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Query: UMLS:C0242339 (
dyslipidemia
)
13,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Atherosclerotic manifestations are more common and precocious in diabetics than in the general population. Due to the increased cardiovascular risk, a primary or secondary (to diabetes mellitus)
lipoprotein disorder
in diabetics has to be carefully considered. 27 diabetics (15 NIDDM and 12 IDDM) with
dyslipidemia
(14 type IV, 8 type IIa and 5 type IIb) were divided in 3 groups and treated with 3 different hypolipemic drugs (Group A: pantethine 600 mg/day; Group B: acipimox 500 mg/day; Group C: bezafibrate 600 mg/day) to test their efficacy and acceptancy. Body weight, Hb A1-c, serum lipoproteins have been measured before and during the 6 months treatment. A significant variation of lipidemic pattern was observed in Group C: a decrease of cholesterol (-20%), triglycerides (-40%), LDL (-24.4%) and apo B (-26.8%) with an increase of HDL (+23.6%). Pantethine and acipimox were more effective on triglycerides (-37.7% and -23.3% respectively). Cardiovascular risk (CT tot/CT HDL) was significantly reduced with acipimox and normalized with bezafibrate.
...
PMID:[Comparison of the efficacy of pantethine, acipimox, and bezafibrate on plasma lipids and index of cardiovascular risk in diabetics with dyslipidemia]. 174 76
One hundred forty-seven relatives of 43 patients with "classical" type III hyperlipoproteinemia (HLP) having the apolipoprotein (apo) E2/2 phenotype were studied to determine the occurrence of hyperlipidemia and the presence of further possible genes for lipoprotein disorders in these families. In 12 pedigrees primary
dyslipidemia
was prevalent among patients and respective blood-relatives. In these kindreds the coexistent presence of genes for familial combined hyperlipidemia (n = 6), familial hypertriglyceridemia (n = 5), and familial hypercholesterolemia (n = 1), respectively, was supposed. Our results, therefore, confirm and extend previous data on the multifactorial genesis of the diseases. Besides homozygosity for a receptor binding-defective isoform of apo E (apo E2), additional genes for familial lipoprotein disorders might operate in the pathogenesis of type III HLP. This is the largest family study performed so far in this primary
lipoprotein disorder
.
...
PMID:Genetics of type III hyperlipoproteinemia. 918 57
More than half of the patients with angiographically confirmed premature coronary heart disease (CHD) have a familial
lipoprotein disorder
. Familial combined hyperlipidaemia (FCHL) represents the most common genetic
dyslipidemia
with a prevalence of 1.0-2.0%. FCHL is estimated to cause 10-20% of premature CHD and is characterized by elevated levels of cholesterol, triglycerides, or both. Attempts to characterize genes predisposing to FCHL have been hampered by its equivocal phenotype definition, unknown mode of inheritance and genetic heterogeneity. In order to minimize genetic heterogeneity, we chose 31 extended FCHL families from the isolated Finnish population that fulfilled strictly defined criteria for the phenotype status. We performed linkage analyses with markers from ten chromosomal regions that contain lipid-metabolism candidate genes. One marker, D1S104, adjacent to the apolipoprotein A-II (APOA2) gene on chromosome 1, revealed a lod score of Z = 3.50 assuming a dominant mode of inheritance. Multipoint analysis combining information from D1S104 and the neighbouring marker D1S1677 resulted in a lod score of 5.93. Physical positioning of known genes in the area (APOA2 and three selectin genes) outside the linked region suggests a novel locus for FCHL on 1q21-q23. A second paper in this issue (Castellani et al.) reports the identification of a mouse combined hyperlipidaemia locus in the syntenic region of the mouse genome, thus further implicating a gene in this region in the aetiology of FCHL.
...
PMID:Linkage of familial combined hyperlipidaemia to chromosome 1q21-q23. 953 21
Dyslipidemia
is said to be present when lipid or lipoprotein levels lie within a range which is known from epidemiological studies to be associated with secondary complications, in particular atherosclerosis of the coronary arteries, or when a lipid or lipoprotein grossly deviates from the norm as in abetalipoproteinemia, hypobetalipoproteinemia or the HDL deficiency syndromes. In most cases,
dyslipidemia
is due not to a single genetic or environmental factor, but to a combination of the effects of several genes of small effect (polygenes) and environment. In other cases, however,
dyslipidemia
is caused by a mutation in a single gene of large effect. In such cases, the extent and nature of the phenotype depends primarily on the identity of the gene involved, but is also modulated to an important degree by the nature of the mutation and the genetic and environmental background against which this mutation occurs. In addition, many cases of hyperlipidemia are secondary to other disorders such as hypothyroidism or renal dysfunction. Such disorders may also unmask or exacerbate a genetic
lipoprotein disorder
. Examples of the latter are the unmasking of type III hyperlipidemia by diabetes mellitus or the exacerbation of familial hypercholesterolemia by hypothyroidism.
...
PMID:Lipoproteins and cardiovascular risk-from genetics to CHD prevention. 963 14
