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)

In the sequelae of massive traumatic stress, substantial impairment of immunologic reactivity has been demonstrated to correlate clinically with increased susceptibility to serious infection. Posttraumatic immune abnormalities consist basically of two coexistent mechanisms: Hyperinflammation and depression of cell-mediated immune responses. It is our understanding that the endogenous ability of the organism to survive overwhelming trauma is insufficient and requires exogenous support to prevent the conversion from systemic inflammatory response syndrome to bacterial sepsis and septic shock. The objectives of immunomodulatory interventions, which should be started as early as possible after tissue destruction, include a) prevention of excessive macrophage stimulation via neutralization of circulating endotoxins and exotoxins with high doses of polyvalent immunoglobulin and soluble complement receptors, b) global short-term (<72 hrs) down-regulation of inflammatory monocyte/macrophage and polymorphonuclear neutrophil activity, and c) restoration of cell-mediated immune performance to overcome posttraumatic functional paralysis. Among recent promising strategies, the use of granulocyte-macrophage colony-stimulating factor, pentoxifylline, and recombinant human interleukin-13 has been suggested, all of them predominantly down-regulating the Mphi (monocyte/macrophage) inflammatory potential. Cyclooxygenase inhibitors such as indomethacin and thymomimetic peptides can help normalize the immunoreactivity by restoring the forward-regulatory pathway of cell-mediated immunity responses. The efficacy of interferon to reduce infection and deaths in severely injured patients has been assessed in clinical trials. Still other compounds, i.e., CNI-1493, interleukin-11, tissue factor pathway inhibitors, and PGG-Glucan represent auspicious immunomodulatory approaches for control of posttraumatic or postoperative infections.
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PMID:Therapeutic immunomodulatory approaches for the control of systemic inflammatory response syndrome and the prevention of sepsis. 965 18

The immaturity of neonatal phagocytic immunity contributes to increased mortality during neonatal sepsis. Neonates have both quantitative and qualitative neutrophil defects with decreased bone marrow neutrophil storage pool (NSP) reserves, an inability to increase neutrophil production, and defective neutrophil functional activity. Neonates respond to overwhelming sepsis with depletion of the NSP and the development of peripheral neutropenia. The myelopoietic cytokines granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) have been documented to induce neutrophilia in neonatal animals and human infants, increase the NSP, and upregulate neutrophils for improved functional activity. Preclinical studies in neonatal rats demonstrate increased survival with prophylactic G-CSF during experimental group B streptococcal sepsis. In pilot phase I/II human trials, G-CSF and GM-CSF were demonstrated to be both safe and well tolerated and to induce significant increases in absolute neutrophil count and NSP. Prophylactic GM-CSF in the very low birth weight neonate may reduce the incidence of nosocomial infections. Phase III trials are needed to further delineate the clinical usefulness of these myelopoietic cytokines in neonates with a high predisposition to sepsis.
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PMID:Potential use of granulocyte colon-stimulating factor and granulocyte-macrophage colony-stimulating factor in neonates. 966 63

Granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) enhance the antimicrobial functions of mature neutrophils. G-CSF differs from GM-CSF in its specificity of action on developing and mature neutrophils, its effects on neutrophil kinetics, and its toxicity profile. The toxicity profile of recombinant (r) GM-CSF is consistent with priming of macrophages for increased formation and release of inflammatory cytokines, whereas rG-CSF induces production of antiinflammatory factors, such as interleukin-1 receptor antagonist and soluble tumor necrosis factor receptors, and is protective against endotoxin- and sepsis-induced organ injury. The low toxicity of rG-CSF, results of animal models of infection, and extensive experience with neutropenic subjects have promoted clinical studies in nonneutropenic subjects, which indicate that rG-CSF may be beneficial as adjunctive therapy for treatment of serious bacterial and opportunistic fungal infections in nonneutropenic patients, including those with alterations in neutrophil function.
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PMID:Granulocyte colony-stimulating factor and granulocyte-macrophage colony-stimulating factor: comparisons and potential for use in the treatment of infections in nonneutropenic patients. 1008 6

