UMLS:C0020473 - FACTA Search

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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxyhemoglobin dissociation curves (ODC) were performed on blood from diabetic and nondiabetic subjects with and without hypertriglyceridemia. P50 at in vivo pH was slightly lower than normal in normolipemic diabetics (25.7 versus 26.6 mmHg, p less than 0.05), in spite of increased red cell 2,3-diphosphoglycerate concentration (15.4 versus 14.4 mumole/g Hg, p less than 0.025). P50 at in vivo pH in diabetics with moderately elevated very low density lipoproteins (VLDL)--Type IV hyperlipoproteinemia (HLP)--was likewise found to be slightly lower than normal (25.5 versus 26.6 mmHg, p less than 0.05). In contrast, diabetics with pronounced hyperlipemia due to accumulation of chylomicrons (type I HLP) or due to accumulation of chylomicrons (type I HLP) or due to accumulation of chylomicrons as well as VLDL (type V HLP) showed markedly increased hemoglobin--oxygen affinity (P50:21.1 versus 26.6 mmHg, p less than 0.001). The change in the ODC of normolipemic diabetics is considered to be an expresssion of the presence of an increased proportion of a hemoglobin fraction (Hb Alc) with increased oxygen affinity. The additional change in the ODC of the hyperlipemic patients is thought to be secondary to accumulation of triglyceride-rich particles for the following reasons: (1) a similar increase in oxygen affinity of hemoglobin was demonstrated in familial type I HLP of nondiabetic subjects; (2) normal red cells increased their oxygen affinity when incubated in lactescent plasma; (3) in both acquired types I and V HLP the disappearance of HLP was followed by a normalization of the ODC.
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PMID:Hyperlipoproteinemia, diabetes, and oxygen affinity of hemoglobin. 1 60

Oxyhemoglobin dissociation curves were performed from blood of subjects with pancreatitis associated with Type V and Type I hyperlipoproteinemia. The hemoglobin-oxygen affininty was markedly increased with P50 varying from 22.3 to 17.7 mmHg. As the hyperlipoproteinemia subsided the clinical and laboratory signs of pancreatic affection disappeared. The increased hemoglobin-oxygen affinity and decreased flow of red cells due to hyperchylomicronemia in the microcirculation may lead to tissue hypoxia, which may act as a precipitating injurious factor leading to pancreatitis during severe hyperlipemia.
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PMID:Increased hemoglobin-oxygen affinity in patients with pancreatitis associated with type I and V hyperlipoproteinemia. 2 74

Detailed studies of hepatic metabolism of lipemic BHE and nonlipemic Wistar rats were conducted. Hepatic lipogenic capacity was varied through the use of starvation or meal feeding. Livers were clamped in precooled copper plates and used for the assay of glycolytic, gluconeogenic, and lipogenic metabolites. Redox and phosphorylation states were calculated. Mitochondrial metabolism was evaluated through studies of the oxygen consumption of isolated mitochondria and through the study of the activities of the alpha-glycerophosphate and malate aspartate shuttles and ATPase. BHE rats have higher phosphorylation states, higher redox ratios, and lower shuttle activities and oxygen consumption by isolated mitochondria than their Wistar cohorts. The differences in oxidative phosphorylation, redox and phosphorylation states, and in the various shuttle activities suggest that BHE liver cells are geared towards lipogenesis at the expense of oxidative phosphorylation. It appears that the activity of the shuttles is controlled in part by phosphorylation state which in turn appears to affect respiration. We theorize from these data that genetically determined differences in the structure and function of the mitochondrial membrane (and perhaps the cell membrane as well) may affect the communication (via metabolites and adenine nucleotides) between the cytosol and mitochondria. Subtle differences in the exchange of metabolites and/or adenine nucleotides across the mitochondrial membrane could thus explain the lipogenic tendency of the liver of the BHE rat and the subsequent development of maturity onset hyperlipemia and hyperglycemia in this strain of rat.
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PMID:Studies on the control of lipogenesis: strain differences in hepatic metabolism. 43 Feb 26

