DrugBank:BIOD00035 - FACTA Search

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

In a phase II study, 21 patients with MDS (RAEB, RAEBt, CMML and RA and RAS with severe cytopenia) were randomized to be treated with 3 courses of GM-CSF (3 micrograms/kg/day s.c.) alone (11 patients) or in combination with AraC (20 mg/m2/d s.c.) (10 patients) for 14-d periods, interrupted by 14-d rest periods. Eight patients discontinued the treatment. In the GM-CSF group a marked increase in WBC and neutrophil counts during each course of treatment administration were seen in most patients. Platelet counts decreased in 14 of 24 courses of treatment in the GM-CSF plus AraC group but in none of the GM-CSF group. Although the changes in the circulating blood cells were transient and the counts tended to return to the pretreatment levels during the rest periods, some more durable effects were seen. In 3/6 patients of the GM-CSF group who completed the designed treatment, both WBC and neutrophils remained elevated above the pretreatment levels throughout the 3-month period of treatment, while in one of them thrombocytopenia improved considerably. In the GM-CSF plus AraC group, 4 out of the 7 patients who completed the treatment showed an improvement of neutropenia as well as anaemia. In these 4 patients the BM percentage of blasts was also decreased. In conclusion, the results of this study indicate that GM-CSF given intermittently improves leukopenia in some patients with MDS. In addition, the administration of GM-CSF seems to prevent granulocytopenia of concurrent AraC treatment and may be of benefit in the treatment of these diseases.
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PMID:Treatment of myelodysplastic syndromes with human granulocytic-macrophage colony stimulating factor (GM-CSF) or GM-CSF combined with low-dose cytosine arabinoside. 144 28

We present a patient with refractory anemia (RA) who developed Sweet's syndrome during the treatment of recombinant human granulocyte colony-stimulating factor (rhG-CSF). A 30-year-old man was admitted to the hospital for evaluation of anemia. He was diagnosed as MDS (RA). As a phase II study in MDS, rhG-CSF therapy was begun. Fever associated with cutaneous lesion developed over the left shoulder. Antibiotics showed no effects. Skin biopsy revealed Sweet's syndrome. This skin lesion disappeared thoroughly with discontinuance of G-CSF and administration of prednisolone. To examine whether Sweet's syndrome was related to the G-CSF therapy, we analyzed the effect of G-CSF on the function of patient's neutrophils. However, the function of patient's neutrophils was not activated by G-CSF administration.
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PMID:[Sweet's syndrome in patient with refractory anemia during recombinant human granulocyte colony stimulating factor therapy]. 169 95

We have conducted several phase I/II clinical studies in a total of 65 MDS patients utilizing recombinant human hematopoietic growth factors including GM-CSF, IL-3, and EPO. Twenty-seven patients with MDS were treated with either continuous i.v. infusion or single daily s.c. injection of rhGM-CSF at dosages from 15 micrograms/m2 to 1000 micrograms/m2. All of them exhibited white cell responses during the treatment cycles, but no sustained rise in reticulocytes or platelets was recorded. In four of the patients, all with > or = 15% blast cells in the bone marrow, the percentage of circulating blast cells increased during treatment with rhGM-CSF (at dosages of 500 micrograms/m2 and 1000 micrograms/m2, respectively), although no leukemic conversion occurred. Of 9 patients treated so far with rhIL-3 at single daily s.c. dosages of 60 micrograms/m2, all exhibited white cell responses; 8 exhibited significant improved platelet and reticulocyte counts. Nineteen further patients received rhEPO for a period of 14 weeks by s.c. (10,000 U five times weekly) or i.v. bolus administration (150-450 U/kg). None of these patients experienced an increase in white cell and platelet counts. A significant increase of the reticulocyte count was recorded in 3 patients only. Another strategy involves the recruitment of leukemic cells into the cell cycle by hematopoietic growth factors followed by treatment with cycle-specific cytostatic agents. Therefore in 10 patients administration of rhGM-CSF (250 g/m2/day x 14, s.c.) was combined with Ara-C treatment (20 mg/m2/day x 14; s.c.). Initial results of this pilot study available in 5 patients indicated that this approach may control leukemic cell proliferation and may increase number of mature myeloid cells in both bone marrow and peripheral blood. A similar approach utilizing rhIL-3 in conjunction with Ara-C is on-going.
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PMID:Clinical use of recombinant human hematopoietic growth factors (GM-CSF, IL-3, EPO) in patients with myelodysplastic syndrome. 184 32

