305 and D1S1600. There was no evidence for genetic heterogeneity (alpha=1) in the pedigrees.
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PMID:Localization of the gene for familial partial lipodystrophy (Dunnigan variety) to chromosome 1q21-22. 950 May 56

Alstrom syndrome is a very rare autosomal recessive inherited disorder. Only 50 cases have been reported since the syndrome was first described in 1959. This syndrome is characterized by obesity, impaired glucose tolerance with insulin resistance, retinal degeneration, neurosensory deafness, acanthosis nigricans, hepatic dysfunction, and some endocrine disorders. The index case of this report was a 12-year-old girl who became blind at the age of 6 years as the result of progressively impaired vision. At the age of 12, diabetes mellitus was diagnosed and acanthosis nigricans presented in the neck, axilla, and groin regions. Her 10-year-old brother had similar symptoms. Electroretinography and audiometry disclosed generalized pigmentary epithelial change, decreased to absent cone and rod responses, and moderate sensorineural hearing loss in both siblings. Biochemistry and oral glucose tolerance tests showed diabetes mellitus, dyslipidemia, and hepatic dysfunction in the index case. Elevations of insulin, C-peptide, and leptin concentrations were found in both siblings. Insulin resistance was also demonstrated in both siblings using the modified insulin suppression test with constant infusion of somatostatin and exogenous insulin.
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PMID:Alstrom syndrome in two siblings. 1126 60

Acanthosis nigricans (AN) has been recognized as a marker of insulin resistance and diabetes mellitus. We have compared frequency of race and metabolic disturbances in obese women with several degrees of AN (AN group, N = 190) to a group without AN (non-AN group, N = 61) from a mixed racial population. The groups were similar regarding age and body mass index. All patients (except the diabetic patients) underwent an oral glucose tolerance test (75 g). The racial distribution of this population was 35.1% white, 37.8% mulatto and 27.1% black and the frequency of AN was 62.5, 82.1 and 83.8%, respectively, higher in black versus white (P = 0.003) and mulatto versus white (P = 0.002) women. The frequencies of diabetes mellitus and impaired glucose tolerance were 5.8 and 12.6% in the AN group and 1.6 and 8.2% in the non-AN group, respectively (P>0.05). Fasting glucose, beta cell function determined by the homeostasis model of assessment (HOMA), fasting insulin and insulin area under the curve were similar for the AN and non-AN groups. A higher HOMA insulin resistance was observed in the AN group compared to the non-AN group (P = 0.02) and in the subgroup of highest degree of AN compared to those with other degrees. The mean lipid levels and the frequency of dyslipidemia were similar for the two groups. AN was strongly associated with the black or mulatto rather than the white race, even after taking into account the effect of age, body mass index and HOMA insulin resistance.
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PMID:Association of acanthosis nigricans with race and metabolic disturbances in obese women. 1174 15

Nuclear lamins A and C are encoded by LMNA and are present in terminally differentiated cells. Rare mutations in LMNA were shown to cause familial partial lipodystrophy, a syndrome characterized by regional loss of adipose tissue, glucose intolerance, and dyslipidemia, making LMNA a candidate gene for insulin-resistant diabetes. The aim of this study was to investigate whether genetic variation in LMNA can influence the risk of type 2 diabetes in a Japanese cohort. First, we performed mutational screening of LMNA by polymerase chain reaction-single-strand conformation polymorphism (PCR-SSCP) and sequence analysis in 8 insulin-resistant males with acanthosis nigricans who were not lipodystrophic. One known single nucleotide polymorphism, 1908C/T, was found in exon 10. We subsequently screened samples of 171 nondiabetic and 164 type 2 diabetic male subjects for the presence of the 1908C/T polymorphism by PCR-restriction fragment length polymorphism (RFLP). The frequency of subjects with the 1908T allele tended to be higher in the diabetic group than in the nondiabetic group; however, the difference was not significant (43.9% v 32.2%) (P =.084). Carriers of the 1908T allele, both among diabetics and nondiabetics, showed significantly higher fasting insulin, triglycerides (TG), total cholesterol (TC), and lower high-density lipoprotein-cholesterol (HDL-C) levels than those of the 1908C/C subjects. These results suggest the LMNA 1908C/T single nucleotide polymorphism (SNP) is not associated with the prevalence of type 2 diabetes, although it may be a factor predisposing to insulin resistance and dyslipidemia in some Japanese.
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PMID:An LMNA variant is associated with dyslipidemia and insulin resistance in the Japanese. 1214 75

