Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Splanchnic metabolism was studied to quantify changes underlying the fatty liver, hyperlipemia, and hypoglycemia produced by ethanol. Four subjects fasted for 15 h were compared with five subjects fasted for 69 h under basal conditions and during continuous intravenous infusion of sufficient ethanol to give a concentration of 3-5 mM in arterial blood plasma. Splanchnic storage of fatty acids was estimated from the difference between uptake of FFA and secretion of derived products. Basal values for splanchnic uptake of FFA were twofold higher after the 69-h fast while splanchnic storage of fatty acids and production of ketone bodies increased threefold. Values for basal secreation into the blood of triglycerides derived from FFA were similar in the two groups. In both nutritional states, the fraction of FFA taken up in the splanchnic region oxidized to ketone bodies and to CO2 fell when ethanol was given because of preferential oxidation of ethanol to acetate, and the fraction esterified rose. However, systemic transport and splanchnic uptake of FFA fell with ethanol in subjects fasted 15 h, so that neither storage of triglycerides in splanchnic tissues nor secretion into the blood increased. In subjects fasted 69 h, ethanol increased transport of FFA and splanchnic storage of fat. In all but one subject it also increased secretion of triglycerides into the blood. The concentration of glucose in blood fell during ethanol infusion in all five subjects undergoing the 69-h fast. Mean splanchnic glucose production was maintained at about one-half of the pre-ethanol value, despite virtual cessation of splanchnic uptake of lactate and of those amino acids that are metabolized via malate. Quantitative estimates of extrasplanchnic metabolism suggest that enhanced formation of alpha-glycerophosphate from glucose, in addition to impaired hepatic gluconeogenesis, may contribute to ethanol-induced hypoglycemia in man.
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PMID:Effects of a 3-day fast and of ethanol on splanchnic metabolism of FFA, amino acids, and carbohydrates in healthy young men. 17 79

There is conflicting evidence on the effect of hyperlipidaemia on pulmonary diffusing capacity for carbon monoxide (DLCO or TLCO) in man. We have measured the carbon monoxide transfer factor per unit alveolar volume (TLCO/VA or KCO) by the single breath method in 25 patients with hyperlipidaemia, and in three normal subjects before and after infusions of an intravenous fat emulsion, Intralipid. Non-smokers with hyperlipidaemia had normal levels of TLCO/VA, whereas some of the smokers showed a slight reduction. In neither group was there any correlation of TLCO/VA with serum triglyceride or cholesterol concentrations. A reduction in triglyceride concentrations of up to five-fold produced by plasma exchange (three studies in two patients) or by dietary manipulation (one patient) had no significant effect on the levels of TLCO/VA. Intralipid infusion in three normal subjects caused a four- to five-fold increase in serum triglyceride concentration but had no effect on TLCO/VA. We conclude that moderate degrees of hyperlipidaemia have no effect on pulmonary diffusion.
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PMID:Effect of hyperlipidaemia on pulmonary diffusing capacity for carbon monoxide. 48 98

Three levels of iron (5, 29, 307 ppm iron) were fed to rats from conception through the 18th day of lactation. Dams in the 5 ppm iron group and pups in the 5 and 29 ppm iron groups developed anemia characterized by lower hemoglobin and hematocrit values than control animals. Liver and spleen levels of iron in dams and pups in the 5 and 29 ppm iron groups were lower than in the 307 ppm iron groups. Milk iron was lower in the 5 ppm iron group than in the 29 and 307 ppm iron groups. Pups in the 5 ppm iron group had hyperlipidemia characterized by elevated serum triglycerides, cholesterol, and phospholipids. Milk lipids and post-heparin plasma lipoprotein lipase levels in pups did not differ among experimental groups. Triglyceride and CO2 production from [U-14C]glucose were significantly greater in the iron-deficient pups than in control pups. Hyperlipidemia in 18-day-old iron-deficient rat pups appears to be related to increased endogenous production of triglycerides.
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PMID:Iron deficiency hyperlipidemia in 18-day-old rat pups: effects of milk lipids, lipoprotein lipase, and triglyceride synthesis. 61 36

