Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0020473 (
hyperlipidemia
)
15,891
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Starting from previous observations emphasizing an increased pseudocholinesterase (PCE) activity in obese and hyperlipemic subjects, the behaviour of this enzyme and of ceruloplasmin was studied in connection with changes of serum lipids and lipoproteins in various types of hyperlipoproteinemia. When compared to values detected in 67 middle-aged normal weight normolipemic subjects, PCE activity was found to be significantly greater (smaller than 0.001) in the 49 overweight subjects without obvious
hyperlipemia
but presenting a moderate increase of the prebeta electrophoretic fraction. PCE activity was much higher in lean or overweight subjects with endogenous hypertriglyceridemia (68 patients with type IV and 86 patients with
mixed hyperlipemia
). The slight increase of mean values of PCE activity in the 53 subjects with type II-a was due mainly to overweight subjects, while this enzyme's activity was not significantly changed in lean subjects with pure hypercholesterolemia. PCE activity was positively correlated with serum triglyceride (r equals 0.540; p smaller than 0.001) and the prebeta electrophoretic fraction (r equals 610; p smaller than 0.001). The correlation with beta-lipoproteins was not significant. Ceruloplasmin levels were not significantly changed. It is suggested that elevation of PCE activity could be connected to mechanisms leading to an increased secretion rate of lipoproteins.
...
PMID:Serum pseudocholinesterase and ceruloplasmin in various types of hyperlipoproteinemia. 16 6
The interest of diet is particularly clear in
mixed hyperlipemia
. In fact, the authors were only able to define the type of lipid abnormality after a test diet and prolonged supervision. One should never treat
mixed hyperlipemia
straightaway with hypocholesterolemic agents. The authors studied 22 patients with a form only demonstrable in the laboratory. There were no clinical signs of arteriosclerosis. In the group of dyslipemic subjects with minor
hyperlipemia
, they obtained normal figures for serum cholesterol and triglyceride. The results remained stable after 4 months supervision.
...
PMID:[Mixed hyperlipoproteinemias. Importance of diet]. 18 59
Transport of free fatty acids from the blood into the splanchnic region and their conversion to triglycerides of very low density lipoproteins, together with estimates of splanchnic oxidation of free fatty acids to ketones and to carbon dioxide and water, have been made in the postabsorptive state in seven normolipemic subjects, six with primary endogenous
hyperlipemia
and one each with primary dysbetalipoproteinemia and
mixed hyperlipemia
. Net systemic transport of free fatty acids into the blood was the same in normolipemic and hyperlipemic groups, but a greater fraction was taken up in the splanchnic region in the latter. Transport into the blood in very low density lipoproteins of triglyceride fatty acids derived from free fatty acids was proportional and bore the same relationship to splanchnic uptake of free fatty acids in the two groups. In normolipemic subjects, near equilibration of specific activities after 4 hr infusion of palmitate-1-(14)C showed that almost all triglyceride fatty acids of very low density lipoproteins and acetoacetate were derived from free fatty acids taken up in the splanchnic region. In the hyperlipemic subjects, equilibration of free fatty acidcarbon with acetoacetate was almost complete, but not with triglyceride fatty acids, owing at least in part to increased pool size. Comparison of the rate of equilibration of triglyceride fatty acids-(14)C with rate of inflow transport from the splanchnic region, together with other data, indicated that most of the circulating triglyceride fatty acids of very low density lipoproteins in hyperlipemic subjects were also derived from free fatty acids. Although mean inflow transport of triglyceride fatty acids was greater in the hyperlipemic subjects, it correlated poorly with their concentration and it appeared that efficiency of mechanisms for extrahepatic removal must be a major determinant of the concentration of triglycerides in blood plasma of the normolipemic as well as the hyperlipemic subjects. Estimates of splanchnic respiratory quotient supported the concept that oxidation of free fatty acids accounts for almost all of splanchnic oxygen consumption in the postabsorptive state. Splanchnic oxygen consumption was greater in the hyperlipemics, but fractional oxidation of free fatty acids to ketones was higher in normolipemic subjects. Calculations of splanchnic balance indicate that a larger fraction of free fatty acids was stored in lipids of splanchnic tissues in the hyperlipemics. No differences were found between the two groups in net splanchnic transport of glucose, lactate, or glycerol.
...
PMID:Splanchnic metabolism of free fatty acids and production of triglycerides of very low density lipoproteins in normotriglyceridemic and hypertriglyceridemic humans. 547 85
Type V hyperlipoproteinemia
(HLP) is characterized clinically by hepatosplenomegaly, occasional eruptive xanthomas, and an increased incidence of pancreatitis. These patients have striking hypertriglyceridemia due to increased plasma chylomicron and very low density lipoprotein concentrations in the fasting state, without a deficiency of lipoprotein lipase or its activator protein, apolipoprotein (apo) C-II. ApoE, a protein constituent of triglyceride-rich lipoproteins, has been implicated in the receptor-mediated hepatic uptake of these particles. ApoE has three major alleles: E2, E3, and E4, and the products of these alleles are apoE2, apoE3, and apoE4, respectively. ApoE phenotypes were determined in 30 type V HLP patients as well as in 37 normal volunteers. Among the type V patients, 33.3% were noted to be homozygous, and 40.0% heterozygous for E4 (normal, 2.7 and 21.6%, respectively). These data suggest that apoE4 may play a role in the etiology of the
hyperlipidemia
in a significant number of type V HLP patients.
