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

A solution of aminoacids without a calorie source was infused postoperatively in ten patients undergoing proctocolectomy or rectal excision and the results were compared with those in ten matched controls and ten patients who received intravenous hyperalimentation. Aminoacid infusion prevented the nitrogen and potassium loss that occurred in the untreated group but no clinical advantage could be seen. Nitrogen and potassium loss was also prevented in the patients treated with intravenous hyperalimentation but these patients had significantly fewer postoperative complications than either the controls or those given aminoacid infusion. It is suggested that aminoacid infusion is of very little benefit after major surgery. On the other hand the skilled administration of intravenous hyperalimentation to patients after major surgery can be of real benefit.
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PMID:Intravenous aminoacids and intravenous hyperalimentation as protein-sparing therapy after major surgery. A controlled clinical trial. 8 12

Metabolic studies were performed on 19 patients with acute renal failure. Therapy included intravenous hyperalimentation using 15 to 20 g of essential amino acids or 20 to 40 g of essential plus nonessential amino acids and hypertonic glucose (37 to 50%). The effect of this parenteral feeding appears to be primarily pharmacological. Hypertonic glucose promotes the hyperinsulinemia important to be membrane function, the operation of the sodium pump, and cell metabolism. Administration of high biological value crystalline amino acdis potentiates the effect of insulin by inhibiting protein breakdown and promoting protein synthesis, particularly in muscle. This reduces tissue catabolism and urea formation, and promotes potassium, magnesium, and phosphate homeostasis. The branched-chain ketogenic amino acids valine, leucine, and isoleucine may be of particular importance. When indicated, administration of renal failure hyperalimentation and peritoneal or hemodialysis can be expected to complement each other and accelerate recovery. This intravenous fluid therapy, in turn, must be coordinated with proper hemodynamics, usually requiring a colloidal solution to maintain intravascular volume, and cardiotrophic agents such as digitalis and dopamine. Early use of renal failure can be expected to demonstrate the most striking response in terms of survival, early recovery from acute renal failure, and the preservation of physiological homeostasis.
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PMID:Criteria for choosing amino acid therapy in acute renal failure. 10 Oct 72

A computer program has been developed to allow the generation of written orders for the logical progression of enteral hyperalimentation by the technique of continuous nasogastric infusion. Data required for entry include name, age, sex, height, usual and current weights, degree of stress, and if indicated, restrictions of nitrogen, fluids, sodium and potassium. A specific formulation may be requested, or the computer will pick a single nutrient solution or combination of two solutions that will best meet the requested constraints. Output includes entered data with English and Metric interconversion, surface area, and estimates of basal energy expenditure, protein wastage, protein and caloric requirements. If requested, daily orders are written to include a reasonable progression of infusion rates and concentrations of the solutions(s). Daily values are printed for the total amounts to be infused of fluid, calories, protein, sodium, potassium, and mOsm. The programs have been demonstrated to run in either on-line or batch mode. The system is easily accessible by physician, dietician, nurse, or other interested professionals.
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PMID:Computer optimization of enteral hyperalimentation. 11 Sep 60

Thirty patients were selected for a prospective study according to two criteria: (i) an irresistible urge to overeat (bulimia nervosa), followed by self-induced vomiting or purging; (ii) a morbid fear of becoming fat. The majority of the patients had a previous history of true or cryptic anorexia nervosa. Self-induced vomiting and purging are secondary devices used by the patients to counteract the effects of overeating and prevent a gain in weight. These devices are dangerous for they are habit-forming and lead to potassium loss and other physical complications. In common with true anorexia nervosa, the patients were determined to keep their weight below a self-imposed threshold. Its level was set below the patient's healthy weight, defined as the weight reached before the onset of the eating disorder. In contrast with true anorexia nervosa, the patients tended to be heavier, more active sexually, and more likely to menstruate regularly and remain fertile. Depressive symptoms were often severe and distressing and led to a high risk of suicide. A theoretical model is described to emphasize the interdependence of the various symptoms and the role of self-perpetuating mechanisms in the maintenance of the disorder. The main aims of treatment are (i) to interrupt the vicious circle of overeating and self-induced vomiting (or purging), (ii) to persuade the patients to accept a higher weight. Prognosis appears less favourable than in uncomplicated anorexia nervosa.
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PMID:Bulimia nervosa: an ominous variant of anorexia nervosa. 48 66

