Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Polymicrobial infection is a significant cause of mortality in critically ill patients. Antibiotics and surgical intervention are useful but limited in their effectiveness for combating mixed infections. New prophylactic and therapeutic approaches are required to improve survival in critically ill patients. Neutrophils are a known primary host defense mechanism against bacterial infection. We evaluated the use of a neutrophil growth factor, recombinant human granulocyte colony-stimulating factor (G-CSF), to improve survival in a well-established sepsis model, cecal ligation and puncture (CLP). When administered beginning 4 days before CLP with injections continuing for 14 days after CLP, mice that received 10, 100, or 1000 ng of G-CSF had significantly improved survival compared with the control group. When treatment began at the time of CLP and continued for 7 days after CLP, G-CSF treatment resulted in a dose-dependent improvement in survival in groups that received 100, 500, or 1000 ng. The interaction of G-CSF and conventional antimicrobial therapy was evaluated by administration of G-CSF plus gentamicin. Mice received 100 ng of G-CSF beginning on day 1 before CLP with injections continuing for 3 days after CLP. Gentamicin-treated mice received a single 15 mg/kg injection of gentamicin at the time of CLP. Mice that received G-CSF alone or gentamicin alone had significantly improved survival compared with controls. Mice that received G-CSF plus gentamicin had improved survival compared with control mice and compared with mice that received G-CSF alone but not compared with mice that received gentamicin alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Treatment of intra-abdominal infection with granulocyte colony-stimulating factor. 128 10

Neonatal hematopoiesis and host defense are developmentally immature and under states of increased demand predispose the newborn to peripheral cytopenias and depletion of bone marrow storage pool reserves. We have previously demonstrated that recombinant human granulocyte colony-stimulating factor (rhG-CSF) can significantly modulate neonatal rat granulopoiesis and act synergistically with antibiotic therapy to reduce the mortality rate during experimental group B streptococcal sepsis. Stem cell factor (SCF) has been shown to stimulate early hematopoietic progenitor cells and, in the presence of lineage-specific CSFs, enhance committed progenitor cell proliferation. In the present study we examined the in vivo neonatal hematologic effects of recombinant rat (rr) SCF (14 days), simultaneous rrSCF + rhG-CSF (14 days), and sequential combination of rrSCF (7 days) + rhG-CSF (7 days). Sprague-Dawley newborn rats (less than or equal to 24 hours) were injected intraperitoneal (IP) x 14 days with the above combinations. rrSCF (0 to 200 micrograms/kg/d) had a negligible effect on the peripheral platelet count and absolute neutrophil count (ANC) but the diminution in the hematocrit during the first 10 days of treatment was less pronounced (P = .0001). However, the simultaneous use of rrSCF + rhG-CSF synergistically increased the circulating day 6 to 13 ANC (P = .001). Similarly, sequential rrSCF + rhG-SCF also had a synergistic significant effect during the second week of therapy on the circulating ANC (P = .01). The bone marrow neutrophil storage and proliferative pools were also significantly increased in newborn rats treated with rrSCF + rhG-CSF versus rhG-CSF (P = .02). The bone marrow and liver/spleen CFU-GM pool was unchanged; however, the CFU-GM proliferative rates were significantly increased in the rrSCF + rhG-CSF group (P = .04). rrSCF also induced a significant increase in the bone marrow and liver/spleen mast cell pool (P = .002). Lastly, rrSCF x 14 days +/- rhG-CSF significantly reduced the mortality rate at 48 and 120 hours after experimental group B streptococcus sepsis (P = .03 and .05, respectively). These data suggest that combination SCF + G-CSF therapy compared with G-CSF alone significantly increases the neonatal rat peripheral neutrophil count, bone marrow myeloid pools and proliferative rates, and induces a reduction in the mortality rate during experimental bacterial sepsis. SCF therapy may have future potential applications in the modulation of human neonatal hematopoiesis and host defense.
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PMID:Effect of stem cell factor with and without granulocyte colony-stimulating factor on neonatal hematopoiesis: in vivo induction of newborn myelopoiesis and reduction of mortality during experimental group B streptococcal sepsis. 137 57

