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)

Despite implementation of CDC recommendations and bundled interventions for preventing catheter-associated blood stream infection, ventilator-associated pneumonia, or urinary catheter-associated infections, nosocomial infections and sepsis remain a significant cause of morbidity and mortality in critically ill children. Recent studies suggest that acquired critical illness stress-induced immune suppression (CRISIS) plays a role in the development of nosocomial infection and sepsis. This condition can be related to inadequate zinc, selenium, and glutamine levels, as well as hypoprolactinemia, leading to stress-induced lymphopenia, a predominant T(H)2 monocyte/macrophage state, and subsequent immune suppression. Prolonged immune dysfunction increases the likelihood of nosocomial infections associated with invasive devices. Although strategies to prevent common complications of critical illness are routinely employed (eg, prophylaxis for gastrointestinal bleeding, thrombophlebitis), no prophylactic strategy is used to prevent stress-induced immune suppression. This is the authors' rationale for the pediatric CRISIS prevention trial (NCT00395161), designed as a randomized, double-blind, controlled clinical investigation to determine if daily enteral supplementation with zinc, selenium, and glutamine as well as parenteral metoclopramide (a dopamine 2 receptor antagonist that reverses hypoprolactinemia) prolongs the time until onset of nosocomial infection or sepsis in critically ill children compared to enteral supplementation with whey protein. If effective, this combined nutritional and pharmacologic approach may lessen the excess morbidity and mortality as well as resource utilization associated with nosocomial infections and sepsis in this population. The authors present the design and analytic plan for the CRISIS prevention trial.
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PMID:Rationale and design of the pediatric critical illness stress-induced immune suppression (CRISIS) prevention trial. 1940 4

The essential trace element selenium (Se), in the form of selenoproteins, plays a pivotal role in the antioxidant defense system of the cell. There is evidence that Se may confer benefits in patients with inflammatory disease and even infectious diseases like HIV. Furthermore, in patients with severe sepsis, characterized by an increase in reactive oxygen species and low endogenous anti-oxidative capacity, as well as in patients with systemic inflammatory response syndrome, Se supplementation may reduce mortality and improve the clinical outcome, respectively. The nuclear factor kappa-B (NF-kappaB) signaling pathway has been associated with enhanced inflammatory response and its activation has been significantly correlated with interleukin-6 and TNF-alpha production. Selenium may inhibit the activation of NF-kappaB by modulating selenoprotein genes expression. Moreover, Se supplementation in chronic inflammation restores the depleted hepatic and serum Se levels by increasing selenoprotein biosynthesis leading to suppressed CRP production thereby attenuating the inflammatory process. Se increases shedding of L-selectin from monocytes while decreasing soluble L-selectin, which has been reported to be associated with high mortality in patients with sepsis. These mechanisms are likely to contribute to the modulatory effects of an increased Se status on the inflammatory response. This review evaluates some apparently key mechanisms of the anti-inflammatory action of selenium and advocates Se supplementation as a modulator of inflammatory response in infectious and autoimmune disease. Prospective, randomized, controlled studies must be performed to provide a greater degree of certainty.
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PMID:Selenium and inflammation: underlying anti-inflammatory mechanisms. 1941 16

Administration of sodium selenite in septic shock has been associated with apparently conflicting results that may be related to different dosing schedules. Bolus administration, leading to a transient pro-oxidative effect, could limit the inflammatory reaction and improve outcomes. We studied 21 anesthetized, mechanically ventilated, invasively monitored, and fluid-resuscitated sheep. Nine hours after inducing peritonitis by injection of autologous feces, the animals were randomized into three groups: (i) bolus injection (2 mg selenium as selenite, followed by 0.06 microg . kg-1 . h-1, n = 7); (ii) continuous infusion (4 microg . kg-1 . h-1 selenium, n = 7), or (iii) control (n = 7). No vasopressors or antibiotics were administered. All animals were monitored until spontaneous death. Peak plasma selenium values reached 4 to 14 micromol . L-1. Compared with the other groups, sheep given a bolus of sodium selenite had delayed hypotension with better maintained cardiac index, delayed hyperlactatemia, fewer sepsis-induced microvascular alterations, and a prolonged survival time (21.9 [bolus group] vs. 18.4 [continuous group] and 18.3 h [control group], P < 0.05). Hence, in this model of septic shock, the administration of a large bolus of sodium selenite (rather than a continuous administration) resulted in beneficial effects, probably by a transient oxidative effect.
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PMID:A large-bolus injection, but not continuous infusion of sodium selenite improves outcome in peritonitis. 2040 54

