UMLS:C0036690 - FACTA Search

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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study characterized the cecal ligation and puncture (CLP) model of sepsis and the bolus endotoxin model of sepsis in rats with regard to specific hormonal, metabolic, and glucoregulatory changes which occur during the early, compensatory phases of sepsis. Plasma levels of glucose, lactate, insulin, and glucagon were measured during the initial 5 hr of endotoxicosis and CLP sepsis. During this time period, endotoxic and CLP septic rats displayed similar metabolic changes, particularly hyperglycemia, hyperlactacidemia, hyperinsulinemia, and hyperglucagonemia relative to their respective control groups. The metabolic and hormonal similarities observed between these two models of sepsis are consistent with the concept that endotoxin plays a role as a mediator of human and animal sepsis.
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PMID:Glucoregulatory, hormonal, and metabolic responses to endotoxicosis or cecal ligation and puncture sepsis in the rat: a direct comparison. 219 17

The changes in the regulation of insulin secretion that accompany sepsis are yet to be fully established. We therefore examined insulin secretion both in vivo and in vitro in 2 different models of peritonitis/sepsis in the rat. Sepsis was induced by intraperitoneal injection of Escherichia coli either alone or together with bile. Following sepsis induction, an initial hyperglycemia developed. This hyperglycemia was transient and had vanished after 3 h (coli group) or 9 h (bile group). However, after 24 h, a second phase of hyperglycemia developed in both groups. The glucose elimination rate after intravenous glucose injection (0.5 g/kg) at 4 and 10 h after peritonitis/sepsis induction was retarded and the hyperglycemia that occurred during intravenous glucose infusion (10 mg/min for 30 min) was exaggerated. This is consistent with a reduced glucose uptake. Simultaneously, the plasma insulin responses to glucose were markedly exaggerated. This could be due to a true potentiated insulin secretion or simply to an adaptation to the hyperglycemia. However, also during intravenous arginine infusion (7 mg/min) at 4 h after peritonitis/sepsis induction, the plasma insulin responses were markedly exaggerated. Since only a slight change in plasma glucose occurred during this challenge, the results suggest that sepsis is accompanied by a true hypersecretion of insulin. To verify whether this is directly or indirectly mediated, pancreatic islets were isolated from peritonitis/sepsis animals at 4 h after disease induction and incubated for 45 min in a KRB medium supplemented with different concentrations of glucose. The subsequent insulin secretion was the same in islets from the septic animals as in controls. Hence, our results show that experimental peritonitis/sepsis in the rat is accompanied by (1) glucose intolerance and (2) a true hypersecretion of insulin which is indirectly mediated.
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PMID:Glucose tolerance and insulin secretion in experimental peritonitis in the rat. 220 Jun 90

Gram-negative hypermetabolic sepsis has been previously reported to produce whole body insulin resistance. The present study was performed to determine in vivo which tissues are responsible for the sepsis-induced decrease in insulin-mediated glucose uptake (IMGU), and whether that decrease was related to a change in regional blood flow. Vascular catheters were placed in rats and sepsis was induced by subcutaneous injections of Escherichia coli. Insulin action was assessed 20 hours after the first injection of bacteria by the combined use of the euglycemic hyperinsulinemic clamp and the tracer 2-deoxyglucose (dGlc) technique. Insulin was infused at various rates in separate groups of septic and nonseptic rats for 3 hours to produce steady-state insulin levels between 70 and 20,000 microU/mL. Rats were injected with [U-14C]-dGlc 140 minutes after the start of the euglycemic hyperinsulinemic clamp for the determination of the glucose metabolic rate (Rg) in selected tissues. The maximal response to insulin was decreased 30% to 40% in the gastrocnemius, and in the red and white quadriceps. The former two muscles also showed a decrease in insulin sensitivity. However, the insulin resistance seen in hindlimb muscles was not evident in all muscles of the body, since IMGU by abdominal muscle, diaphragm, and heart was not impaired by sepsis. The basal Rg by skin, spleen, ileum, and lung was increased by sepsis, and was higher than the insulin-stimulated increases in Rg by these tissues in nonseptic animals. Cardiac output was similar in septic and nonseptic rats and did not change during the infusion of insulin. Under basal conditions, sepsis appeared to redistribute blood flow away from the red quadriceps and skin, and increased flow to the liver (arterial), lung, and small intestine. When plasma insulin levels were elevated, hepatic arterial blood flow was increased, and flow to the red quadriceps and skin was decreased in nonseptic animals. Hyperinsulinemia did not produce any consistent change in regional blood flow in septic animals. The results of this study indicate that a decrease rate of IMGU in muscle is primarily responsible for the whole body insulin resistance seen during hypermetabolic sepsis, and that the impairment of insulin action in skeletal muscle is not dependent on fiber type or to changes in blood flow.
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PMID:Insulin-mediated glucose uptake by individual tissues during sepsis. 221 56