Compensatory hyperinsulinemia stemming from peripheral insulin resistance is a well-recognized metabolic disturbance that is at the root cause of diseases and maladies of Syndrome X (hypertension, type 2 diabetes, dyslipidemia, coronary artery disease, obesity, abnormal glucose tolerance). Abnormalities of fibrinolysis and hyperuricemia also appear to be members of the cluster of illnesses comprising Syndrome X. Insulin is a well-established growth-promoting hormone, and recent evidence indicates that hyperinsulinemia causes a shift in a number of endocrine pathways that may favor unregulated tissue growth leading to additional illnesses. Specifically, hyperinsulinemia elevates serum concentrations of free insulin-like growth factor-1 (IGF-1) and androgens, while simultaneously reducing insulin-like growth factor-binding protein 3 (IGFBP-3) and sex hormone-binding globulin (SHBG). Since IGFBP-3 is a ligand for the nuclear retinoid X receptor alpha, insulin-mediated reductions in IGFBP-3 may also influence transcription of anti-proliferative genes normally activated by the body's endogenous retinoids. These endocrine shifts alter cellular proliferation and growth in a variety of tissues, the clinical course of which may promote acne, early menarche, certain epithelial cell carcinomas, increased stature, myopia, cutaneous papillomas (skin tags), acanthosis nigricans, polycystic ovary syndrome (PCOS) and male vertex balding. Consequently, these illnesses and conditions may, in part, have hyperinsulinemia at their root cause and therefore should be classified among the diseases of Syndrome X.
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PMID:Hyperinsulinemic diseases of civilization: more than just Syndrome X. 1452 33

Seckel syndrome is a rare, recessively inherited disorder of severe growth retardation with low birth weight and distinct craniofacial, orodental and skeletal anomalies. In addition to these characteristics, some cardiovascular, hematopoietic, endocrine and central nervous system abnormalities have also been described. We report a patient with Seckel-like syndrome who has precocious puberty associated with non-classical congenital adrenal hyperplasia (NCCAH). She was admitted to our clinic three times. She was diagnosed as having Seckel-like syndrome and premature thelarche at the age of 8.9 years. At 10.9 years old she was admitted to our clinic with pubic hair and cliteromegaly. Hormonal findings revealed NCCAH and hydrocortisone therapy was offered but the patient was non-compliant. At 13.6 years she had acanthosis nigricans as an additional clinical finding and her pubertal stage was 4. She had irregular menses. On hormonal evaluation she had euglycemic hyperinsulinism accompanying mild hypertriglyceridemia and functional ovarian hyperandrogenism. Premature pubarche, hyper-insulinism, dyslipidemia, and hyperandrogenism, and some combinations of these, can be associated with reduced fetal growth. This is the first report of hyperinsulinism, and probably NCCAH, in association with Seckel syndrome.
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PMID:Seckel-like syndrome: a patient with precocious puberty associated with nonclassical congenital adrenal hyperplasia. 1496 29

The insulin resistance syndrome (syndrome X, metabolic syndrome) has become the major health problem of our times. Associated obesity, dyslipidemia, atherosclerosis, hypertension, and type 2 diabetes conspire to shorten life spans, while hyperandrogenism with polycystic ovarian syndrome affect the quality of life and fertility of increasing numbers of women. Whereas a growing number of single genetic diseases affecting satiety or energy metabolism have been found to produce the clinical phenotype, strong familial occurrences, especially in racially prone groups such as those from the Indian subcontinent, or individuals of African, Hispanic, and American Indian descents, together with emerging genetic findings, are revealing the polygenetic nature of the syndrome. However, the strong lifestyle factors of excessive carbohydrate and fat consumption and lack of exercise are important keys to the phenotypic expression of the syndrome. The natural history includes small for gestational age birth weight, excessive weight gains during childhood, premature pubarche, an allergic diathesis, acanthosis nigricans, striae compounded by gynecomastia, hypertriglyceridemia, hepatic steatosis, premature atherosclerosis, hypertension, polycystic ovarian syndrome, and focal glomerulonephritis appearing increasingly through adolescence into adulthood. Type 2 diabetes, which develops because of an inherent and/or an acquired failure of an insulin compensatory response, is increasingly seen from early puberty onward, as is atheromatous disease leading to coronary heart disease and stroke. A predisposition to certain cancers and Alzheimer's disease is also now recognized. The looming tragedy from growing numbers of individuals affected by obesity/insulin resistance syndrome requires urgent public health approaches directed at their early identification and intervention during childhood. Such measures include educating the public on the topic, limiting the consumption of sucrose-containing drinks and foods with high carbohydrate and fat contents, and promoting exercise programs in our nation's homes and schools.
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PMID:Insulin resistance syndrome in children. 1518 Oct 20