The problems of immunologic adaptation during the transitional period from intra- to extrauterine life are responsible for the physiologic immaturity of the immune function in newborn infants. In preterm neonates the immunodeficiency is more severe and prolonged and is associated with a higher incidence of infections and sepsis. Furthermore, due to immaturity of the hematologic system, anemia, thrombocytopenia, and neutropenia are frequently observed in very low birth weight infants. The dysregulation of cytokine and hematopoietic growth factor synthesis is an important contributory factor to the complex deficiency of immunologic and hematologic function in the neonate and may explain the reduced incidence of acute graft-versus-host disease observed after cord blood transplantation in children. Human milk is a rich source of most of the cytokines that are reduced in the neonate. Granulocyte colony-stimulating factor, granulocyte-macrophage colony-stimulating factor, and erythropoietin are currently under evaluation in newborn infants with septic neutropenia or anemia of prematurity.
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PMID:Hematopoietic growth factor levels in term and preterm infants. 1022 41

Burkholderia pseudomallei, the causative agent of melioidosis, is a gram-negative bacterium capable of causing either acute lethal sepsis or chronic but eventually fatal disease in infected individuals. However, despite the clinical importance of this infection in areas where it is endemic, there is essentially no information on the mechanisms of protective immunity to the bacterium. We describe here a murine model of either acute or chronic infection with B. pseudomallei in Taylor Outbred (TO) mice which mimics many features of the human pathology. Intraperitoneal infection of TO mice at doses of >10(6) CFU resulted in acute septic shock and death within 2 days. In contrast, at lower doses mice were able to clear the inoculum from the liver and spleen over a 3- to 4-week period, but persistence of the organism at other sites resulted in a chronic infection of between 2 and 16 months duration which was eventually lethal in all of the animals tested. Resistance to acute infection with B. pseudomallei was absolutely dependent upon the production of gamma interferon (IFN-gamma) in vivo. Administration of neutralizing monoclonal antibody against IFN-gamma lowered the 50% lethal dose from >5 x 10(5) to ca. 2 CFU and was associated with 8,500- and 4,400-fold increases in the bacterial burdens in the liver and spleen, respectively, together with extensive destruction of lymphoid architecture in the latter organ within 48 h. Neutralization of either tumor necrosis factor alpha or interleukin-12 but not granulocyte-macrophage colony-stimulating factor, also increased susceptibility to infection in vivo. Together, these results provide the first evidence of a host protective mechanism against B. pseudomallei. The rapid production of IFN-gamma within the first day of infection determines whether the infection proceeds to an acute lethal outcome or becomes chronic.
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PMID:Obligatory role of gamma interferon for host survival in a murine model of infection with Burkholderia pseudomallei. 1037 44