...
PMID:Increased prevalence of apolipoprotein E4 in type V hyperlipoproteinemia. 709 73
Serum lipids were analyzed in 16 patients with active acromegaly. Of these 62.5% had
hyperlipidaemia
defined as exceeding and 90% fiducial limits of normal controls. The mean serum cholesterol (5.50 mmol/l) and triglyceride (4.09 mmol/l) levels of the patients were significantly higher than those of age-matched normal controls.
Type V hyperlipoproteinaemia
was observed in two cases and type III hyperlipoproteinaemia in one. There was no difference in the incidence of diabetes between the normolipidaemic (n = 6) and hyperlipidaemic (n = 10) groups. Serum levels of growth hormone in hypercholestelaemic patients (n = 3) were significantly higher than those of normolipidaemic patients and combined hyperlipidaemic patients (n = 5 tended to have higher levels of growth hormone than normolipidaemic patients. In cases developing type III or type V hyperlipoproteinaemia, the activity of hepatic triglyceride lipase of lipoprotien lipase was decreased, but in increased when serum GH levels fell after therapy for acromegaly. It is suggested that 1) growth hormone may play some role on the pathogenesis of
hyperlipidaemia
associated with acromegaly, and 2) growth hormone has an inhibitory effect on H-TGL and LPL, and so hyperlipoproteinaemia in some cases of acromegaly might be caused by low H-TGL or LPL activity resulting from high growth hormone levels.
...
PMID:The incidence and pathogenesis of hyperlipidaemia in 16 consecutive acromegalic patients. 711 4
Familial lipodystrophy is a genetically heterogeneous set of disorders characterized by a total or partial absence of subcutaneous fat, diabetes mellitus or impaired glucose tolerance,
hyperlipidemia
, and hypermetabolism [Senior and Gellis, 1964]. One subtype, familial partial lipodystrophy Dunnigan (FPLD), is a rare autosomal dominant trait that results in an gradual loss of subcutaneous fat in the lower trunk and limbs,
Type V hyperlipoproteinemia
, hypertriglyceridemia, and insulin-resistant diabetes. Previous reports of this condition have been limited to case reports or very small families. Recently, Peters et al. reported on linkage of five families of Western European descent to a 5.3 cM region on chromosome 1q21-22 between the flanking markers D1S305 and D1S1600 [Peters et al., 1998: Nat Genet 18:292-295]. We performed linkage and haplotype analysis using highly polymorphic, microsatellite markers on a large, multigeneration Caucasian kindred of German ancestry. The maximum two-point lod score achieved was 4.96 at theta(max) = 0 for marker D1S2721. Multipoint analysis gave an overall maximum lod score of 6.27 near marker D1S2721. The results of the haplotype analysis support the minimal candidate region as reported by Peters et al.
...
PMID:Confirmation of linkage of hereditary partial lipodystrophy to chromosome 1q21-22. 993 82
The increased risk for coronary artery disease observed in postmenopausal women is partly explained by a more atherogenic fasting lipoprotein profile. Moreover, natural menopause has been associated with an altered postprandial lipid profile. To better characterize the interaction between fasting and postprandial lipid profile after menopause, we examined postprandial changes in several lipid parameters in three age-matched groups of postmenopausal women (16 affected by
mixed hyperlipemia
, 17 by common hypercholesterolemia, and 17 normolipemic), who underwent a standardized oral fat-loading test. The magnitude of postprandial
lipemia
, expressed as 8-hour triglyceride incremental area under the curve, was greater in women with
mixed hyperlipemia
(1,326 +/- 372 mg x dL(-1) x h(-1)) than in normal (484 +/- 384 mg x dL(-1) x h(-1)) and hypercholesterolemic (473 +/- 223 mg x dL(-1) x h(-1); both P <.0001) women, and the differences held after adjustment for body mass index and fasting insulin. Women with
mixed hyperlipemia
showed a significant postprandial decrease in high-density lipoprotein 2 (HDL(2)) cholesterol, lipoprotein (a), and low-density lipoprotein (LDL) particle size. Both hypercholesterolemic and normolipemic women showed a significant postprandial decrease in HDL cholesterol and lipoprotein (a) levels but not in LDL size. In a multiple linear regression analysis, fasting triglyceride levels, insulin level, and waist-hip ratio were all independent predictors of the magnitude of postprandial
lipemia
. In conclusion, postmenopausal women with
mixed hyperlipemia
show a greater postprandial triglyceride increase and a more pronounced reduction in HDL cholesterol level and LDL size than hypercholesterolemic and normolipemic subjects. The presence of the features of insulin resistance syndrome could contribute to the deterioration of postprandial lipemic response in these subjects.
...
PMID:Postprandial lipemia and associated metabolic disturbances in healthy and hyperlipemic postmenopausal women. 1123 Jul 87