Phosphate depletion occurring during total parenteral nutrition has been frequently reported during the part 4 years. Hypophosphatemia may be associated with confusion, hyperventilation, and neuromuscular irritability, suggesting a total body phosphate deficiency. If inorganic phosphate levels fall below 1.0 mg %, diminished red cell glycolysis occurs with low erythrocyte levels of 2,3 diphosphoglycerate and adenosine triphosphate. Lowered red cell organic phosphates are associated with increased hemoglobin oxygen affinity. If severe hypophosphatemia occurs, hemolytic anemia, which is correctible by phosphate infusion, may result. In addition, leucocyte function is impaired by low levels of serum inorganic phosphate. While recognized as a needed additive, recommended phosphate supplements vary. Different infusion regimens have been suggested over the past 4 years, based primarily on assumed daily requirements. In the 19 trauma patients described who received hyperalimentation as part of their treatment, phosphate administration was calculated retrospectively and prospectively as a function of non-protein calories infused. Four different groups were studied. Group A received no phosphate additive and quickly became severely hypophosphatemic. Group B received from one to 15 meg of potassium acid phosphate per 1,000 K cal and developed a more gradual lowering of serum inorganic phosphate levels. Group C received 15 to 25 meg of potassium acid phosphate per 1,000 K cal and maintained normal phosphate levels throughout the course of treatment. Group D received greater than 25 meq of potassium acid phosphate per 1,000 K cal and gradually increased their serum inorganic phosphate levels. A significant positive correlation was found between serum inorganic phosphate levels, 2,3 diphosphoglycerate levels, adenosine triphosphate levels, and P50 of the oxy-hemoglobin dissociation curve. No patients developed hemolytic or neuromuscular syndromes which were attributable to hypophosphatemia. This study describes a simple method for the maintenance of adequate phosphate levels in patients whose dextrose-protein solutions may vary from day to day, by relating it to non-protein calories. Provision of 20 to 25 meq of potassium dihydrogen phosphate per 1,000 K cal will maintain normal serum levels of inorganic phosphate during total parenteral nutrition.
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PMID:Phosphate depletion and repletion: relation to parenteral nutrition and oxygen transport. 81 Nov 82

The efficacy of intravenous hyperalimentation in the critically ill patient was evaluated by body composition measurements performed with a multiple isotope dilution technic. The size of the body cell mass was evaluated by measuring the total exchangeable potassium and the intracellular water volume. The total exchangeable sodium and the extracellular water volume were both measured to evaluate the extracellular supporting component of body composition. These measurements were performed in two groups of severely ill patients who were in a chronic catabolic state. The first group of sixteen patients received intravenous hyperalimentation and the second group of eighteen patients served as controls in that they were not hyperalimented. Similar measurements were performed in sixteen normal volunteers to define the normal range for the various body composition parameters. In the nonalimented patients, there was a significant decrease in the body cell mass accompanied by an expansion of the extracellular supporting component of body composition. Similar changes occurred in the patients receiving intravenous hyperalimentation. However, the magnitude of these changes was not great. Thus, intravenous hyperalimentation tended to preserve the body cell mass and prevent expansion of the extracellular component of body composition.
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PMID:Effect of parenteral nutrition on body composition in the critically ill patient. 81 25

Forty patients with a mean age of 56 yrs, all of whom required hemodialysis therapy, for mean of 32 days, were treated with a minimum of 2000 kilocalories of I.V. glucose, potassium orthophosphate with mulit-vitamins and 25 Gm of I.V. albumin. Patients were initially dialyzed daily and then every other day or 3 times/wk. Complications including pneumonia, GI bleeding, gram negative septicemia, shock, the need for tracheostomy and ventialtory assist were high. Overall survival rate was 33%. This survival rate we beleive to be high considering the complicated type of illness these patients had as well as our clinical experience prior to the use of total parenteral nutrition in the manner described in this report. Essential L-amino acids were not used based on our experience in 3 patients with hepatic and renal failure who developed worsening neurological findings with the use of this substance. We believe further that I.V. glucose and albumin may be preferred mode of hyperalimentation.
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PMID:Total parenteral nutrition in acute renal failure. 82 19