We developed a fusion toxin consisting of the catalytic and translocation domains of diphtheria toxin linked to human granulocyte-macrophage colony-stimulating factor (GM-CSF) (DTGM) for the treatment of patients with acute myeloid leukemia (AML). Our goal in this study was to determine the toxicity and pharmacokinetics of DTGM in cynomolgus monkeys (Macacca fascicularis), which possess cross-reactive GM-CSF receptors. Four groups of young adult monkeys (6 males and 12 females) were treated with five daily bolus iv infusions of 1, 5, 7.5, and 10 microgram/kg DTGM. Monkeys (2 males and 2 females) treated at 1 microgram/kg/day showed no significant side effects. Monkeys (2 males and 2 females) treated at 5 microgram/kg/day showed Grade 1-2 thrombopenia (NCI common toxicity criteria) on day 9. In contrast, monkeys (6 females) treated at 7.5 microgram/kg/day developed Grade 3 neutropenia, Grade 1-2 thrombopenia, Grade 1-3 anemia, and Grade 1-3 hypoalbuminemia. The neutropenia developed by day 4 in the 7.5 microgram/kg/day monkeys and by day 3 or 5 in the 10 microgram/kg/day monkeys and resolved in both groups by day 9, but the thrombopenia, anemia, and hypoalbuminemia persisted until day 16. Monkeys (2 male and 2 female) treated with 10 microgram/kg/day showed Grade 4 neutropenia that resolved by day 8 and Grade 2-3 anemia, hypoalbuminemia, and thrombopenia. Three of the animals developed sepsis. DTGM plasma half-life was 30 min with a peak concentration of 0.1 microgram/mL or 2 nM (1000-fold higher than the IC50 in vitro for AML blasts). Immune responses were minimal in all animals tested at 14 and 28 days with anti-DTGM levels <1 microgram/mL. All four animals at 10 microgram/kg died or were euthanized, and necropsies were performed. Animals necropsied on days 4 and 6 showed marked apoptosis and hypoplasia in the marrow, which was completely resolved for animals necropsied on day 9. No injury to other organs, including kidney, heart, liver, central nervous system, or lung, was seen. The drug was selectively toxic to malignant or differentiated myeloid cells with little toxicity to myeloid progenitors or other organs. Minimal effects in nontarget tissues make DTGM a promising candidate chemotherapeutic agent.
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PMID:Toxicology and pharmacokinetics of DTGM, a fusion toxin consisting of a truncated diphtheria toxin (DT388) linked to human granulocyte-macrophage colony-stimulating factor, in cynomolgus monkeys. 1040 30

Bacterial and fungal sepsis are major causes of morbidity and mortality in the newborn. Multiple factors contribute to this increased susceptibility to infection, including quantitative and qualitative neutrophil defects, with a reduction in neutrophil number and function. Neutropenia in the newborn may occur in association with sepsis and has a poor prognosis. In addition to antibiotic therapy and supportive care, granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) have been used to reduce morbidity and mortality. Granulocyte CSF is the physiological regulator of neutrophil production and function. Administration of G-CSF results in increased neutrophil production and counts and improved neutrophil function. Several studies of animal and human newborns having neutropenia or suspected sepsis investigated the use of G-CSF and GM-CSF to elevate neutrophil counts and reduce morbidity and mortality in this population. Results of small clinical trials using G-CSF and GM-CSF in very low-birth-weight infants having neutropenia show increased neutrophil counts and a reduced incidence of sepsis during the neonatal period. Despite these promising early results, further studies of the safety and efficacy of G-CSF and GM-CSF administration in neonates are required before their routine use can be recommended as either prophylaxis or treatment for neonatal sepsis.
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PMID:Myeloid colony-stimulating factors: use in the newborn. 1048 17

An overproduction of proinflammatory cytokines mediates the damaging sequelae of inflammation in pathologic conditions such as rheumatoid arthritis, graft-vs-host reaction, cachexia, and sepsis syndrome. We examined the cytokine regulatory activity of synthetic melanin, exemplified by biosynthetic l-glycine-l-tyrosine-based polymer (ME-1) and chemosynthetic dihydroxyphenylalanine-based polymer (MC-1). At nontoxic concentrations, both compounds effectively (>/=60%) and reversibly suppressed the production of tumor necrosis factor (TNF), even when applied after stimulation of human peripheral blood monocytes with lipopolysaccharide (LPS). The inhibitory activity of melanin was selective with regard to cytokine response but not inducer- or cell-type-specific. In addition to TNF, melanin inhibited production of interleukin (IL)-1beta, IL-6, and IL-10 but not granulocyte-macrophage colony-stimulating factor by the LPS-stimulated monocytes. Melanin was equally effective in inhibiting production of TNF by monocytes stimulated with the purified protein derivative of Mycobacterium tuberculosis and production of IL-6 by IL-1alpha-stimulated human fibroblasts and endothelial cells. Northern blot analysis, mRNA stability determination, immunoprecipitation studies on metabolically labeled intracellular TNF, and pulse chase experiments revealed that melanin reduced efficiency of mRNA translation. The finding that melanin arrests ongoing cytokine synthesis suggests that this compound may be useful as an adjunct therapy for conditions showing involvement of proinflammatory cytokines.
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PMID:Synthetic melanin suppresses production of proinflammatory cytokines. 1067 72