Decreased cytosolic [Ca2+] and impaired Ca2+ release in response to an IP3 challenge are among perturbations in hepatocyte Ca2+ homeostasis associated with endotoxemia and sepsis. These changes are consistent with the accompanying alterations in appropriate physiologic functions, e.g., activation of glycogen phosphorylase and gluconeogenesis, mediated by [Ca2+]c and defective phosphorylation of relevant enzymes. Attenuation of IP3 binding to the subcellular fractions that are imputed to be targets of IP3 and a decrease in the size of the IP3-sensitive pool of releasable Ca2+ are underlying components of the mechanism of the reduced Ca2+ release upon IP3 stimulation and its metabolic sequelae. ET treatment leads to a significant increase in Ca2+ associated with the cell surface compartment of adipocytes, a reduction in 45Ca2+ uptake by endoplasmic reticulum and higher cytosolic [Ca2+] under basal conditions and upon ACTH stimulation than that observed in cells of control rats. The reduced 45Ca2+ uptake is also manifest in adipocytes of septic rats. Alterations in adipocyte metabolism induced by ET include increased oxidation of glucose to CO2 (an insulin-like effect) and increased lipolysis upon NE and ACTH stimulation.
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PMID:Altered Ca2+ homeostasis and functional correlates in hepatocytes and adipocytes in endotoxemia and sepsis. 225 82

Altered glucose metabolism is one of the commonly observed sequelae of sepsis and septic shock. The present investigation was undertaken to determine the role of endotoxin (ET) upon hepatocyte glucoregulation, by measuring the activity of pyruvate kinase (PK), a key glycolytic enzyme. Hepatocytes were exposed to endotoxin concentrations known to occur in vivo during sepsis, i.e., from 1 X 10(-14) to 1 X 10(-8) g/ml. The alteration of the enzyme activities after addition of epinephrine, glucagon, insulin and calcium ionophore A23187 with and without ET preincubation were also examined. ET alone decreased the PK activity by 12% at all concentrations tested. The basal inhibition of the enzyme caused by epinephrine (-48%) was partially blocked by ET preincubation above 1 X 10(-10) g/ml. There were no ET-(glucagon, calcium ionophore, insulin) interaction. These in vitro results do not support pyruvate kinase as a site of hepatic enzyme regulation defect in endotoxaemia.
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PMID:Endotoxin, epinephrine, glucagon, insulin and calcium ionophore A23187 modulation of pyruvate kinase activity in cultured rat hepatocytes. 226 25

Interleukin-2 (IL-2) is secreted during the immune response to trauma, sepsis, and transplant rejection. Its role in the development of the metabolic abnormalities observed in these circumstances is not well defined. We studied the clinical, hormonal, and metabolic response to a 5-day IL-2 infusion (3 x 10(6) U/m2/day) of nine patients with metastatic renal carcinoma. IL-2 induced systemic manifestations after a latent period of 4 h (fever, tachycardia) or 8 h (hypotension). These manifestations persisted until the end of the infusion. Insulin levels were not modified. Among the stress hormones, cortisol increased at the onset of fever and tachycardia, whereas the rise in catecholamines occurred later (24 h) and appeared more as a response to the development of hypotension. The only metabolic effects observed were a late (third day) rise of lactate and a late and transient (third to fourth day) decrease of glycerol and nonesterified fatty acids. These metabolic modifications were temporally related to the development of hypotension and result more likely from low tissue perfusion rather than from a direct or hormone-mediated effect of IL-2.
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PMID:Hormonal and metabolic effects of chronic interleukin-2 infusion in cancer patients. 234 64