Insulin resistance, the impaired action of insulin, has been linked to many important consequences, including Type 2 diabetes, hypertension, dyslipidemia, acanthosis nigricans and polycystic ovarian syndrome. Although there are some genetic causes for insulin resistance, the most common cause is an excess of nutrition a condition called "Nutrient Toxicity". Both excess glucose and excess fat can cause insulin resistance in muscle and fat tissues and excess fat can cause insulin resistance in the liver. High fat feeding and fat infusion rapidly lead to the development of insulin resistance caused by impairment in glucose transport. Other studies have shown defects in insulin signaling possibly secondary to activation of Protein Kinase C resulting from the accumulation of active fatty acyl CoA's. Glucose toxicity has been studied both in vivo and in vitro. In vivo it has been shown that rats over-expressing the gluconeogenic enzyme Phosphoenol Pyruvate Carboxykinase (PEPCK) develop insulin resistance in fat and muscle tissues and some features of the metabolic syndrome including mild obesity and dyslipidemia. Excess glucose entry in fat cells results in increased flux through the hexosamine biosynthesis pathway leading to activation of protein kinase C and impairment of glucose transport. Obesity resulting from excess nutrient intake can also cause insulin resistance by an increase in the production of agents that impair insulin action such as TNFalpha and resistin and a decrease in the production of an insulin sensitizing compound adiponectin. Both glucose and free fatty acids acutely stimulate insulin secretion but chronic exposure to high levels of either nutrient leads to impairment of beta cell function. The combination of insulin resistance and beta cell failure leads to diabetes. Nutrient toxicity is thus the driving cause of the diabetes epidemic that is being recorded around the world.
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PMID:Mechanisms of insulin resistance caused by nutrient toxicity. 1620 73

Polycystic ovary syndrome (PCOS) is a diagnosis made between late adolescence and the menopause in 5-10% of women. PCOS is a heterogeneous disorder of unknown etiology characterized by hyperandrogenic chronic anovulation. This syndrome consists of a diverse constellation of signs and symptoms, such as hirsutism, acne, acanthosis nigricans, obesity, menstrual irregularities, anovulation, and/or infertility. Features of the metabolic syndrome, including obesity, insulin resistance, and dyslipidemia, are common in this patient population. Recent insights into the pathophysiology of PCOS have shown insulin resistance and hyperinsulinemia to play a substantial role. Insulin resistance is increasingly recognized as a chronic, low-level, inflammatory state. Recent studies show that serum levels of inflammatory mediators, such as tumor necrosis factor-alpha and interleukin-6, are increased in the insulin-resistant conditions of obesity and PCOS. The optimal modality for long-term treatment should have positive effects on androgen synthesis, sex hormone-binding globulin production, the lipid profile, insulin sensitivity, inflammatory mediators, and clinical symptoms including acne, hirsutism, and irregular menstrual cycles. Treatment with insulin-sensitizing agents is a relatively new therapeutic strategy in women with PCOS. Current research has shown that the use of diabetes mellitus management practices aimed at reducing insulin resistance and hyperinsulinemia (such as weight reduction and the administration of oral antidiabetic drugs) can not only reverse testosterone and luteinizing hormone abnormalities and restore menstrual cycles, but can also improve glucose, insulin, proinflammatory cytokine, and lipid profiles.Clinical treatment with troglitazone, a member of the thiazolidinedione family, for the management of PCOS complications such as insulin resistance, hyperandrogenism, and anovulation was found to have beneficial effects; however, it was taken off the market over concerns of hepatotoxicity. Although troglitazone is no longer available in the US, numerous clinical trials have established the role of thiazolidinediones in the treatment of women with PCOS. Clinical data emerging regarding the utility of two of the newer, safer thiazolidinediones, pioglitazone and rosiglitazone, for this patient population, consistently demonstrate effective improvements of endocrine and ovulatory performance in women with PCOS. The benefit and importance of lifestyle modification and weight reduction, when it can be achieved, is still an important component in the long-term treatment of PCOS. Pharmacologic reduction in insulin levels using thiazolidinediones appears to offer another therapeutic modality for PCOS, which may ameliorate the progress of both hyperinsulinemia and hyperandrogenism. However, additional studies of patients so treated are necessary before these agents can be considered first-line treatment for PCOS. Convincing data from randomized controlled trials with sufficient power to detect both the benefits and risks of long-term treatment with thiazolidinediones in women with PCOS remain to be obtained.
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PMID:Thiazolidinediones for the therapeutic management of polycystic ovary syndrome : impact on metabolic and reproductive abnormalities. 1667 59

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