Neutropenia was seen in rats made septic by subcutaneous (sc) injection of Escherichia coli. The sepsis-induced increase in glucose uptake by tissues distant from the site of infection was not associated with increased myeloperoxidase (MPO) activity. Only the skin and muscle at the site of infection demonstrated an increase in both glucose uptake and MPO activity. Granulocyte colony-stimulating factor (G-CSF) attenuated the sepsis-induced decrease in circulating neutrophils. Both glucose uptake and MPO activity of skin and muscle adjacent to the infection site showed a smaller increase in G-CSF treated rats. In contrast, septic rats injected with G-CSF exhibited a greater number of leukocytes and a larger reduction in the number of bacteria in the sc lavage fluid. These results demonstrate that G-CSF is a potent immunomodulator that stimulates neutrophil function and also increases their recruitment to the site of infection, resulting in improved bacterial killing and host defense.
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PMID:Effect of granulocyte colony-stimulating factor on sepsis-induced changes in neutrophil accumulation and organ glucose uptake. 137 72

The synergism of combined high-dose etoposide with standard dose cisplatin (HD-EP) was evaluated in 20 patients who had relapsed after treatment of small cell lung cancer. Each patient was given etoposide at 500 mg/m2/day on days 1 to 3 and cisplatin at 80 mg/m2 (two patients given 120 mg/m2) on day 1; autologous bone marrow was not transplanted. Five patients were given recombinant human granulocyte colony-stimulating factor (rhG-CSF, 50 micrograms/m2) in an attempt to reduce HD-EP induced neutropenia. The overall response was 50% (9 of 18); one complete response (6%), eight partial responses (44%), seven no change (39%), and two progressions of disease (11%). Of the 18 evaluable patients, 12 had been treated with regimens of conventional doses of etoposide with conventional doses of cisplatin or carboplatin, and of these, five (42%) achieved a partial response. The median duration of response was 8.4 weeks (range, 5.3 to 17.7) and the median survival time was 20.3 weeks (range, 1.6 to 91). All of the patients developed severe myelosuppression; rhG-CSF did not shorten the period of the leukopenia. Mucositis and liver dysfunction were the major nonhematologic manifestations of toxicity. Two treatment-related deaths resulted from sepsis. These results suggest that the activities of high doses etoposide with standard doses of cisplatin are synergistic against small cell lung cancer.
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PMID:Evaluation of high-dose etoposide combined with cisplatin for treating relapsed small cell lung cancer. 169 57

We investigated the effects of repetitive recombinant human granulocyte colony-stimulating factor (rhG-CSF) administration at three different doses (every 12 h times six doses, starting at 12-24 h of age) on the kinetics of neutrophil production in Sprague-Dawley rats. We determined WBC counts, differentials, the number of total nucleated cells, the myeloid mitotic pool cells (promyelocytes and myelocytes), the storage pool cells (metamyelocytes, bands, and polymorphonuclear cells [PMNs]) and the granulocyte-macrophage (granulocyte-macrophage colony-forming units, CFU-GM) and macrophage (macrophage colony-forming units, CFU-M) progenitor cells of the bone marrow, spleen, and the liver before the first dose of rhG-CSF administration and 12 h after the second, fourth, and sixth dose. Control animals were given the diluent by the same schedule. Recombinant human G-CSF-treated rats showed a significant dose-dependent increase in the number of total WBC and neutrophil counts at all time points compared to control rats. The total number of CFU-GM and myeloid mitotic pool cells (marrow plus spleen plus liver) progressively increased with age in both control and G-CSF groups, but the G-CSF treated groups showed a significantly larger number of mitotic pool cells at hour 24, continuing up to hour 72, compared to the control group. However, there was no significant difference at any time point in the number of CFU-G/GM as detected by the granulocyte-macrophage colony-stimulating factor (GM-CSF)-supported culture system. Priming of newborn rats with injections every 12 h of rhG-CSF times two doses, or six doses followed by inoculation of group B streptococci (GBS) did not significantly change the sepsis death rate of animals, although the neutrophil counts in infected rhG-CSF-primed animals were significantly larger than the infected control animals. Injection of human i.v. gammaglobulin 3 h following inoculation with GBS significantly improved the survival of animals compared to G-CSF administration or administration of the diluent alone (control). Thus G-CSF alone may not be beneficial for the treatment of neonates with sepsis. Additional work is needed to determine whether combination of G-CSF with antibiotics or other cytokines, such as GM-CSF or interleukin 6 (IL-6) may be of benefit.
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PMID:Effect of recombinant human granulocyte colony-stimulating factor administration in normal and experimentally infected newborn rats. 170 9