In view of the decreased diffusing capacity recently reported in man during lipid infusion, studies have now been made on the effects of hyperlipidemia on the diffusing capacity for carbon monoxide (DLco). In normal volunteers and patients with hyperlipidemias, DLco and plasma triglyceride concentrations were determined during fat tolerance tests and while the patients were on diets that increased or decreased triglyceride concentrations. During the fat tolerance tests, the largest triglyceride and DLco changes were from 346 mg per 100 ml with a DLco of 18.8 ml per min per mm Hg to 1,545 mg per 100 ml with a DLco of 23.4 ml per min per mm Hg. While patients were on speical diets, the largest triglyceride and DLco changes were from 5,102 mg per 100 ml and 29.0 ml per min per mm Hg to 492 mg per 100 ml and 26.4 ml per min per mm Hg, respectively. Sta tistical tests showed no significant change of DLco with change in triglyceride concentration. The data suggest that there is normally no association between change in triglyceride concentration and change in DLco, and that triglycerides normally transported in plasma, even when present in extreme amounts as chylomicrons or very-low-density lipoprotein, do not affect the DLco.
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PMID:Effect of elevated triglycerides on the diffusing capacity of man. 114 87

Short- and long-term effects of hyperlipidemia with elevated FFA on insulin secretion were investigated. Male Sprague-Dawley rats were fed ad libitum and additionally infused with Intralipid 10%, 1.0 ml/h. After 3 h of Intralipid the response to 27 mM glucose in isolated perfused pancreas was enhanced by 86%, P less than 0.02. After 6 h of Intralipid enhancement had subsided. After 48 h of Intralipid glucose-induced insulin release was inhibited by 49%, from 1950 +/- 177 microU/min after saline to 1003 +/- 232 microU/min after Intralipid, P less than 0.02. Inhibition was glucose-selective since responses to other secretagogues (1 mM 3-isobutyl-1 methylxanthine, 10 mM octanoate, or 5 mM alpha-ketoisocaproic acid) were unaffected as were pancreatic contents of insulin (2284 +/- 111 mU/pancreas after saline, 2566 +/- 131 mU/pancreas after Intralipid). In isolated islets from 48 h lipid infused rats production of [14-C]CO2 from D[U-14-C]glucose was decreased (P less than 0.02) in parallel with the insulin response to 27 mM glucose. Glucose-induced secretion was partially normalized by in vitro exposure to a carnitine palmitoyl-transferase I inhibitor (Etomoxir). Effects of a 48 h lipid infusion were also tested during hyperglycemia. Rats were infused with glucose, and hyperglycemia was enhanced by dexamethasone (25 micrograms/24 h). Hyperglycemia depressed glucose-induced secretion from perfused pancreas from 2072 +/- 22 microU/min after saline + dexamethasone to 1185 +/- 155 microU/min after glucose + dexamethasone, P less than 0.01). Intralipid, added to the latter protocol, further inhibited glucose-induced secretion to 437 +/- 87 microU/min, P less than 0.005. Hyperlipidemia is concluded to be associated with short term stimulation but long term inhibition of glucose-induced insulin secretion. Evidence indicates that inhibition depends on fatty acid oxidation, is coupled to decreased glucose oxidation and operates both during normo- and hyperglycemia.
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PMID:A 48-hour lipid infusion in the rat time-dependently inhibits glucose-induced insulin secretion and B cell oxidation through a process likely coupled to fatty acid oxidation. 169 43