The intestinal metabolism of glucose and glutamine was studied in rats made septic by cecal ligation and puncture technique. Sepsis resulted in negative nitrogen balance and produced increases in the concentrations of blood pyruvate, lactate, alanine, and glutamine, and decreases in those of 3-hydroxybutyrate and acetoacetate. Both plasma insulin and glucagon concentrations were increased by 2.2- and 3.2-fold in septic rats, respectively. Portal-drained visceral blood flow increased in septic rats, and was accompanied by a decrease in the rates of utilization of glutamine and production of lactate, glutamate, and ammonia compared with those rates in sham-operated animals. Enterocytes isolated from septic rats showed decreased rates of glucose and glutamine utilization compared with cells isolated from corresponding controls. The maximal activities of hexokinase, 6-phosphofructokinase, pyruvate kinase, and glutaminase were decreased in intestinal mucosal scrapings of septic rats. It is concluded that a moderate form of sepsis decreases the rates of glucose and glutamine utilization (both in vivo and in vitro) by the epithelial cells of the small intestine. This may be caused by changes in the maximal activities of key enzymes in the pathways of glucose and glutamine metabolism in these cells as a metabolic adaptation to spare glucose and glutamine for use by other tissues.
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PMID:Glucose and glutamine metabolism in the small intestine of septic rats. 236 28

Diabetes mellitus is associated with several non articular rheumatic conditions and is a cause of Charcot's arthropathy. We report three cases of long-standing insulin-dependent diabetics who developed an inflammatory monoarthritis of the ankle. There was no evidence of a peripheral neuropathy or sepsis. They were all seronegative for rheumatoid factor. In two the synovitis persisted; in the third there was a gradual resolution. This type of inflammatory synovitis has not been previously described in diabetes. It developed after a mean duration of diabetes of 34.3 years (range 18-52 years). We suggest that it may be associated with microvascular changes in diabetes, possibly involving hypoxic reperfusion.
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PMID:Monoarthritis of the ankle in diabetes mellitus without neuropathy: a report of three cases. 239 Aug 52

Sepsis, like trauma, causes proteolysis of skeletal muscle. Insulin normally protects against muscle protein degradation. In earlier work using a rat muscle preparation, insulin inhibition of proteolysis decreased in the presence of plasma from injured patients. The current experiments tested the effect of plasma from septic patients on insulin inhibition in the same model. The mean value of protein degradation among eight septic plasma samples was 49% greater than the mean value among five normal plasma samples in soleus muscle and 45% greater in extensor digitorum longus muscle. In the presence of insulin, 10(3) mU/L, the increases in degradation with septic plasma were 42% in soleus muscle and 48% in extensor digitorum longus muscle. Insulin reduced degradation an average of 6% (soleus) and 10% (extensor digitorum longus) in normal plasma and 10% (soleus) and 8% (extensor digitorum longus) in septic plasma. In contrast to results of other studies, these experiments show that the protective effect of a moderate concentration of insulin in resisting muscle protein degradation is not significantly different in the muscle protein degradation is not significantly different in the presence of septic human plasma compared with normal plasma. This finding supports clinical efforts to decrease proteolysis in septic patients by the administration of insulin.
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PMID:Insulin protects against muscle proteolysis induced by septic plasma. 240 29

A patient who developed extreme fluctuations in serum glucose concentrations while receiving total parenteral nutrition (TPN) is described, and etiologies of hyperglycemia and hypoglycemia, as well as a rational approach to preventing and managing these disorders in patients receiving TPN, are presented. A 40-year-old white man with a 29-year history of insulin-dependent diabetes mellitus was hospitalized after he had an episode of rejection related to a cadaveric kidney transplant. During the hospitalization, his right leg was amputated because of cellulitis, and he developed septicemia with respiratory failure. A renal biopsy revealed cytomegalovirus inclusion disease, the kidney was removed, and intermittent hemodialysis was begun. Control of the patient's serum glucose concentration included four routes of insulin administration: a continuous titratable insulin infusion, subcutaneous sliding-scale insulin, insulin incorporated into the TPN solution, and intravenous bolus insulin. Further, glucose management was being coordinated by three teams: intensive care, nutrition support, and the renal service, with physicians from each service prescribing insulin therapy. The patient also received prednisone daily. The sporadic approach to this patient's glucose control, complicated by the extensive disease profile of the patient, resulted in precipitous fluctuations in his serum glucose concentrations. Patients receiving parenteral nutrition are subject to widely varying serum glucose concentrations related not only to the nutrition support provided but also to various underlying metabolic and physiologic complications commonly present. Common etiologies of, and ways to prevent and manage, hypoglycemia and hyperglycemia are reviewed. Clinicians should be aware of the risk of hyperglycemia and hypoglycemia in patients receiving TPN and monitor patients appropriately for alterations in glucose homeostasis.
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PMID:Management of glucose abnormalities in patients receiving total parenteral nutrition. 249 13

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