Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: DrugBank:BIOD00035 (CSF)
30,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The use of granulocyte stimulating factor (G-CSF) (Neupogen, Amgen Inc., Thousand Oaks, Calif.) has become acceptable for treating both primary and acquired leukopenia. Leukopenia associated with infection is an ominous sign of overwhelming sepsis. In this article, we present two cases of infection that were related to leukopenia which were successfully treated with G-CSF.
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PMID:The effect of granulocyte colony stimulating factor in patients with leukopenia due to sepsis. 750 98

Human recombinant colony-stimulating factors may be used to treat or prevent neutropenia caused by marrow toxic chemotherapeutic agents administered to patients with cancer. Despite their common clinical use, little is known about the potential adverse effects that these cytokines may have on the growth of malignant cells. Indeed, several in vitro reports have indicated that colony-stimulating factors may act as stimulating growth factors in some human malignancies. To evaluate these effects in ovarian cancer, we investigated the possible growth effects of granulocyte colony-stimulating factor (G-CSF/Filgrastim) and granulocyte-macrophage colony-stimulating factors (GM-CSF/Sargramostim) on four established ovarian cancer cell lines, as well as five primary ovarian cancer cultures over a wide range of pharmacologic doses. Cell viability was measured by an ATP bioluminescence assay and expressed as a percentage of untreated control cultures. G-CSF showed no growth-stimulating effects in any of the four established cell lines tested. In the OVCAR-3 cell line, a decrease in growth (> 10%) was seen at 10, 100, and 1000 ng/ml after 5 days of continuous treatment. In the same cell line, GM-CSF caused an increase (> 10%) in growth at the same doses. However, these changes did not demonstrate statistical significance in a dose-dependent fashion. In the five primary cultures treated with G-CSF, only one demonstrated statistically significant increases in growth in a dose-dependent manner. GM-CSF treatment had no significant growth alterations in these same five primary cultures. These results would suggest that colony-stimulating factors may act as growth factors in some but not all ovarian cancer cells. Further investigations into the receptor status of ovarian cancer cells for these cytokines are underway to clarify this issue.
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PMID:In vitro growth effects of colony-stimulating factors in ovarian cancer. 751 21

A 48-year-old man developed refractory anemia with excess of blasts in transformation. Complete response was achieved by low-dose ara-C therapy, but he relapsed 15 months later, with pancytopenia and 13.0% myeloblasts in normocellular marrow. He was treated unsuccessfully with prednisolone, metenolone, and 1-alpha-hydroxyvitamin D3 for 8 weeks. He then developed life-threatening pneumonia and was treated with recombinant human granulocyte colony-stimulating factor (rhG-CSF Filgrastim; 125 micrograms/day s.c.). The pneumonia resolved and, interestingly, he achieved a partial response, with normal blood cell counts and only a few dysmyelopoietic cells in the marrow. However, thrombocytopenia progressed when rhG-CSF administration was tapered. When the dose was increased again, leukemic blasts were found to proliferate. When rhG-CSF was discontinued, blasts rapidly decreased in the peripheral blood. Chromosomal analysis revealed a complex abnormality during the first relapse, a normal 46,XY karyotype during the partial response, and recurrence of the same complex abnormality during leukemic transformation. The stimulation index of marrow mononuclear cells cultured with rhG-CSF increased with disease progression. These findings suggest that rhG-CSF initially stimulated the selective proliferation of normal hemopoietic cells, but the evolution or selection of a leukemic clone responsive to rhG-CSF appears to have occurred subsequently.
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PMID:Sequential promotion of normal and leukemic hemopoiesis by recombinant human granulocyte colony-stimulating factor during the course of myelodysplastic syndrome. 751 33