Patient L.A. (f., 20 yrs), affected by bulimia and self-induced vomiting, was hospitalized because of severe malnutrition (BMI 13.1), hypopotassemia (2.8 mEq/l) and prolonged QTc interval (0.469"). Intensive care treatment aimed to normalize mineral balance mainly serum potassium, consisted of administering e.v. potassium (mg 2346/day), magnesium (mg 72/day), calcium (mg 80/day), phosphorus (mg 769/day), chloride (mg 710/day), iron (mg 40/day). Dietary treatment was deliberately chosen to be slightly above minimum energy requirements in order to avoid possible side effects of forced hyperalimentation. The patient, immediately after hospitalization, interrupted vomiting and 2 wks later weight increased by 5 kg (from 34.9 kg to 40.0 kg). On the other hand normalization of serum potassium levels was slow and QTc interval reached normal range only after the 10th day of treatment (0.447"). This case supports the hypothesis that major ECG abnormalities may be present in severe malnutrition due to anorexia nervosa or bulimia with self-induced vomiting. The dangers of these complications were substantiated by the fact that intensive care treatment allowed prompt body weight recovery but normalization of electrolytic balance and cardiac function was very slow. For such patients, electrocardiographic monitoring should be routine.
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PMID:[Hypopotassemia and prolongation of the Q-T interval in a patient with severe malnutrition caused by bulimia and post-prandial vomiting]. 237 4

Hyperglycaemic hyperosmolar non-ketotic syndrome (HHNS) is a life-threatening complication of uncontrolled diabetes mellitus. This syndrome is characterised by severe hyperglycaemia, a marked increase in serum osmolality, and clinical evidence of dehydration without significant accumulation of ketoacids. HHNS is typically observed in elderly patients with non-insulin-dependent diabetes mellitus, although it may rarely be a complication in younger patients with insulin-dependent diabetes, or those without diabetes following severe burns, parenteral hyperalimentation, peritoneal dialysis, or haemodialysis. Patients receiving certain drugs including diuretics, corticosteroids, beta-blockers, phenytoin, and diazoxide are at increased risk of developing this syndrome. Patients usually present with a prolonged phase of osmotic diuresis leading to severe depletion of both the intracellular and extracellular fluid volumes. Losses of water exceed those of sodium, resulting in hypertonic dehydration. Therefore, correction of the syndrome will ultimately require administration of hypotonic fluids. Patients presenting with HHNS also have significant depletion of potassium and other electrolytes that will need to be replaced. The principal goal at the outset of therapy must be restoration of the intravascular volume to assure adequate perfusion of vital organs. It remains controversial whether 0.9% or 0.45% NaCl should be the initial fluid infused intravenously. We prefer to administer 0.9% NaCl until the vital signs have stabilised and then substitute 0.45% NaCl. 10 to 15 units of regular human insulin should be injected as a bolus, followed by a continuous infusion of approximately 0.1 U/kg/h. Once the blood glucose approaches 13.9 to 16.7 mmol/L (250 to 300) mg/dl, 5% dextrose should be added to the intravenous fluids and the rate of insulin infusion reduced. Following recovery many patients presenting with HHNS will not require long term insulin therapy and can be managed effectively with diet or oral agents. Precipitating causes of HHNS must be identified and treated simultaneously with correction of the metabolic abnormalities. Appropriate management of precipitating illnesses will limit the high mortality associated with HHNS. This review discusses the current state of knowledge concerning the pathogenesis of HHNS, the clinical features of the disorder, and a systematic approach to treatment.
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PMID:Treatment of hyperglycaemic hyperosmolar non-ketotic syndrome. 268 Apr 38

Reduced serum concentrations of nutrients like iron, zinc and folates and of albumin and cholesterol are found, as well as emaciation, both in malnutrition and in cancer. In patients with leukemia, a depletion of intracellular potassium and hypo-potassemia are found in addition. The use of hyperalimentation in cancer was originally based on the concept that too little food is the cause of these disturbances in the nutrition state. However, there is also a disturbed metabolism of nutrients in patients with tumors and inflammatory disease. In the case of folic acid, the disturbed metabolism could not be normalized by hyperalimentation. The more advanced the disease, the more pronounced is the disturbed nutrient metabolism, and this disturbance is related to the macrophage activity. It is not self-evident, therefore, that hyperalimentation can normalize the nutritional state in cancer. Emaciation in cancer patients is not caused exclusively by malnutrition.
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PMID:Folate and iron metabolism in patients with tumors and inflammations. 406 5


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