Between 1975 and 1983, 838 patients were randomized into the Program on the Surgical Control of Hyperlipidemias (POSCH) trial: 417 to standard medical care and 421 to partial ileal bypass (PIB) surgery. During the course of the trial, an increased incidence of kidney stone formation was found in the surgery group (4%/year) as compared to the control group (0.4%/year). A matched triplet case-control study was conducted to assess the possible causes for the increased incidence of kidney stones. Three groups were studied: PIB stone-formers (S); PIB non-stone formers (N); and non-PIB, non-stone formers in the control group (C). Initially, 162 patients (54 triplets) were selected. Ten percent of the patients declined to participate which resulted in a sample size of 146 patients. The PIB patients had statistically significant (P less than 0.05) lower levels of serum vitamin D metabolites; lower urine volume, pH, citrate, magnesium, carbon dioxide, and sulfate, and higher urinary oxalate, ammonia and relative supersaturation for calcium oxalate and uric acid than the control patients. Although S and N had similar results, those S with no prior history of stones had a higher calcium oxalate supersaturation than similar N with a negative prior history of stones (P less than 0.025). Based on these results, all PIB patients appear to be at risk for kidney stone formation. The combination of reduced urinary volume and calcium oxalate precipitation inhibitor substance with increased calcium oxalate relative supersaturation produced an increase in nephrolithiasis risk in the PIB groups.
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PMID:Pathogenesis of nephrolithiasis post-partial ileal bypass surgery: case-control study. The POSCH Group. 189 77

The development of ion-selective electrodes (ISEs) for electrolyte measurements necessitates a re-evaluation of the biological and clinical interpretation of a result. In pathological situations (e.g., hyperlipidemia and hyperproteinemia) direct potentiometry is the method of choice for ion measurements in blood. However, the "plasma water effect" exists also in normal samples, requiring new reference values for physiological ranges. A compromise between medical and instrumentation workers retained the old reference values (flame photometry for Na+ and K+) by introducing correction factors into the ISE instruments, so that the results for direct ISE and flame photometry are the same for "normal" samples. Analyses of "abnormal" samples will reveal biases between the two methods. Now, a new generation of electrodes for assaying additional metabolites reopens the issue. Although classical methods measure a quantity of substance in a predetermined volume of sample, the majority of the substance is usually in the aqueous phase, and the volumes occupied by lipid and protein are not taken into consideration. In evaluating the NOVA 12 instrument (NOVA Biomedical), using electrodes for direct measurement in serum or plasma of Na, K, Cl, total CO2, urea, and glucose, we have demonstrated the inadequacy of classical measurements of urea and glucose, especially in pathological situations characterized by a large variation in the plasma water fraction.
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PMID:Electrode measurement of glucose and urea in undiluted samples. 220 6

Acute pancreatitis often results in a hyperdynamic, consumptive state. Hallmarks of this condition are decreased peripheral resistance with increased cardiac output. Hemodynamic and cardiovascular changes are accompanied by metabolic alterations. Increased protein catabolism, increased ureagenesis, glucose intolerance, increased lipolysis, and reduced servoregulation are metabolic changes commonly seen in this syndrome. To preserve organ structure and function, biochemical processes must be metabolically supported. Substrate needs change as stress level increases. The per cent of total calories provided as protein must increase. Branched-chain-enriched amino acid solutions have been shown to improve nitrogen utilization in hypermetabolic patients and may therefore be beneficial for the patient with acute pancreatitis. Glucose utilization decreases and free fatty oxidation increases. A mixed fuel system that provides fat, protein, and glucose is suggested for these patients. IV fat has been shown to be a safe energy substrate for patients with pancreatitis in the absence of hyperlipidemia. Failure to use fat as an energy substrate in conjunction with TPN may result in hepatic steatosis and excess carbon dioxide production. The decision of whether to use the parenteral or enteral route to nutritionally support the patient with pancreatitis remains controversial. TPN may allow maintenance of pancreatic rest. The role of enteral feedings is less clear. However, it has been shown that the further down the alimentary tract the feeding is infused, the less pancreatic stimulation occurs. Therefore, it seems wise to support the patient with TPN during severe acute pancreatitis. Jejunal enteral feedings should be initiated as a transitional feeding when the acute inflammatory episode begins to subside.
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PMID:Nutritional support in acute pancreatitis. 250 54