The clinical usefulness of Recombinant Human Granulocyte Colony Stimulating Factor (rhG-CSF, Filgrastim, GRAN) was evaluated in patients with leukopenia and neutropenia following chemotherapy for non-Hodgkin's lymphoma, lung cancer and breast cancer. During chemotherapy when patients' leukocyte count (WBC) fell below 4.0 x 10(9)/L.rhG-CSF(GRAN) at a dose of 75 micrograms/body.day was given subcutaneously 48 hours after the termination of chemotherapy. The results indicated that rhG-CSF(GRAN) could elevate nadirs of WBC and significantly shortened leukopenic period with WBC below 4.0 x 10(9)/L and expedited the recovery of WBC. rhG-CSF (GRAN)'s side effects were mild.
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PMID:[Clinical study of recombinant human granulocyte colony stimulating factor (rhG-CSF) on leukopenia induced by chemotherapy in cancer patients]. 752 73

In patients with extensive chemotherapy, G-CSF abrogated leukopenia following administration of cytotoxic agents. Six women with ovarian cancer and chemotherapy-induced leukopenia received 300 micrograms Filgrastrim (r-metHuG-CSF, Neupogen 30; AMGEN, Germany) daily for 10 days. Leukocytes and lymphocyte subsets of peripheral blood were determined before, throughout and after subcutaneous injections of G-CSF by flow cytometry using monoclonal antibodies to CD3, CD4, CD8, CD14, CD16/56, CD19 and CD45. It could be observed that not only neutrophils (23 fold) but also lymphocytes (6 fold) and monocytes (10 fold) showed a dramatic increase in cell counts throughout and after G-CSF administration. This is in contrast to previous reports, where only effects on neutrophils were described. In spite of the increase in lymphocytes the relative percentage of CD3+, CD19+, CD3-CD16/CD56+, CD3+, CD8+ and CD3+ CD4+ lymphocyte subsets did not change throughout and after therapy, except for an increased expression of HLA-DR on CD3+ lymphocytes.
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PMID:[Effect of granulocyte colony stimulating factor (G-CSF) on peripheral blood leukocytes and lymphocytes in patients with chemotherapy-induced leukopenia]. 753 60

Autologous bone marrow transplantation, although successful, is limited in the rate of hematopoietic recovery achieved. Myeloablative chemotherapy results in prolonged pancytopenia with standard autologous bone marrow support. High-dose myelosuppressive chemotherapy results in severe but short-term pancytopenia, and hematopoietic recovery is routine without cellular support. Cellular support becomes necessary when multiple-cycle, severely myelosuppressive regimens are used because of the cumulative stem cell damage and unacceptably long duration of severe pancytopenia. Peripheral blood progenitor cells (PBPCs) may be used as cellular support, and colony-stimulating factors with or without chemotherapy are currently the most potent available PBPC-mobilizing tools. Filgrastim (rmethG-CSF) has been shown to enhance the number of PBPCs for harvest in both cancer patients and normal donors. When Filgrastim is used in conjunction with chemotherapy, there appears to be greater PBPC mobilization, which seems to be dependent on dose and schedule of chemotherapy as well as the type of chemotherapeutic agent used. Platelet recovery has been shown to be more rapid when PBPCs are used compared with historical controls given autologous bone marrow infusions. It may be concluded that PBPC transplantation is useful supportive care following myeloablative chemotherapy.
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PMID:Transplantation of mobilized peripheral blood stem cells: role of filgrastim. 753 10

Eighty-eight consecutive patients undergoing bone marrow transplantation (BMT) from July 1985 to June 1993 were retrospectively studied for their bone marrow engraftment characteristics with and without granulocyte colony stimulating factor (R-metHUG-CSF, Filgrastim). Seventy-seven patients (87.5%) achieved engraftment, 55 out of 65 patients (84.6%) without R-metHUG-CSF and 22 out of 23 patients (95.7%) with R-metHUG-CSF (P > 0.1). The mean duration of administration of R-metHUG-CSF was 15.1 days. The mean time to engraftment was significantly reduced by 7.1 days, from 20.5 days to 13.4 days (P < 0.0001). The mean duration of hospitalisation was also significantly reduced by 11.1 days, from 52.6 days to 41.5 days (P < 0.0001). There were no side effects directly attributable to R-metHUG-CSF encountered. We conclude that R-metHUG-CSF is very effective in shortening the duration of neutropenia in the immediate post-BMT period with lesser BMT morbidity, earlier discharge from hospital and lower cost of BMT. We recommend a routine 2-week course beginning on the day after marrow infusion.
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PMID:Granulocyte colony stimulating factor significantly influences neutrophil recovery and duration of hospitalisation in bone marrow transplantation. 753 49

