Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A pediatric nurse practitioner was given responsibility for a nursery. Her major responsibilities included: (1) daily chart and infant rounds, (2) initial physical examinations, (3) rounds with mothers, and (4) daily report to the physician on the condition and problems in her nursery. Over a one-year period of time, the PNP detected 20 serious problems, such as significant jaundice, sepsis, tachypnea, hypoglycemia, and two major congenital anomalies. The accuracy of the physical examination by the PNP was compared with that of the physician. In 72 percent of cases, the assessment of the PNP was essentially the same as that of the physician; in the remaining 28 percent the differences in diagnosis were minor and related to the timing of the examination. A telephone interview of a random sample of mothers showed that mothers under the care of the PNP had received more instructions on infant care; an 81 percent return of the infants to the clinic was achieved. The pediatric residents approved the participation of the PNP in the nursery. It is concluded that there is a useful role for the PNP in a neonatal unit.
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PMID:The role of the pediatric nurse practitioner in a neonatal unit. 112 10

The covalent modification of receptor proteins via phosphorylation and dephosphorylation is one of the principal mechanisms controlling carbohydrate metabolism and is known to be regulated by various protein kinases. Recent studies indicated that many hormones may exert their effects on cellular metabolism by regulating intracellular c-AMP levels and by activating a c-AMP dependent protein kinase, i.e., protein kinase A. The metabolic disturbances during sepsis are characterized by an initial hyperglycemia followed by a progressive hypoglycemia and a depletion of hepatic glycogen content. The latter is coupled with a slowdown in glycogenesis, an accelerated glycogenolysis, and a depression in gluconeogenesis in the liver. Since the liver is the major organ that regulates the homeostatic level of blood glucose, it is conceivable that the sepsis-induced glucose dyshomeostasis might be mediated by changes in protein kinase activity and the kinetic characteristics of enzymes. The present experiment was designed to study the correlation between protein kinase A and the pathophysiology of hepatic glucose dyshomeostasis during sepsis. Sepsis was induced in rats by cecal ligation and puncture (CLP). Late sepsis occurred 18 hours after CLP. Protein kinase A was extracted from the rat livers by acid precipitation and ammonium sulfate fractionation, and then partially purified by DEAE-cellulose. The results show that in the late sepsis, type-I protein kinase A (eluted at low ionic strength) activity was significantly decreased by 34-52% (P < 0.01). The kinetic parameters such as Vmax's for ATP, histone, and c-AMP were also significantly decreased from the control values of 6.1 +/- 0.9, 5.4 +/- 0.8, and 5.1 +/- 1.9 nmoles/mg.min. to 3.6 +/- 0.5, 2.8 +/- 0.3, and 2.5 +/- 0.5 nmoles/mg.min., respectively. Analysis using Hill's equation indicates that the S0.5 and n (Hill coefficient) values of the various substrates and activators for type-I protein kinase A remained unchanged. In the case of type-II protein kinase A (eluted at high ionic strength), the Vmax, S0.5, and n values for ATP, histone, and c-AMP were unchanged during late sepsis. The results of the present study indicate that the activities and kinetic characteristics of type I protein kinase A in rat liver are modified during late sepsis. Since protein kinase A is known to regulate glucose metabolism through adrenergic receptor mediation, these findings may have a pathophysiological significance in the understanding of hepatic glucose dyshomeostasis during sepsis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Kinetic studies of protein kinase A in rat liver during late sepsis]. 129 61

A total of 4056 consecutive patients operated for benign biliary tract disease between January 1983 and June 1990 were reviewed retrospectively. There were 71 in-hospital deaths, representing 1.75% of morality rate. Cholecystectomy was performed in 2275 patients; common bile duct exploration was carried out in 1494, with operative mortality rates of 0.4% and 3.1% respectively. Sepsis was the leading cause of mortality. The second common cause of death was hepatic failure, and respiratory failure the third. Cardiovascular problems accounted for 11.3% of death, which was much lower than reports from western series. Other causes of mortality included hypovolemic shock, anaphylactic shock, epilepsy and hypoglycemia. Of the total 4056 patients, 28.5% underwent emergency surgery. The mortality rate for emergency surgery was 3.6 times higher than for those who underwent elective operations (p less than 0.005) Significantly higher mortality rates were also seen for those aged over 70 years and of male gender. Because the mortality rate of patients who underwent emergency operation due to acute inflammatory or obstructive complications were much higher than that of elective operation group, we suggested early surgical intervention for the symptomatic patients before complications occurred.
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PMID:[The incidence and cause of death following surgery for benign biliary tract disease]. 132 87