To explore the possible association of hyperlipidemia with hyperammonemia and aspirin ingestion, the effects of NH4+, salicylate, and carnitine on the oxidation of [1-14C]palmitic acid to acid-soluble products (ASP) and to CO2 were investigated in rat liver slices. DL-carnitine (5 mM) increased total oxidation (ASP + CO2) more than oxidation to CO2. KCN (1.5 mM) inhibited more than 90% of the oxidation. NH4Cl inhibited the oxidation that reached a maximum at about 40 mM, but the inhibition of oxidation to CO2 (63%) was larger than that of total oxidation (30%). Carnitine did not influence NH4+ inhibition, which is consistent with the results reported for isolated mitochondria. Salicylate effects depended on salicylate concentration as well as on the presence of carnitine. In the absence of carnitine, inhibition of total oxidation reached 90% at 3 mM salicylate but that of oxidation to CO2 reached 50%. Velocity calculated at saturating palmitic acid concentration for total oxidation was slightly increased by 0.75 mM salicylate, but the increase for oxidation to CO2 was larger. At 3 mM salicylate, velocity at saturating palmitic acid concentration for the oxidation was decreased, but the decrease for oxidation to CO2 was smaller than for total oxidation. Carnitine partially relieved the inhibition of total oxidation and further increased the formation of CO2. The combination of 20 mM NH4Cl and 0.75 mM salicylate inhibited total oxidation, which was more than additive of the individual effects, and carnitine partially relieved the inhibition. It is concluded that NH4+ exerted a stronger inhibition of oxidation to CO2 than of oxidation to ASP, whereas salicylate strongly inhibited the oxidation to ASP but increased the oxidation to CO2 by uncoupling mitochondrial oxidative phosphorylation. Therefore, hyperammonemia and aspirin ingestion can inhibit fatty acid oxidation and mitochondrial metabolism that could lead to the pathophysiology seen in some childhood diseases such as Reye's syndrome. Carnitine therapy might offer some benefits.
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PMID:Effects of ammonium chloride, salicylate, and carnitine on palmitic acid oxidation in rat liver slices. 291 25

The effect of dietary ethanol on metabolic fates of glucose and ethanol, and activities of lipoprotein lipase and hormone-sensitive lipase in several tissues of miniature pigs were determined in vitro. Ethanol and glucose were used at similar rates for fatty acid synthesis in liver and brain and CO2 production in liver. Ethanol was preferred over glucose for fatty acid and CO2 production in ileal mucosal cells. Glucose was the preferred substrate for lipogenesis and oxidation to CO2 in adipose tissue and skeletal muscle, and for oxidation to CO2 in brain. Dietary ethanol decreased glucose and ethanol conversion to fatty acids in ileal mucosa and brain, respectively. Dietary ethanol had no effect on the capacity of liver, adipose tissue, and skeletal muscle to convert either glucose or ethanol to long-chain fatty acids. The capacity to oxidize ethanol, but not glucose, to CO2 in liver was increased by dietary ethanol. No dietary ethanol effect was observed in other tissues. The capacity for removal of plasma triglycerides (based on lipoprotein lipase activity) tended to increase in adipose tissue and skeletal muscle of pigs fed ethanol. Mobilization of long-chain fatty acids from adipose tissue (based on hormone-sensitive lipase activity), triglyceride concentration in plasma, and percentage of lipid in liver remained unchanged when ethanol was fed. Livers of ethanol-fed pigs, however, were larger than livers of control pigs. Our results indicate that feeding miniature pigs 21-37% of total caloric intake as ethanol causes significant metabolic adaptations of lipid metabolism in liver and ileal mucosa, but not in adipose tissue, skeletal muscle, and brain. The ethanol feeding, however, did not cause fatty livers or hyperlipidemia.
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PMID:Adaptation of lipogenesis and lipolysis to dietary ethanol. 311 29


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