A patient with Felty's syndrome and rheumatoid arthritis was treated with recombinant granulocyte stimulating factor rhG-CSF (Neupogen) in view of severe neutropenia. He had a prompt rise in his neutrophil count and associated with this a severe flare of his arthritis and a skin rash. rhG-CSF was stopped, his neutrophil count fell rapidly and his symptoms resolved. rhG-CSF and the resulting rise in neutrophil count may be associated with flare of autoimmune disease in susceptible individuals.
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PMID:Felty's syndrome treated with rhG-CSF associated with flare of arthritis and skin rash. 754 May 27

This prospective multicenter study examined whether simultaneous administration of granulocyte colony-stimulating factor (G-CSF; Filgrastim) and induction chemotherapy for adult acute lymphoblastic leukemia (ALL) could prevent treatment-related neutropenia, infections, and resulting treatment delays. Seventy-six patients were randomly assigned to receive either G-CSF (n = 37) or no growth factor (n = 39) in conjunction with a uniform chemotherapy consisting of cyclophosphamide, cytarabine, mercaptopurine, intrathecal methotrexate, and cranial irradiation. The median duration of neutropenia (absolute neutrophil count < 1 x 10(9)/L) during chemotherapy was 8 days in patients receiving C-CSF, compared with 12.5 days in the control group (P < .002). A similar reduction from 11.5 to 7 days was observed in patients with T-ALL receiving additional mediastinal irradiation (P = .13). Infections occurred in 43% and 56% of patients in the G-CSF and control arm, respectively (P = .25); the incidence of nonviral infections was reduced by 50%, from 32 episodes in the control arm to 16 episodes in the G-CSF arm. Prolonged interruptions of chemotherapy administration were less frequent, with delays of 2 weeks or more occurring in only 24% of patients receiving G-CSF as opposed to 46% in the control arm (P = .01). Accordingly, chemotherapy was completed significantly earlier with the use of G-CSF (39 v 44 days, P = .008). With a median follow-up of 20 months, the probability of disease-free survival was 0.45 in the G-CSF group and 0.43 in the control group (P = .34). In conclusion, adult ALL patients appear to benefit by the simultaneous administration of G-CSF with induction chemotherapy because of a significant reduction in the duration of neutropenia, a trend to fewer infections, and a more rapid completion of chemotherapy.
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PMID:Concomitant granulocyte colony-stimulating factor and induction chemoradiotherapy in adult acute lymphoblastic leukemia: a randomized phase III trial. 754 60

The clinical use of the biologic response modifiers filgrastim, sargramostim, and regramostim is reviewed. All circulating blood cells are derived from totipotent hematopoietic stem cells. Various biologic response modifiers, including lymphokines and colony-stimulating factors, regulate and activate the lymphoid and myeloid cells of the blood. One of the more important types of blood cell for fighting infection is the neutrophil. Patients with low neutrophil concentrations are at high risk of developing neutropenic fevers and infections. The colony-stimulating factors filgrastim, sargramostim, and regramostim increase the production of circulating neutrophils, and this action is clinically useful in patients undergoing myelosuppressive antineoplastic therapy or bone marrow transplantation and in patients with the acquired immunodeficiency syndrome. Clinical studies of these agents in comparison with antimicrobial prophylaxis or placebo have shown a decreased rate of neutropenic-associated hospitalizations and infections. These agents are also under study for dose intensification of antineoplastics in patients with various solid tumors and for augmenting patient responses to antimicrobial therapy in situations where there is high risk of morbidity and mortality. Sargramostim and regramostim are both granulocyte-macrophage colony-stimulating factors that differ in their degree of glycosylation and source of production, and at high doses they can cause life-threatening adverse effects because they stimulate the production of a broad range of leukocytes. Filgrastim, which stimulates only the production of neutrophils, has been better tolerated, especially at higher doses. Biologic response modifiers hold much promise for improving therapy of certain clinical conditions by decreasing myelosuppressive complications and enhancing responses to other drugs.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Clinical effects of biologic response modifiers. 768 88


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