The effects of sepsis on carbohydrate metabolism were studied in preterm newborn infants (weight > 1.2 kg, appropriate for gestational age) without maternal endocrine problems who were being examined for infection. Plasma glucose, lactate, and insulin concentrations were measured at initial evaluation and then every 8 hours for a total of 48 hours. Blood, urine, and spinal fluid were obtained for culture and counterimmunoelectrophoresis. Dextrose was administered to each patient to maintain glucose levels in the normal range. Dextrose infusion rates were calculated in milligrams per kilogram per minute. Of the 29 infants, 6 had sepsis (positive culture and counterimmunoelectrophoresis results). Infants with sepsis had significant elevations of plasma lactate concentration (p < 0.003) but normal pH. The dextrose infusion rate was also significantly elevated in the infected infants (p < 0.01). No hypoglycemia or hyperglycemia was observed in either group. No significant difference in plasma insulin concentration was observed. We conclude that significant elevations in plasma lactate concentrations and dextrose infusion rate may be early clinical markers of neonatal sepsis in the first 48 hours of life.
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PMID:Early metabolic effects of sepsis in the preterm infant: lactic acidosis and increased glucose requirement. 835 34

Gram-negative sepsis septic shock continues to produce significant mortality and therefore remains a major medical problem. Vasodilators have been studied in the treatment of circulatory shock. However, the effectiveness of calcium channel blockers in the treatment of newborn endotoxic shock has not been well documented. In the present study, diltiazem, a calcium channel blocker, and nitroprusside, a vasodilator, were used for the treatment of endotoxic shock in 10-day-old rats. Mortality rate, hemodynamics, and glucose metabolism were monitored. Diltiazem at a dose of 0.3 mg/kg attenuated the hypotension, bradycardia, hypoglycemia, and lactacidemia in newborn endotoxic shock. Diltiazem treatment resulted in reduced 24-hour mortality. However, 0.6 mg/kg diltiazem enhanced the hypotension, bradycardia, and lactacidemia in endotoxic shock. Nitroprusside blunted the hypoglycemia and decreased the mortality rate among rats with endotoxic shock. Afterload reduction may be responsible for the beneficial effects of 0.3 mg/kg diltiazem and nitroprusside. Diltiazem at a dose of 0.3 mg/kg reduced the lactacidemia of endotoxic shock more than nitroprusside. Therefore the effects of diltiazem may be due not only to afterload reduction but also to inhibition of cellular calcium influx. We conclude that 0.3 mg/kg diltiazem and 1.0 mg/kg nitroprusside are beneficial for the treatment of endotoxic shock in newborn rats.
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PMID:Diltiazem treatment of endotoxic shock in suckling rats. 151 92

Previous work in our laboratory demonstrated increased sensitivity of senescent (24-month-old) mice to cecal ligation and puncture (CLP) sepsis compared with that of mature (12-month-old) mice. In this study the median lethal dose of the strain of Escherichia coli most frequently isolated during CLP sepsis was determined. No significant age-associated difference in the mean lethal dose or the mean survival time was noted; however, sham surgery before injection of E. coli decreased the mean lethal dose by at least 100-fold. With surgical manipulation, the average time to death after bacterial injection simulated more closely that observed after CLP surgery. Host responses to CLP sepsis were investigated by measuring the levels of corticosterone, glucose, and tumor necrosis factor (TNF) in the sera of mature and senescent mice at 2-h intervals after surgery. Corticosterone levels increased gradually during the course of sepsis in mature mice; however, senescent mice demonstrated a pronounced elevation in hormone levels at 2 and 4 h after surgery. At subsequent sampling intervals the corticosterone levels remained elevated, although they were similar for both ages. At all sampling intervals, the glucose levels in serum were lower in senescent mice than in mature mice. Pronounced hypoglycemia (less than 80 mg/dl) was observed in senescent mice at 8 h postsurgery. TNF was detected in serum within a narrow time frame in both age groups at 6, 8, and 10 h postsurgery. Although elevated TNF levels in serum were not seen in every mouse in each group (approximately 50%), the data hinted that senescent animals produced larger quantities of TNF during CLP sepsis than did mature animals. E. coli lipopolysaccharide (1 mg/kg) was injected intraperitoneally, and the TNF levels in serum and peritoneal lavage fluid were measured at 30, 60, and 90 min. Senescent mice demonstrated a level of TNF in serum at 90 min after lipopolysaccharide treatment that was 20-fold higher than that of mature mice (299,877 pg/ml versus 15,594 pg/ml). The amount of TNF produced locally in the peritoneum was also substantially higher in senescent mice than in mature animals (1,716 pg/ml versus 776 pg/ml). The increased production of TNF in senescent animals, despite elevated circulating corticosterone levels, suggested an age-related defect in glucocorticoid-directed downregulation of TNF production. This was confirmed in lipopolysaccharide-treated animals given exogenous dexamethasone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Lipopolysaccharide-tumor necrosis factor-glucocorticoid interactions during cecal ligation and puncture-induced sepsis in mature versus senescent mice. 154 72

