UMLS:C0243026 - FACTA Search

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucose intolerance occurs in patients with sepsis, and resistance to insulin has been thought to be part of this process. To study this phenomenon, peritonitis was produced in rats by cecal ligation and puncture. One group was killed ten hours later (early sepsis). A second group of rats was killed 16 to 24 hours after ligation, just prior to their expected death (late sepsis). Insulin stimulated glucose uptake to the same extent in muscles from rats in early sepsis, late sepsis, and from control rats. Even at an insulin concentration that produced submaximal stimulation of glucose uptake, no difference in glucose uptake between the three groups of muscles was observed. Thus, there was no resistance to the stimulatory action of insulin on glucose uptake by skeletal muscle during early and late sepsis. However, basal glucose uptake by isolated soleus muscle from animals in late sepsis was significantly increased compared with controls when these muscles were incubated in an aerobic environment. Under anaerobic conditions, glucose uptake in these two groups of muscles increased to the same level. This indicates that there is some stimulus that increases glucose uptake in late peritonitis and may explain the hypoglycemia of late experimental or untreated sepsis. This stimulus could be hypoxia or some other factor resulting from decreased blood flow and increased anaerobic metabolism.
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PMID:Studies of peripheral glucose uptake during sepsis. 45 60

Six insulin-dependent diabetics were studied on their conventional insulin treatment and during continuous, dual-rate, subcutaneous insulin infusion for periods of up to 4 days. Dabetic control, as assessed by mean plasma glucose, range of plasma glucose values, M-value or range of M-values was improved significantly in 5 patients (mean +/- SD plasma glucose concentration on final infusion day 6.9 +/- 1.3 mmol/l, versus 11.3 +/- 3.2 mmol/l on conventional treatment). Once a suitable insulin dose was established blood glucose control could be maintained by continuous subcutaneous insulin infusion using the same daily infusion rate without frequent adjustment. In some case this was less than the daily dose on the conventional treatment. However, glycaemic control in one "brittle" diabetic, with unpredictable swings in blood glucose on her normal regimen, was not improved by continuous subcutaneous insulin infusion. During the period tested there was no sepsis at the cannula implantation site and patients did not find the system uncomfortable or unduly inconvenient.
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PMID:Continuous subcutaneous insulin infusion:good blood glucose control for up to 4 days. 46 48

Simultaneous longitudinal hormonometabolic-physiologic (cardiopulmonary) profiles were measured in 14 nonseptic trauma/general surgery (T/GS) patients and in ten patients with Gram-negative abdominal surgical sepsis. The physiologic state classification system was used as the frame of reference. There were no response differences between the T and GS groups: they had A State responses. The sepsis (S) patients initially had exaggerated A State responses with significant changes in glucose, fat, amino acid, and glucagon plasma levels relative to T/GS. The S patients who survived (four) demonstrated profiles as in T/GS. The S patients who expired (six) progressively evolved an unbalanced, hyperdynamic B State response with progressive elevations of glucose, lactate, aromatic and branched-chain amino acids and glucagon, and low ketone bodies. There is definite correlation over time between metabolic and physiologic responses; the physiologic responses reflect the metabolic responses; the metabolic responses are consistent with a peripheral energy-fuel deficit.
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PMID:Correlations between metabolic and cardiopulmonary measurements in patients after trauma, general surgery, and sepsis. 46 74

Glucose intolerance has been commonly observed in sepsis and has been attributed to a multitude of endocrine and metabolic disorders. From 1977 to 1978, 19 patients were studied using intravenous glucose tolerance tests to evaluate this phenomenon; 15 patients presented with ongoing sepsis and four patients served as stress controls. Glucose intolerance was found to be a significant finding in less than 40% of the septic group. This state of intolerance was noted to be associated with a high mortality rate (60%), whereas glucose tolerance in sepsis was associated with a much improved mortality rate (10%). Hormone levels were correlated with glucose tolerance curves using the parameters of insulin, glucagon, growth hormone, cortisol, and epinephrine levels. Glucose intolerance and a high mortality rate were linked to sustained hyperglucagonemia, which was unresponsive to glucose challenge, and to marked suppression of growth hormone. This apparently represents a decompensated peripheral metabolic energy deficit, which results in the increased mortality rate.
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PMID:The sepsis-glucose intolerance riddle: a hormonal explanation. 47 28

Both acute and chronic hepatic insufficiency can result in lactate accumulation and lactic acidosis; data from both types of patients were compared. In the chronic group, an acute precipitating event was identified in seven of nine subjects. Four had sepsis and three had gastrointestinal hemorrhage. In these patients, results from most tests of hepatic function were not altered dramatically. There were no long-term survivors in this group. In contrast, patients with acute hepatic failure had striking alterations in their results of hepatic function tests. Notable prolongation of the prothrombin time was always present initially and antedated other abnormalities of hepatic function. Three of seven patients in this group survived. Hypoglycemia was seen in both groups and in two subjects with acute hepatic insufficiency, glucose administration alone resulted in rapid lowering of lactate levels.
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PMID:Lactic acidosis and liver disease. 50 18