Neutropenia in the newborn is often associated with sepsis, maternal hypertension, or prematurity. We describe a 654-g infant born at 30 weeks' gestation by cesarean section due to severe maternal hypertension. His course was complicated by five episodes of sepsis, including three with group B streptococcus. The results of hematologic and immunologic studies were normal except that absolute neutrophil counts were low (less than 1 x 10(9)/L) with intermittent increases during sepsis. Human recombinant granulocyte colony-stimulating factor administered subcutaneously (10 micrograms/kg per day initially) resulted in an absolute neutrophil count of greater than 30 x 10(9)/L within 2 weeks. The dosage was lowered and the absolute neutrophil counts were maintained at 8 to 12 x 10(9)/L with no further septic episodes. The human recombinant granulocyte colony-stimulating factor therapy was discontinued after 7 months, and the patient remained healthy with an absolute neutrophil count of greater than 2 x 10(9)/L. Thus, treatment with human recombinant granulocyte colony-stimulating factor may be useful as a temporary measure for neonatal neutropenia associated with sepsis. A controlled, clinical trial is warranted.
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PMID:Neutropenia in an extremely premature infant treated with recombinant human granulocyte colony-stimulating factor. 171 73

Multiple immune defects have been demonstrated following thermal injury, including defective granulocyte production and function. Recombinant human granulocyte colony-stimulating factor (rhGCSF) is a regulator of the myelopoietic system. The effect of rhGCSF administration on survival and on the myelopoietic system in a murine model of Pseudomonas burn wound sepsis was investigated. Male BDF1 mice that underwent a 15% total body surface area burn injury and burn wound seeding with 1 x 10(8) Pseudomonas aeruginosa organisms demonstrated an improved mean survival time with the subcutaneous administration of 100 ng of rhGCSF twice a day. Mice that underwent a similar thermal injury and burn wound seeding with 3 x 10(7) P aeruginosa organisms demonstrated an augmented myelopoietic response through the administration of rhGCSF, as represented by significantly increased white blood cell count, neutrophil count, splenic weight, femoral marrow cellularity, and femoral marrow granulocyte-macrophage colony-forming cell count. Myelopoietic augmentation through rhGCSF administration may serve to decrease the morbidity of septic events following thermal injury.
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PMID:Recombinant human granulocyte colony-stimulating factor and Pseudomonas burn wound sepsis. 246 68

We examined the in vivo effects of recombinant human granulocyte colony-stimulating factor (rhG-CSF) in primates (cynomolgus monkeys) treated with subcutaneous doses of rhG-CSF for 14-28 d. A dose-dependent increase in the peripheral white blood cells (WBC) was seen, reaching a plateau after 1 wk of rhG-CSF treatment. The elevation of WBC was due to an increase in the absolute neutrophil count. These results demonstrate that rhG-CSF is a potent granulopoietic growth and differentiation factor in vivo. In cyclophosphamide (CY)-induced myelosuppression, rhG-CSF was able to shorten the time period of WBC recovery in two treated monkeys to 1 wk, as compared to more than 4 wk for the control monkey. Its ability to significantly shorten the period of chemotherapy-induced bone marrow hypoplasia may allow clinicians to increase the frequency or dosage of chemotherapeutic agents. In addition, the increase in absolute numbers of functionally active neutrophils may have a profound effect in the rate and severity of neutropenia-related sepsis. Furthermore, the activities reported here indicate a potential role for rhG-CSF in the treatment of patients with myelodysplastic syndrome, congenital agranulocytosis, radiation-induced myelosuppression, and bone marrow transplantation.
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PMID:Recombinant human granulocyte colony-stimulating factor. Effects on hematopoiesis in normal and cyclophosphamide-treated primates. 349 94