We present a seven-month-old boy referred to our hospital with a history of recurrent suppurative infections starting in his neonatal period. Anemia, absolute neutropenia absolute neutrophil count (ANC: 500 cells/microl), pneumonia, purulent otitis media and maturational arrest of granulocytes at promyelocyte-myelocyte level in bone marrow were detected on his admission. He was diagnosed as Kostmann syndrome and recombinant human granulocyte colony-stimulating factor (rhG-CSF) therapy was started at a dose of 10 microg/kg/d, gradually increasing up to 120 microg/kg/d in sequential seven-day courses. As there was no response, rhG-CSF was stopped and recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) was started subcutaneously with 2.5 microg/kg/d and was escalated by doubling the dose every seven days to 20 mg/kg/d. By this therapy absolute neutrophil count (ANC) transiently reached above 500 cells/microl, but eosinophilia developed with a total white cell count of 88.200 cells/microl, and a differential count showing 86 percent eosinophils. Since eosinophilia of this magnitude has deleterious effects, and neutrophil production did not significantly increase, we tried combined therapy with rhG-CSF and rhGM-CSF at doses of 10-20 microg/kg/d and 5-10 microg/kg/d, respectively, without any effect on absolute neutrophil count. The patient succumbed from sepsis eight months after the diagnosis.
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PMID:Failure of granulocyte colony-stimulating factor and granulocyte-macrophage colony-stimulating factor in a patient with Kostmann syndrome. 1077 Jun 86

In this prospective, multicenter, phase 2 study, multiple myeloma (MM) patients with primary resistant disease or recurrent chemosensitive disease, in chemoresistant relapse, or in second or subsequent remission were treated with high-dose chemoradiotherapy followed by autologous peripheral blood stem cell (PBSC) rescue. PBSCs were collected using granulocyte-macrophage colony-stimulating factor (GM-CSF) 5 microg/kg per day subcutaneously for 3 days. Patients underwent high-dose chemoradiotherapy consisting of melphalan (140 mg/m2 x 1 day), cyclophosphamide (60 mg/kg per day x 2 days), methylprednisolone (2 g/d x 7 days), and total body radiation (150 cGy bid x 3 days) followed by peripheral blood stem cell reinfusion (> or = 1.2 x 10(9) mononucleated cells per kg) and GM-CSF support (5 microg/kg per day) and were evaluated for response, survival, and toxicity. Thirty-six patients, median age 53.4 years, completed the study. The mean pretransplantation cumulative melphalan dose was 464 +/- 72 mg. Excluding the 3 patients (8.3%) who failed to engraft, the median times to engraftment and platelet recovery were 10 days (range, 8-39 days) and 17 days (range, 7-67 days), respectively. Four patients (11.1%) died of complications related to the regimen (main causes of death, sepsis and acute respiratory distress syndrome) within the first 100 days. Twenty-two patients (61.1%) achieved complete response (CR), 8 (22.2%) partial response, and 2 (5.5%) no response. Two patients developed myelodysplastic syndrome after achieving CR. For all 36 patients, the probability of overall survival at 5 years was 27.3%. Median survival was 31 months (range, 0.3-81 months) in all patients and 42 months (range, 3.4-81 months) in those with CR. The probabilities of overall and disease-free survival at 5 years for the 22 patients who achieved CR were 43.6% and 15.7%, respectively. This high-dose chemotherapy regimen coupled with PBSC rescue is associated with a high CR rate and is capable of inducing long-term survival in a subset of heavily pretreated patients with primary resistant or recurrent MM.
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PMID:Treatment of primary resistant or relapsed multiple myeloma with high-dose chemoradiotherapy, hematopoietic stem cell rescue, and granulocyte-macrophage colony-stimulating factor. 1097 14

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