In order to quantitate the effect of sepsis and skeletal trauma on gluconeogenesis, four septic and five skeletal trauma patients were evaluated for their ability to convert 14C-L-alanine to 14C-glucose while receiving 5% dextrose by peripheral vein. In the septic group, the mean glucose pool size increased by 35% and the glucose turnover rate increased by 85% over normal. The alanine conversion averaged 11.1% of the dose. The skeletal trauma group showed a glucose pool size increase of 61%, a 100% increase in glucose turnover rate and a 11.7% conversion of the alanine dose to glucose. The increased conversion of 14C-alanine to 14C-glucose in both sepsis and skeletal trauma in the face of an exogenous glucose infusion indicates an abnormal unsuppressible response. Each of the above parameters when compared to normal values was found to be significant at levels greater than 97.5%. The percentages of the dose expired as 14CO2 in three hours were not significantly different from the normals.
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PMID:Gluconeogenic response during glucose infusions in patients following skeletal trauma or during sepsis. 57 25

Hormonal and substrate profiles and urinary nitrogen and urea excretion were measured in 78 underweight patients admitted for surgical investigation, who were placed into either a normo- or a hyperketonemic group, depending upon their levels of acetoacetate and beta-hydroxybutyrate. The two groups were otherwise similar in terms of weight loss, arm muscle circumference, triceps skinfold thickness, and serum protein levels. Before surgery only one-quarter of them were hyperketonemic displaying mean glucose, insulin, and glucagon levels characteristic of starvation-adaption, and excreted significantly less urinary nitrogen than in normoketonemic group. Those patients who underwent surgery tended to retain their presurgery hormonal and substrate profile. The normoketonemic group excreted significantly greater amounts of urinary nitrogen, depleted body protein to a greater extent as evidenced by larger changes in arm muscle circumference and serum protein levels, and mortality was greater. Interference with insulin-glucagon balance by sepsis and disease is suggested as a possible explanation for the failure of three-quarters of the patients to become starvation-adapted. The implications of this finding on the parenteral feeding of undernourished patients are discussed.
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PMID:Ketosis and nitrogen excretion in undernourished surgical patients. 57 67

The plasma concentrations of substrates, together with transhepatic and transgut balances, have been studied in six control and eight septic awake fasted dogs. Four severely ill septic dogs (typically fluid in chest and/or abdomen, extensive peritonitis, respiratory difficulties) had high concentrations of threonine, glycine, tyrosine, lysine, histidine, tryptophan, and triglycerides (p less than or equal to 0.05). The other septic dogs (less severely ill) showed fewer and less pronounced alterations in the plasma substrates (aspartate and tryptophan were elevated, p less than or equal to 0.05). The infusion of glucose increased the concentration of glucose, lactate, and pyruvate and depressed the concentrations of most amino acids in both normal and septic dogs. Threonine, asparagine, glutamine, leucine, isoleucine, alpha-aminobutyrate, and tyrosine were significantly depressed in the severely ill septic dogs (p less than or equal to 0.05). In the normal dogs most amino acids were removed by the liver, with alanine accounting for approximately 40% of the total. Glutamine removal was negligible. In the septic dogs hepatic removal of amino acids was variable; livers of two severely ill septic dogs did not remove amino acids. In the control dogs glucose infusion (0.015--0.017 g/kg/min) tended to lower hepatic removal of amino acids. Hepatic dye removal in the septic dogs was always very poor. In the gut glutamine was removed and alanine, glutamate, glycine, and ammonia produced, but the overall sum of amino acid uptake was negligible in both the control and septic dogs. The ratio of tryptophan to the sum of valine, isoleucine, leucine, tyrosine, and phenylalanine concentrations was greatly elevated in all septic dogs in which it was measured. The free concentrations of amino acids in the liver, heart, and muscle tissues were grossly elevated in the low intravenous alimented septic state relative to the fasted normal state, whereas the tissue concentrative ability as measured by nonmetabolizable amino acids, alpha-aminoisobutyrate and cycloleucine, was not similarly increased. Sepsis clearly alters plasma and tissue concentrations, and in some instances hepatic uptake of amino acids.
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PMID:Plasma concentrations and tissue uptake of free amino acids in dogs in sepsis and starvation: effects of glucose infusion--some effects of low alimentation. 65 52

1. Hepatic carbohydrate metabolism was studied by an intravenous galactose test in control patients, malnourished non-septic patients, patients with prolonged severe sepsis and patients after recovery from sepsis. 2. Blood galactose half-life was not significantly increased in the septic group despite abnormal liver-function tests, whereas it was approximately doubled in the malnourished patients. 3. The rise in blood glucose after galactose injection was less in both the septic and malnourished groups, as compared with that in the control subjects. 4. Fasting blood glucose, lactate and pyruvate concentrations were similar in all groups, whereas blood ketone bodies were increased in the malnourished and septic groups, and blood alanine was decreased only in the septic group. 5. The changes in hepatic metabolism and function were reversible on recovery from sepsis. 6. It is suggested that alterations in hepatic blood flow and the metabolic fate of galactose within the liver may explain the changes in the metabolic response to galactose observed in malnourished or septic patients.
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PMID:Galactose and hepatic metabolism in malnutrition and sepsis in man. 67 28

Insulin glucose therapy can correct hyponatraemia and renal sodium retention in burns, sepsis and circulatory failure. A case of fulminant hepatic failure (F.H.F.) is described in which the same effect was observed. Insulin was thought to have corrected abnormal cell membrane permeability. The actions of insulin are discussed in relation to its possible role in the management of F.H.F.
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PMID:The effects of insulin glucose administration in fulminant hepatic failure. 69 Mar 22

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