Galactosemia in newborns and infants is associated with the following symptoms: jaundice, hepatomegaly, failure to thrive, feeding difficulties, hypoglycemia, convulsions, lethargy, amino-aciduria, cataracts, hepatic cirrhosis, ascites, and mental retardation. If the preliminary evaluation indicates galactosemia, there is high risk for E. coli sepsis and death. Strong consideration should therefore be given for early antibiotic therapy in infants with suspected galactosemia in spite of the absence of clinical signs or symptoms of sepsis.
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PMID:Association of Escherichia coli sepsis and galactosemia in neonates. 156 28

Adrenal insufficiency is a deceptive disorder. Insidious in onset, chronic in nature, it can suddenly progress into an acute life-threatening condition that may mimic disorders of vastly different etiologies. The result can be a lethal delay in diagnosis. Prompt diagnosis and replacement of glucocorticoids and fluids are essential for survival. Acute adrenal insufficiency is frequently an exacerbation of an underlying chronic disorder of the adrenal cortex or pituitary gland. Yet any patient who has been treated with suppressive doses of glucocorticoids (e.g., cortisol, prednisone), experienced overwhelming sepsis, has received anticoagulant therapy, or has endstage metastatic carcinoma may suddenly develop adrenal insufficiency along with its deadly sequela of hypovolemic shock, hyperkalemia, hyponatremia, and hypoglycemia. Successful management of this condition requires not only a heightened clinical awareness of adrenal insufficiency, but effective stress reduction interventions and a thorough patient and family teaching program to support lifelong control of the disease.
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PMID:Adrenocortical insufficiency: a medical emergency. 157 31

A total of 2248 infants born at All India Institute of Medical Sciences Hospital, New Delhi were selectively screened for hypoglycemia over a period of 15 months. Hypoglycemia (blood glucose less than 30 mg/dl) was diagnosed in 107 cases (4.8%). Preterm babies had three times increased risk (12.8%) as compared to term babies (3.6%). Small-for-dates (SFDs) and large-for-dates (LFDs) infants were at increased risk of manifesting hypoglycemia (7 and 10 times, respectively) as compared to the appropriate-for-dates (AFDs) babies (2.7%). Approximately two-thirds of the hypoglycemic babies (67.3%) had one or more risk factors including birth asphyxia (24.2%), diabetic mothers (23.8%), respiratory distress (13.9%) and septicemia (11.6%). A total of 59.8% cases were asmyptomatic while the rest had one or more symptoms. The most common symptom observed was lethargy (81.4%), followed by jitteriness (67.4%), respiratory abnormalities (41.9%), hypotonia (39.5%) and seizures (30.2%). The amount of glucose (mg/kg/min) needed to maintain a stable blood sugar in various categories of hypoglycemic babies was observed to be in the following decreasing order of amount; symptomatic babies with seizures (Gp IV), IGDM's/IDM's and symptomatic babies with other features (Gp III), SFDs and LFDs (Gp II) and AFDs (Gp I). Such a categorization of hypoglycemic babies will help to treat them more precisely.
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PMID:Neonatal hypoglycemia--clinical profile and glucose requirements. 159 96

The purpose of the present study was to determine how hypoglycemia alters glucose uptake by individual tissues and whether this response is altered by gram-negative infection. A hypermetabolic septic state was produced in catheterized rats by subcutaneous injections of live Escherichia coli. The next morning, animals were infused with saline, somatostatin to produce a euglycemic insulinopenic state (6 mmol/L glucose, 5 microU/mL insulin), or 3-mercaptopicolinate (3-MP) to inhibit gluconeogenesis and produce a hypoglycemic insulinopenic (4.5 or 2 mmol/L glucose, 5 microU/mL insulin) condition. After 140 minutes, [14C]2-deoxyglucose was injected intravenously (IV) to determine in vivo glucose uptake by individual tissues. Sepsis increased whole body glucose disposal (Rd) by 53% under basal euglycemic conditions and this increase resulted from an enhanced rate of glucose removal by liver, spleen, lung, ileum, and skin. Under euglycemic insulinopenic conditions, total glucose Rd decreased in both septic and nonseptic rats as a result of a decreased rate of glucose uptake by muscle. However, because the absolute rate of glucose uptake was still elevated by sepsis, the rate of non-insulin-mediated glucose uptake (NIMGU) was 46% higher in septic rats than in nonseptic animals. Severe hypoglycemia (2 mmol/L) produced a relative insulin deficiency and decreased whole body Rd in both septic and nonseptic animals by 53% to 58%, compared with euglycemic insulinopenic animals. The decrease in blood glucose decreased glucose uptake by all tissues examined, except brain and heart. However, sepsis still increased glucose uptake by liver, spleen, lung, ileum, and skin (25% to 90%), compared with hypoglycemic nonseptic rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sepsis-induced increases in glucose uptake by macrophage-rich tissues persist during hypoglycemia. 167 34


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