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:C0020505 (
hyperphagia
)
6,116
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Management of protein-calorie malnutrition found in 32 patients with severe liver diseases such as fulminant hepatitis and cirrhosis of the liver was carried out using 2 types of synthetic amino acid solution (Hep-OU and Fischer solution) for intravenous and enteral alimentations with rapid monitoring of serum aminogram. Intravenous
hyperalimentation
of these cases resulted in maintenance of nutritional status with improvement of nitrogen balance and normalization of impaired serum aminogram. During this study, however, nutritional support was initiated only when intractable ascites, upper gastrointestinal bleeding and
hepatic encephalopathy
were observed. In 2 cases of fulminant hepatitis with sepsis and 3 hepatoma patients with ascites, elemental diet containing maltose and amino acids was used to supply sufficient amounts of nutrients in a minimum volume of water. These techniques with simultaneous monitoring of urinary excretion of 3-methylhistidine and creatinine height index as nutritional parameters make nutritional management easy for patients with liver disease.
...
PMID:Nutritional management of patients with severe liver disease by using intravenous hyperalimentation and elemental diet. 676 41
Diet protein increases whereas carbohydrates decrease urea synthesis. Traditionally, these effects have been explained by changes in substrate supply. Diet protein intake increases whereas carbohydrate decreases blood amino acid concentration. However, glucose also decreases urea synthesis by a hepatic mechanism independent of the decrease in blood amino acid concentration. Whether this is due to an effect of glucose in itself, or whether the fall in glucagon or the rise in insulin is responsible, was not known. This survey deals with the effect of an increase in diet protein intake and of the separate effects of glucose, glucagon and insulin on functional hepatic nitrogen clearance in normal man and in patients with cirrhosis of the liver. The functional hepatic nitrogen clearance is calculated as the slope of the linear regression analysis of alanine-stimulated urea synthesis rate and blood alpha-amino nitrogen concentration, and expresses urea synthesis independent of changes in blood amino acid concentration. In patients with cirrhosis, hepatic nitrogen clearance is reduced in parallel with liver cell mass, despite high glucagon concentration that would normally up-regulate the process. In both healthy subjects and in patients with cirrhosis, an increase in diet protein intake (plus approximately 50 g/day) for 14 days increases hepatic nitrogen clearance by 40%. Thus, in addition to the substrate effect, protein intake increases urea synthesis by an effect in the liver, probably by enzyme formation. What induces this is not clear but high postprandial levels of glucagon may be involved. Although the effect is qualitatively intact in the patients, the response relative to the increase in protein intake is reduced by two-thirds. The effect may be important to control blood amino acid concentration during a high protein diet and may partly explain why patients with cirrhosis usually tolerates protein
hyperalimentation
without developing
hepatic encephalopathy
. It is shown that the reduction of hepatic nitrogen clearance by glucose depends on hyperglycaemia, and is accomplished by the additive effects of a direct hormone-independent action of glucose, and indirectly via suppression of glucagon. Insulin is not a direct controller of hepatic nitrogen clearance, but is still considered an important regulator of urea synthesis by its reducing effects on blood amino acid concentration. High experimental glucagon levels overrule the normal suppressive effect of glucose. In contrast, it is shown that the sugar-alcohol xylitol normalises the glucagon induced increase in hepatic nitrogen clearance. During normal glucagon levels xylitol exerts only a very little decrease in hepatic nitrogen clearance. In patients with cirrhosis, glucose does not down-regulate hepatic nitrogen clearance. However, when the spontaneous high glucagon levels are normalised by somatostatin, glucose decreases hepatic nitrogen clearance. This shows that the direct hormone-independent effect of glucose is intact. These findings indicate that the high glucagon levels during spontaneous hormone responses overrule the suppressive effect of glucose. Incomplete glucose suppression of glucagon secretion during alanine infusion contributes to the high glucagon levels. The removal of the high glucagon levels decreases hepatic nitrogen clearance in itself. Thus, the hyperglucagonaemia may be a compensatory mechanism by which the cirrhotic liver to some extent reestablishes its capacity to produce urea. The consequence is the defective down-regulation of hepatic nitrogen clearance by glucose. The reduction in urea synthesis by glucose, i.e. its nitrogen sparing effect, is accomplished by two different mechanisms: A hepatic component (reduction of the hepatic nitrogen clearance) and a peripheral component (reduced substrate availability mediated by the insulin response). This is an extension of former thoughts according to which glucose reduces urea synthesis due solely to
...
PMID:Regulation of urea synthesis by diet protein and carbohydrate in normal man and in patients with cirrhosis. Relationship to glucagon and insulin. 923 44
Intravenous
hyperalimentation
and enteral nutrition are the main surgical nutrition methods. IVH play an active role in therapeutic nutrition, although made rapid progress has been made in enteral nutrition, resulting in its wide clinical application. Branched-chain amino acids are useful in improving the nitrogen balance in patients who have undergone major surgical procedures or significant stress. Furthermore, their superiority over a mixed oral protein diet in patients with
hepatic encephalopathy
has been confirmed clinically. Medium-chain triglycerides (MCT) are an important energy source. Their advantages include easy absorbtion by the intestinal mucosa, lack of stimulation of insulin excretion, and suppression of the reticuloendothelial system. However, the ratio of long-chain triglyceride (LCT) to MCT should be evaluated in many cases. EPA can prevent various adult diseases. Many nutrients contain EPA and it is clinically used both enterally and parenterally. Glutamine is effective in the repair of small intestinal mucosal damage, since it suppresses bacterial translocation, effects of growth hormone, epidermal growth factor (EGF), and nucleic acid on nutritional status are being evaluated clinically. Home enteral nutrition (HEN) has become more common in the past five years although close, cooperation between medical staff and the family is necessary its success.
...
PMID:[Progress of enteral nutrition]. 961 94
Abstract Congenital portosystemic shunts generally arise as single vascular anomalies that cause the portal blood to bypass the liver and enter the systemic venous circulation directly. The liver is primarily affected, as it is deprived of perfusion by portal hepatotrophic factors such as insulin, glucagon, and amino acids. There is progressive hepatic atrophy, and as a consequence, dysfunction.
Hepatic encephalopathy
can result from increased levels of ammonia and gamma-aminobutyric acid within the systemic circulation. Variably toxic amines, captans and short chain fatty acids may act as false neurotransmitters. Hypoglycaemia will exacerbate the effects of these substances. Increased concentrations of ammonia and uric acid in the urine predispose to the precipitation of ammonium biurate crystals and the formation of calculi. Haematological changes include anaemia, microcytosis, hypoproteinaemia, leucocytosis, and coagulation abnormalities. Gastrointestinal effects are common. They may be displayed as anorexia, vomiting, ptyalism, pica, diarrhoea, or
polyphagia
. Most dogs are less than 1 year of age at initial presentation. Diagnosis from a laboratory viewpoint will involve a consideration of the history, clinical findings, haematology, serum biochemistry and urinalysis. If the findings are suggestive of a congenital portosystemic shunt, the demonstration of elevated fasting or, more consistently, post-prandial serum bile acid concentrations, and subsequent histological examination of a liver biopsy will provide a definitive diagnosis.
...
PMID:The pathophysiology and laboratory diagnosis of congenital portosystemic shunts in dogs. 2213 58
