UMLS:C0020505 - FACTA Search

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Query: UMLS:C0020505 (hyperphagia)
6,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Liver biopsy specimens were studied in 26 patients in whom liver function abnormalities developed during intravenous hyperalimentation (IVH). The clinical manifestations and duration of IVH were evaluated in relation to the morphological changes seen in the liver. Early hepatic changes consisted of fatty metamorphosis, and progressive intrahepatic cholestasis developed as IVH was continued. Essential fatty acid deficiency, amino acid imbalance, caloric excess, and toxic manifestations of certain amino acids are postulated as causative factors. The hepatic steatosis secondary to IVH may be treated by lowering the dextrose concentration of the infusion or by administering dextrose-free amino acid solutions. The clinical importance of this common complication of IVH is the difficulty in distinguishing it from other causes of cholestasis in seriously ill patients.
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PMID:Hepatic dysfunction during hyperalimentation. 41 12

A patient with liver dysfunction following small-bowel bypass for obesity was treated successfully with intravenous hyperalimentation. The hepatic steatosis and dysfunction were most likely caused by the preferential absorption of carbohydrate in the remaining small bowel, with resulting relative protein starvation. Routine use of high-protein, low-carbohydrate diets postoperatively until weight stabilization has occurred may prevent this complication.
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PMID:Liver dysfunction following small-bowel bypass for obesity. Nonoperative treatment of fatty metamorphosis with parenteral hyperalimentation. 81 54

Influence of the infusion of amino acid solutions on metabolic changes caused by parenteral nutrition with fructose. In eleven unconscious polytraumatized patients of the intensive care station, intravenous infusions with fructose (0.5 g/kg bodyweight and hour) were performed. During the last 24 hours of the 72 hours infusion period, amino acid solutions (1.0 g/kg bodyweight and 24 hours) were given in addition to fructose. The investigations were initiated after an eight hour "starvation period" preinfusion. During this time only electrolytes were given. For comparison 48 hours intravenous infusions with fructose (0.5 g/kg B.W. and hour) were performed with six healthy volunteers. In both groups of subjects the intravenous fructose was metabolized very well, renal losses were less than 2% of the whole amount given. Considering the metabolic healthy volunteers, the blood glucose concentration remained unaltered despite the high dosage carbohydrate infusion. The patients of the intensive care station showed a slight increase of blood glucose values which were elevated already before infusion. Additionally, during fructose infusions, the increase in blood lactate concentration was more pronounced in the intensive care patients than in healthy volunteers. However, in contrast to the healthy volunteers, no increase in serum bilirubin concentration and only a slight increase in serum uric acid concentration was observed in the intensive care patients, despite the high-dose fructose infusion for 72 hours. Additionally, the fructose-induced hypertriglyceridemia was of a minor degree in the intensive care patients. In volunteers the increase in triglyceride concentration was 200% in 48 hours, whereas only a 50% increase was observed in intensive care patients during 72 hours. The pronounced nitrogen sparing effect of fructose in healthy volunteers was not seen in the intensive care patients to the same degree. The most prominent side effect of the fructose infusions in intensive care patients was the strong decrease in serum phosphate concentration seen in some patients. The additional infusion of amino acid solutions lead to a further diminution of the slight alterations caused by fructose infusions. In conclusion, it can be stated that total parenteral nutrition with fructose and amino acid solutions is possible in intensive care patients without danger of side effects. However, it should be mnetioned that hyperalimentation can cause fatty liver.
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PMID:[Effect of amino acid infusions on fructose-induced chemical blood changes in intensive care patients]. 82 61