Critical illness and particularly sepsis are associated with a significant redox imbalance resulting from an increased production of oxidant species and a decrease in endogenous antioxidant defences. In critical patients sources of oxidative stress include the mitochondrial respiratory electron transport chain, xanthine oxidase activation, the respiratory burst associated with neutrophil activation, and arachidonic acid metabolism. Several endogenous antioxidants have been identified including enzymes, like superoxide dismutases and glutathione peroxidase, vitamins and other molecules such as uric acid and bilirubin. Recent studies pointed out the correlations between oxidative stress, systemic inflammatory response and apoptosis. Prospective randomized clinical trials regarding antioxidant therapy in critical illness provide increasing evidence in support of selenium, glutamine and omega-3 fatty acids. In particular selenium seems to improve clinical outcome in terms of infections and organ failure, glutamine has been associated with a significant reduction in infectious complications and omega-3 fatty acids could be particularly efficacious in sepsis. Melatonin is a promising molecule that deserves the attention of future research, as well as vitamin C. Further studied should also try to establish the more beneficial combination of antioxidants, as well as the doses, and the timing of administration. When such problems will be resolved hopefully results about antioxidant therapy in critical illness will be more univocal and promising.
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PMID:Antioxidant therapy in critically septic patients. 1979 41

Selenium (Se) is an essential nutrient for human beings, with serious consequences resulting from clinical deficiency. It therefore should be provided intravenously to all patients who require parenteral nutrition (PN). Moreover, because the effects of suboptimal status are variable and unclear, this supplementation should be provided from the beginning of the course of PN. In most patients receiving PN at home or after surgery, 60-100 mcg/day will meet their requirements. Patients who commence PN already depleted in selenium may require more. Critically ill patients or those with severe burns may have higher requirements. There is good evidence that up to 400 mcg/day is beneficial in burn patients, but the evidence is inconclusive regarding the benefit of high-dose selenium in severe sepsis. Where increased Se provision is used, or in long-term PN, selenium status should be monitored by measurement of plasma Se together with a measure of systemic inflammatory response syndrome, such as C-reactive protein. There are many research issues, including which biochemical measurements best reflect tissue function, especially immune function in seriously ill patients, the clinical consequences of suboptimal biochemical Se status, whether high-dose Se improves outcome in critically ill patients, and whether extra Se always should be given with extra intakes of other antioxidants.
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PMID:Selenium in intravenous nutrition. 1987 51

Patients with parenteral nutrition depend on an adequate supply of micronutrients, in particular, antioxidant vitamins and cofactors such as selenium. In cases of oxidative stress (eg, chronic inflammation, sepsis, lung distress syndrome, and organ failure), there is a higher need for antioxidants. One of the most important antioxidant vitamins is vitamin E. For very low birth weight infants the plasma level is an indicator for adequate supply and for safety. Safe and effective blood levels are between 23 and 46 micromol/L, maintained with a dose of 2.8 IU/kg body weight (1-2 mg/day). For safety reasons a plasma level of 80 micromol/L should not be exceeded. For adults, 10 IU/day (9.1 mg/day) are recommended. Whether this dose is sufficient to ensure body stores and sufficient antioxidant activity is controversial. If parenteral lipid emulsions are supplied there is an additional need for vitamin E to protect the lipids (polyunsaturated fatty acids) from lipid peroxidation and to deliver additional vitamin E. Dietary guidelines for healthy adults recommend an intake of polyunsaturated fatty acids equal to 10% of total energy and an intake of alpha-tocopherol greater than 0.4 mg/g of polyunsaturated fatty acids. Randomized clinical trials are performed using special formulations of vitamin E solutions because vitamin E is available only in lipid emulsions to protect lipids, but not in an isolated solution for parenteral supply.
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PMID:Vitamin E requirements in parenteral nutrition. 1987 55

Here, we report the identification and characterization of allograft inflammatory factor-1 (AIF-1) from disk abalone Haliotis discus discus that was denoted as AbAIF-1. The full-length cDNA of AbAIF-1 consists of a coding region (453 bp) for 151 amino acids with a 17 kDa molecular mass. Analysis of AbAIF-1 sequence showed that it shares characteristic two EF hand Ca(+2)-binding motifs. Results from phylogenetic analysis further confirm that AbAIF-1 is a member of the AIF-1 family similar to invertebrate and vertebrate counterparts suggesting it has high evolutional conservation. Tissue-specific expression and transcriptional regulation of AbAIF-1 were analyzed after bacteria (Vibrio alginolyticus, Vibrio parahemolyticus and Lysteria monocytogenes), viral hemorrhagic septicemia virus (VHSV) immune challenge and during tissue injury by quantitative real-time PCR. It is shown that the expression of AbAIF-1 mRNA was expressed ubiquitously in all selected tissues in constitutive manner showing the highest level in hemocytes. Upon bacteria and VHSV challenge, AbAIF-1 showed the significant up-regulation in hemocytes than gills. After the tissue injury in shell and mantle, AbAIF-1 and antioxidant selenium-dependant glutathione peroxidase (SeGPx) transcripts were significantly upregulated in abalone hemocytes. Taken together, these findings suggest that AIF-1 could response against the pathogenic challenge or tissue injury in abalone like mollusks. Also, AbAIF-1 may involve in wound healing and shell repair after the tissue injury of abalone.
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PMID:Allograft inflammatory factor-1 in disk abalone (Haliotis discus discus): molecular cloning, transcriptional regulation against immune challenge and tissue injury. 2043 45