We assessed the analytical performance of the co-immobilized hexokinase (EC 2.7.1.1) and glucose-6-phosphate dehydrogenase (EC 1.1.1.49) method for D-glucose analysis on the Technicon SMAC. The enzyme-containing coils were usable for one month, or 12 000 tests. Bilirubin, hemoglobin, lipemia, creatinine, uric acid, citric acid, and ascorbic acid did not interfere. Results with this method were compared to those by the National Glucose Reference Method. The upper limits of the total error estimate (a combination of random and systematic errors) were 76, 74, and 125 mg/liter at concentrations of 500, 1200, and 3000 mg/liter, respectively. The error estimates were less than allowable errors based on medical usefulness; thus the method was judged to perform acceptably with respect to the Reference Method. We also present performance data for the routine SMAC glucose oxidase (EC 1.1.3.4)/Peroxidase (EC 1.11.1.7) 3-methyl-2-benzothianolinone hydrazone-N,N-dimethylaniline method, the direct hexokinase method with the Du Pont aca, and the glucose oxidase oxygen-rate method with the Beckman Glucose Analyzer.
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PMID:Evaluation of the co-immobilized hexokinase/glucose-6-phosphate dehydrogenase method for glucose, as adapted to the Technicon SMAC. 65 1

One unit (500 ml) of 10% Intralipid (an intravenous soy bean oil-egg yolk lecithin preparation) was infused into 20 normal subjects over 4 hr. Serum triglyceride concentration and plasma optic density (at 700 nm) increased to maximal levels of 339 +/- 102 mg/100 ml and 1.14 +/- 0.41, respectively, at the completion of the infusion, and returned to basal levels in most subjects within 4 hr. Pulmonary membrane diffusion was decreased in six subjects at rest and with exercise at 25 and 50% maximum oxygen uptake. Only one subject showed a minor change in PO2 and none showed clinical signs of ischemia. The changes in pulmonary diffusion reverted to basal levels when serum lipids were cleared. Heparin (60 IU/kg) prevented the marked increase in serum lipids and, as a consequence, the changes in pulmonary function. Changes in pulmonary function from Intralipid-induced lipemia are similar to those known to result from diet-induced lipemia. The findings suggest that in the presence of normal vasculature and pulmonary function, Intralipid-induced lipemia should cause no clinical consequences. However, patients with preexisting pulmonary or vascular disease may be at greater risk after Intralipid-induced lipemia.
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PMID:Relationship between Intralipid-induced hyperlipemia and pulmonary function. 81 3

An analysis of polycardiographic parameters prior to and following treadmill exercises was conducted in 124 males, aged 39-59 years; in 57 of them the blood lipids level was normal, in 67--elevated (cholesterol level 260 mg% and higher in those aged 39--49 and 280 mg% and higher for those aged 50-59, or triglycerids--300 mg% and higher for both age-groups). In persons with elevated levels of lipids in blood during early restitution (after 2 min.) following submaximal physical exercises polycardiogrammes demonstrated a phase syndrome of hypodynamia irrespective of the fact whether an ischaemic depression of the ST segment appeared on the ECG tracings in response to the exercises or not. The functional deficiency of the myocardium in patients with hyperlipidemia is most probably explained by the hampered oxygen transport from the erythrocytes via the hyperlipidemic plasma to the heart muscle.
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PMID:[Hyperlipemia and functional state of the myocardius according to the analysis of the polycardiograph under conditions of submaximal physical exercise]. 89 5

The present studies were undertaken to elucidate the pathophysiological effects of postalimentary lipemia(PAL) induced by the intake of much animal fat in patients with ischemic heart disease(IHD) and the preventive measures against them. Results obtained were as follows: 1) Occurrence of augmentation of ischemic changes in ECG was demonstrated after fat intake. 2) After fat intake, lowering of arterial oxygen tension and heparin-induced increase in arterio-venous difference of oxygen tension in the forearm were observed. 3) PAL resulted in an acceleration of platelet adhesiveness as well as a shortening of plasms recalcification time and that of plasma prothrombin time. 4) It was revealed that red blood cells adsorbed fat on their membrane and then readily agglutinate together. 5) Removal of chylomicrons from the blood stream was accelerated by the intravenous injection of glucose. These results lead to the following conclusions: 1)PAL exerts a deleterious effect on the oxygen supply to the myocardium in patients with IHD and it is probably due to the disturbance of pulmonary function and that of oxygen diffusion and blood flow in the myocardium. 2) As one of preventive measures against the concurrent intake of carbohydrate in an appropriate quantity appears to be of use.
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PMID:Studies on pathophysiological effects of postalimentary lipemia in patients with ischemic heart disease. 111 85