Young, adult, female Sprague-Dawley rats were fasted for 18 h and then given a single s.c. injection of alloxan (10 mg/100 g body weight) which promptly induced a severe state of diabetes. The animals were killed at frequent time intervals during the 7-day study period in order to record the dynamic changes in their capacity for adrenal steroidogenesis and secretion as measured by fluorometric determination of their circulating corticosterone (Cmpd B) levels as well as by thin layer chromatographic identification of cortical lipid moieties used for steroidogenesis. In addition to severe polydypsia, polyuria and polyphagia, these animals manifested super-normal glucose, triglycerides, free fatty acids and cholesterol in their blood, severe hepatic steatosis, adrenal hyperplasia with lipid depletion from the mineralocorticoid producing z. glomerulosa, thymus gland involution and complete degranulation of their insulin producing islet beta cells. Despite an initial high output of Cmpd B and despite progressive cortical hyperplasia, the serum Cmpd B levels became reduced and many of the animals succumbed suddenly, due most likely to inadequate adrenocortical steroidogenesis. Adrenocortical lipids showed a progressive accumulation of free fatty acids, di- and triglycerides, suggesting that some lipid enzymatic defect could be responsible for the lack of conversion of these lipid entities essential for proper steroidogenesis.
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PMID:Adrenal glandular lipids and circulating corticosterone in severely diabetic rats. 117 54

Sixteen patients given total pancreatectomy were experienced, and the essential points of postoperative management were reported. The morbid states after total pancreatectomy consist of: a deficiency of pancreatic endocrine function, a deficiency of pancreatic exocrine function, loss of the duodenum and upper jejunum, the influence of partial or total gastrectomy, and the influence of dissection around the superior mesenteric artery. These states influence each other and become more complicated. The management period is divided into five parts as follows; a period of intravenous nutrition, the early half; water replacement period, the late half; hyperalimentation period, a period of intravenous and enteral nutrition, a period of enteral, intravenous and oral nutrition, a period of oral and enteral nutrition, and a period of oral nutrition. In each period, a special form of management is needed. The essential points of long-term management are as follows: The use of suitable doses of pancreatic enzyme and antidiarrheal agents for the cure of severe maldigestion and malabsorption. Also, intermittent IVH or elemental diet are effective for recovery from deteriorative malnutrition. For the prevention of hypoglycemic attack, training of the patients and the maintainance of good nutrition are important. These patients have a high incidence of infection, and so speedy treatment must be given if this occurs. Fatty liver must be treated by intermittent IVH or elemental diet. As total pancreatectomy imposes a severe burden on the patient, including self-injection of insulin, the indications of this operation must be decided carefully giving due consideration to its radicality.
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PMID:[Postoperative management of total pancreatectomy]. 309 14

Sixteen mongrel dogs were depancreatized and controlled with intravenous hyperalimentation that included fat emulsion (Intralipid) for four weeks. Plasma lipids, fat tolerance test, PHLA, and presence of fatty liver were investigated. Dogs were divided into three groups (A, B, and C) for the purpose of studying the effect of fat emulsion. Groups A(n = 6) and B(n = 5) were given fat emulsion 1g/kg/day and 2g/kg/day respectively. Group C(n = 5) was not given fat emulsion. Group B had increased plasma total cholesterol and phospholipid. Group A had a slight increase of TG only. Group C had decreased plasma total cholesterol and phospholipid, and became hypoglycemic sometimes. The ability to clear fat emulsion expressed as (K2) decreased significantly after the 14th day in group B only. LPL, determined by the PHLA test in groups B and C only, did not change significantly. It seemed that fat emulsion was utilized in part as FFA and ketone bodies. Infusion of fat emulsion did not lead to fatty liver when insulin was administered continuously. For the depancreatized condition, it appeared that fat emulsion could be useful when blood sugar was controlled with insulin.
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PMID:[Effect of intravenous administration of fat emulsion to depancreatized dogs]. 314 8

In order to test whether or not overeating of a nutritionally adequate diet with reasonable fat content could result in significant fat accumulation in the liver, male Sprague-Dawley rats were provided with free access to either a nutritionally adequate liquid diet with 35 per cent of calories as fat or a regular diet (controls) for 3 months. After the feeding period, body weight, Lee index, and epididymal adipose tissue weight, were significantly greater in rats fed with the liquid diet than in the controls. Liver weight, hepatic triglyceride levels were also greater in the liquid diet group. Histologically, remarkable fatty infiltration was observed predominantly in periportal areas in rats fed with the liquid diet ad libitum for 3 months. Compared to a large body of the literature concerning diet-induced obesity in experimental animals, information on animal models of fatty liver by dietary manipulations is insufficient. The results of this study clearly indicate that the overeating of a nutritionally adequate diet with reasonable fat content could result in remarkable fat accumulation in the liver in rats.
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PMID:Fatty liver in rats induced by excessive intake of a nutritionally adequate liquid diet. 344 Jun 81