Because of inadequate sample sizes of randomized controlled trials, few immunologic interventions to treat or prevent neonatal sepsis have been reliably evaluated. International collaboration is essential in achieving timely, adequate samples to assess effects on mortality or disability-free survival reliably. Promising or possible therapeutic interventions in severe or gram-negative sepsis include exchange transfusions, pentoxifylline, and IgM-enriched intravenous immunoglobulin. Promising or possible prophylactic interventions include lactoferrin, with or without a probiotic; selenium; early curtailment of antibiotics after sterile cultures; breast milk; and earlier initiation of colostrum in high risk preterm infants. Prophylactic oral probiotics are safe and effective (P<.00001) in reducing all-cause mortality and necrotizing enterocolitis in preterm infants by over half, but do not reduce sepsis.
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PMID:Adjunctive immunologic interventions in neonatal sepsis. 2056 18

Micronutrients are defined as those compounds necessary for the adequate physiological status of the organism and that may be administered through the daily diet either enteral or parenteral. The term micronutrient encompasses the vitamins and oligoelements, also termed trace elements. Vitamins cannot be synthesized by the organism and are categorized in two groups: water-soluble vitamins (the vitamin B group, C, folic acid, and biotin) and lipid-soluble vitamins (A, D, E, and K). Oligoelements are found in small amounts in the human body, and copper, cobalt, chrome, iron, iodine, manganese, molybdenum, nickel, selenium, and zinc are considered to be essential. The important role of micronutrients in critically-ill patients has been demonstrated, and their influence on the immune system, cancer, burnt, septic, and poly-traumatized patients has extensively been put in evidence. It is important to establish the micronutrients demands for each individual in order to achieve an adequate intake. However, there is little evidence on the necessary intake to achieve proper physiological functioning under different pathologies; therefore, studies bringing light to this situation are needed. The aim of this review is to update the current state of knowledge on micronutrients supplementation in the adult population with pathologies such as cancer, coronary and cardiovascular disease, bowel inflammatory disease, short-bowel syndrome, cystic fibrosis, liver disease, renal failure, respiratory failure, the surgical patient, big-burnt patient, pancreatitis, poly-traumatized patients, sepsis and HIV. After the bibliographical search, we describe the current state of knowledge regarding micronutrients intake in artificial nutrition under the above-mentioned pathologies.
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PMID:[Advances in the knowledge of the use of micronutrients in artificial nutrition]. 2151 28

Diverse antioxidant enzymes are essential for marine organisms to overcome oxidative stress as well as for the fine-tuning of immune reactions through activating different signal transduction pathways. This study describes the transcriptional analysis of antioxidant enzymes of disk abalone by challenging with bacteria (Vibrio alginolyticus, Vibrio parahemolyticus, and Listeria monocytogenes) and viral hemorrhagic septicemia virus (VHSV). Upon bacteria and VHSV challenge, Manganese superoxide dismutase (MnSOD), Copper, Zinc superoxide dismutase (CuZnSOD), catalase, thioredoxin peroxidase (TPx), Selenium-dependent glutathione peroxidase (SeGPx), and thioredoxin-2 (TRx-2) expression levels were altered in gills, and hemocytes at different magnitudes. In gills, only MnSOD, catalase, and SeGPx genes were completely upregulated by post-challenge of bacterial and VHSV. Among them, SeGPx demonstrated strong upregulation by 16-fold (bacteria) and 2-fold (VHSV) in gills, and 5-fold (bacteria) and 3.0-fold (VHSV) in hemocytes. None of the genes examined were downregulated (in gills and hemocytes) by bacteria challenge even though CuZnSOD and TPx showed downregulation (completely) in hemocytes by VHSV. In general, abalone hemocytes had lower potential to induce antioxidant enzyme transcripts upon bacteria and VHSV challenge than gills. Based upon these results, we suggest that abalones induce oxidative stress in tissues during the bacteria and VHSV challenge, and the identified response of antioxidant enzymes could be supported for maintaining a low-level of reactive oxygen species (ROS) that may serve as a signal for activating immune reactions against pathogenic conditions.
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PMID:Transcriptional analysis of disk abalone (Haliotis discus discus) antioxidant enzymes against marine bacteria and virus challenge. 2154


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