Nitroglycerin and the long-acting nitrates are widely used in all of the anginal syndromes and have proven effectiveness in relieving or preventing myocardial ischemia. Recent developments into nitrate mechanisms of action provide new insights as to the many anti-ischemic effects of these agents. Important concepts relating to coronary arterial endothelial function are germane to nitrate therapy. Endothelial-derived relaxing factor (EDRF) is presently believed to be nitric oxide (NO), which exerts vasodilatory and/or antiplatelet actions by increasing intracellular cyclic guanosine monophosphate as a result of activation of the enzyme guanylate cyclase. In the setting of coronary atherosclerosis, or even hyperlipidemia without histologic vascular disease, endothelial dysfunction may be present, promoting a vasoconstrictor/proplatelet aggregatory milieu. Nitroglycerin and the organic nitrates are NO donors; NO is the final product of nitrate metabolism, and in the vascular smooth muscle NO induces relaxation, resulting in vasodilation of arteries and veins. In the presence of inadequate EDRF production and/or release, it appears that nitroglycerin may partially replenish EDRF-like activity. Nitrates have long been known to have major peripheral circulatory actions resulting in a marked decrease in cardiac work. Venodilation and arterial relaxation result in a decrease in intracardiac chamber size and pressures, with a resultant decrease in myocardial oxygen consumption. In addition, a variety of direct coronary circulatory actions of the nitrates have been documented. These include not only epicardial coronary artery dilation, but the prevention of coronary vasoconstriction, enhanced collateral flow, and coronary stenosis enlargement. Recent work suggests that the nitrates may also act by preventing distal coronary artery or collateral vasoconstriction, which can reduce blood flow downstream from a total coronary obstruction. Thus, there are many anti-ischemic mechanisms of action by which nitroglycerin and the organic nitrates may be beneficial in both acute and chronic ischemic heart disease syndromes. The unique salutory effects of the nitrates in subjects with left ventricular dysfunction or congestive heart failure make these drugs particularly attractive for patients with abnormal systolic function and intermittent myocardial ischemia. Finally, the emergent role of intravenous nitroglycerin in acute myocardial infarction offers new prospects that nitrate therapy may prove to be beneficial in acute myocardial infarction as well as postmyocardial infarction for the reduction of left ventricular remodeling.
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PMID:Mechanisms of action of the organic nitrates in the treatment of myocardial ischemia. 152 24

It is generally recognized that formation of a platelet-fibrin-rich thrombus in an atherosclerotic coronary artery is the basis of unstable angina and acute myocardial infarction. Platelet hyperactivity has been identified in coronary risk factors such as hyperlipidemia and diabetes mellitus. Persistent activation of these cells results in release of growth factors that may contribute to the progression of atherosclerosis. Several recent studies show that endothelium, by generating or metabolizing a host of vasoactive substances, plays a critical role in the modulation of vascular tone. Important among these substances are prostacyclin (PGI2) and endothelium-derived relaxing factor (EDRF). The endothelium-dependent modulation of coronary artery tone correlates with the severity of atherosclerosis and the number of coronary risk factors. Procedures such as angioplasty and coronary bypass surgery injure the endothelium. The loss of endothelial smooth muscle relaxant function may contribute to the vasoconstriction and thrombosis often observed soon after these procedures. Thrombolysis (and subsequent reperfusion of the coronary artery) is also associated with severe endothelial dysfunction, with a resulting vasoconstrictor influence on the coronary vascular bed. Activation of leukocytes and their presence in the reperfused myocardium contribute to progression of myocardial injury by release of oxygen free radicals and proteolytic enzymes. Thus, it seems that a perturbation in this delicate equilibrium in cellular interactions relates to genesis and progression of myocardial ischemia.
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PMID:Platelet-leukocyte-endothelial interactions in coronary artery disease. 154 43

The oxygen supply of inner media and thickened intima of atherosclerosis prone arteries depends largely on diffusion from the endothelium. Conditions which increase wall thickness and oxygen diffusion or reduce oxygen transmissibility produce hypoxia and steep PO2 gradients within the wall. Cerebral injury and myocardial reperfusion studies indicate that intermittent hypoxia and steep PO2 gradients lead to oxyradical formation and tissue damage. Products of lipid and sterol peroxidation are found in atherosclerotic plaques and can be generated by arterial wall cells in culture. It is likely that peroxidation occurs directly within the arterial wall. Sufficient oxyradical generation occurs during normal oxygen metabolism that local scavenger mechanisms are required to avoid tissue damage. Experimental hypertension, hyperlipemia and balloon injury produce medial hypoxia with steep PO2 gradients and redistribution of the pattern of arterial wall antioxidant enzymes. This suggests that minor deviations from normal arterial wall anatomy and function can lead to oxyradicals which can be directly injurious and can amplify the atherogenic potential of lipoprotein infiltration.
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PMID:Arterial wall oxygenation, oxyradicals, and atherosclerosis. 179 56

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