Metabolism of fat was studied in Sprague-Dowley rats receiving catecholamines as an experimental model of "stressed condition". These rats were fed with intravenous hyperalimentation with glucose only (G-group) or glucose and fat (F-group). Changes in body weight, cumulative nitrogen balance, blood sugar, serum IRI, free fatty acid, and triglyceride content of the liver were determined before and after five days intravenous hyperalimentation. Animals receiving intravenous hyperalimentation but no catecholamines were also subjected to the studies as control group. The following results were obtained from the present studies: In control group, G-group gained much more body weight and spared much more nitrogen than F-group. In catecholamine receiving groups, there was no significant difference of changes in body weight and cumulative nitrogen balance between G-group and F-group. In catecholamine receiving group, triglyceride content of the liver tissue was higher in G-group than in F-group, whereas triglyceride content of the liver tissue in control group was lower in G-group than in F-group. There was a positive correlation between the accumulation of triglyceride in the liver tissue and blood sugar level, or serum IRI level. A negative correlation was found between the accumulation of triglyceride in the liver tissue and plasma free fatty acid level. These results suggest that "stressed condition" induced by the administration of catecholamines enhanced the utilization of fat as an energy source without producing fatty liver.
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PMID:[Experimental studies on the effects of administration of catecholamines on fat metabolism]. 637 83

Intravenous (i.v.) infusion of excessive energy has been associated with hepatic steatosis. The time course of liver lipid accumulation was examined during 6 days of i.v. hyperalimentation with fat-free infusate. Adult male rats with indwelling superior vena cava cannulas received a dextrose-amino acid infusate for 0, 1/2, 1, 2, 4 or 6 days to provide 146% of nonprotein energy requirement [congruent to 350 non-protein kcal/(kg . day)] and 335% of nitrogen requirement [congruent to 2.7 g amino nitrogen/(kg . day)]. Significant hepatomegaly was apparent by day 1/2. Initially, glycogen deposition accounted for the liver enlargement, but after day 2, liver glycogen was declining and liver lipid was increasing. By day 4, liver lipid had increased fourfold and was the major contributor to hepatomegaly. Concurrent with fatty liver metamorphosis, hepatic essential fatty acid deficiency (EFAD) developed by day 4; liver linoleic acid levels had dropped from 20 to 1% of total fatty acids, and liver triene:tetraene ratio was 0.68. Similar changes in hepatic phospholipid fatty acids were observed. Enhanced lipogenesis and impaired lipid transport is known to accompany EFAD and may underlie the observed steatosis. A doubling of plasma cholesterol levels was also associated with steatosis. The mechanism leading to this increase in plasma cholesterol warrants further investigation.
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PMID:Development of hepatic steatosis and essential fatty acid deficiency in rats with hypercaloric, fat-free parenteral nutrition. 643 8

Biochemical, histologic, and computed tomographic (CT) examinations of the liver were performed in 32 rabbits in which fatty liver was induced by prolonged intravenous fat infusion. In two groups of rabbits, in which 2 and 4 g/kg/day of fat emulsion was administered, respectively, posttreatment reduction in CT value of mild degree was observed, but the reduction was insignificant from the standpoint of diagnosis from CT images. In the group that received 8 g/kg/day of fat emulsion, posttreatment change in CT value was -14.9 +/- 5.1 H, a sufficient reduction for a diagnosis of fatty liver of moderate degree. No significant change in CT value was seen in the no-treatment group or in the group in which 80 ml/kg/day of normal saline solution was infused for 4 weeks. Reduction in CT value in fatty liver might be due largely to accumulation of triglyceride and cholesterol in the liver cells. Significant correlation was found between changes in CT value of the liver and degrees of histologic fat accumulation in the liver cells. Consecutive measurement of CT values of the liver during prolonged intravenous hyperalimentation is a nonaggressive method of diagnosing fatty liver.
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PMID:Quantitative evaluation of fatty liver by computed tomography in rabbits. 660 34

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