Granulocyte and macrophage production after burn injury or burn wound infection is significantly reduced and further compromised by endotoxin (ET). Moreover, the macrophage seems to be the major source of this bone marrow suppression. We sought to determine if recombinant human granulocyte colony-stimulating factor (rhG-CSF), a hematopoietic growth factor that is capable of improving survival after experimental burn wound sepsis, altered postburn macrophage-mediated marrow suppression. Groups of male BDF1 mice (n = 6 to 10) receiving a 15% total body surface area burn +/- infection (B or B + I) with Pseudomonas aeruginosa were injected with 100 ng rhG-CSF twice daily. On day 3, peritoneal-elicited macrophages (5 x 10(6) cells/mL) from either rhG-CSF-treated or control (5% dextrose in water) mice were incubated +/- ET (300 ng/mL). The resultant macrophage supernatant was added to cultures of target marrow granulocyte-macrophage progenitor cells (GM-CFC) at a volume of 1:10. The GM-CFC growth as a percentage of cultures not containing macrophage supernatant were compared and reductions in the number of GM-CFC taken as an index of marrow suppression. Macrophages obtained from B and B + I animals reduced target GM-CFC growth, compared with macrophages from normal animals (B vs. normal animals p < 0.05). In addition, ET-stimulated macrophages induced further bone marrow suppression for all three groups (p < 0.01). Macrophages from granulocyte colony-stimulating factor-treated animals caused significantly less bone marrow suppression, compared with untreated animals for all groups (p < 0.05 to 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Recombinant human granulocyte colony-stimulating factor treatment improves macrophage suppression of granulocyte and macrophage growth after burn and burn wound infection. 750 Apr 9

Ethanol is a potent immunosuppressive agent that impairs neutrophil effector function. The purpose of this study was to determine whether granulocyte colony-stimulating factor (G-CSF), a cytokine that increases neutrophil number and functional activity, could prevent the ethanol-induced impairment of antibacterial host defense. Rats were injected with human recombinant G-CSF for 2 days. Eight hr after the last injection of G-CSF, animals were infused with ethanol (or saline) for 1 hr before the subcutaneous injection of live Escherichia coli. The infusion of alcohol was continued after the bacterial challenge and produced blood alcohol levels of 275-300 mg/dl. In control animals, the injection of E. coli resulted in a marked leukopenia. There was an influx of leukocytes into the subcutaneous space where the bacteria were injected, and neutrophil accumulation in tissues adjacent to the focus of infection (i.e., dorsal skin and muscle). Based on myeloperoxidase activity, there was no detectable accumulation of neutrophils in other soft tissues. In acutely intoxicated rats, leukocyte migration to the inflammatory site was impaired, and the number of viable bacteria isolated from the subcutaneous pocket was markedly increased. G-CSF prevented the sepsis-induced leukopenia, increased the influx of neutrophils in to the infection site, reduced the number of bacteria in the subcutaneous lavage fluid, and decreased the incidence of bacteremia in ethanol-treated rats when compared with rats not receiving G-CSF. These results demonstrate that G-CSF is a potent immunomodulator that stimulates neutrophil recruitment selectively to the site of infection and that can be used to ameliorate the ethanol-induced impairment in bacterial host defense.
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PMID:Granulocyte colony-stimulating factor prevents ethanol-induced impairment in host defense in septic rats. 750 76


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