The influence of GM-CSF on bone marrow cultures from 13 patients with aplastic anemia, MDS and acute leukemia was studied in a short-term suspension culture system. In each case combined cytogenetic and proliferation analyses were performed with respect to the question, whether chromosome aberrations play a role in the in vitro response to GM-CSF and in order to search for stimulating effects on malignant cells. The responsiveness was compared of aplastic and myelodysplastic cultures on the one hand and of leukemic cells on the other. Our results show that myelodysplastic and aplastic cells display a tendency for reduced susceptibility to GM-CSF as compared to healthy controls, while in leukemic bone marrow the response to the growth factor was significantly enhanced, indicating a leukemia-specific response pattern. In the majority of leukemias analyzed, the presence of cytogenetically abnormal cells in cultures with excessive response to GM-CSF can be taken as a proof for stimulation of malignant cells. The significance of these findings for pathogenesis and prognosis in aplastic anemia, myelodysplasia and leukemia is discussed.
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PMID:Karyotype and in vitro-response to GM-CSF. Analysis of bone marrow cultures in leukemia, myelodysplasia and aplastic anemia. 218 May

We have examined the efficacy of various drugs in 44 patients with MDS and found the different effectiveness which depends on the type of MDS. Namely, RA appears to respond to steroid hormone, androgen, and/or vitamin D3, regardless of single or combined use. In particular, it is obvious in androgen, and as our previous reports, high content of acidic ferritin in RBC with RA have changed to more basic ones by treatment with androgen. On the contrary, these drugs were not effective on RAEB, RAEB-T, and CMML. A long-term observation is needed to determine whether the prolonged or decreased occurrence of leukemia could be obtained in the effective cases with RA. Most of the cases who did not develop overt leukemia during this study died of bleeding or infections due to thrombocytopenia or leukocytopenia, thus indicating that supportive therapies are important in patients with MDS. Since it has recently been reported that recombinant G-CSF or GM-CSF is helpful to increase the number of leucocyte and to enhance their functional recovery in MDS, these factors may be powerful agents against infections when they are carefully used with regard to the activation of leukemic clones.
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PMID:[Therapy of the preleukemic state: effect of androgens on refractory anemia]. 283 1

Stem cell factor (SCF), the ligand of the c-kit receptor, is a potent enhancing cytokine for haematopoietic cells in the presence of IL-3, GM-CSF and erythropoietin (Epo). In the clonogenic assays of 63 MDS patients, the addition of rh-SCF + GM-CSF and/or IL-3 induced a significant increase (p < 0.001) in the number and size of CFU-GM. Never reaching the levels of controls, this increase was seen in all FAB subtypes, but particularly in RA. There was no significant increase in cluster formation, even in RAEB or RAEBt. Rh-SCF (10 ng/ml) led to mean increases of up to 26 times in the number of Epo-dependent BFU-E colonies, particularly in RA (p < 0.001) and RAEB (p < 0.05). Individual responses varied widely (especially in RA) from no response to supranormal levels. Added to the weekly refeed of 37 MDS LTBMC, SCF (10 ng/ml) induced only a 7% mean increase in both cell output and the number of clonogenic cells recovered in the supernatant. Immunohistochemical examination of the supernatant showed significant increases in differentiating myeloid cells in all examined cases, and in erythroid cells in 3 cases; blast cells increased in only 3 cases. These data suggest that rh-SCF is capable of at least partially reversing defective MDS myeloid haematopoiesis, and leads no overt risk of leukaemic transformation. Its potent effect on erythroid cells is encouraging for future clinical applications in patients, particularly if they are selected by means of in vitro tests.
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PMID:Effects of recombinant human stem cell factor (rh-SCF) on colony formation and long-term bone marrow cultures (LTBMC) in patients with myelodysplastic syndromes. 750 65

Administration of G- and GM-CSF increases the neutrophil counts in a number of clinical situations. GM-CSF shows the additional effect of increasing the number of monocytes and eosinophil granulocytes. Both G- and GM-CSF affect of neutrophil functions, in the case of GM-CSF there are some potentially negative effects on neutrophil migration and adhesiveness. The clinical relevance of the various effects on mature haematopoietic cells is not fully understood. Clinical data with G-CSF treatment indicate that increased levels of neutrophil granulocytes following cytotoxic chemotherapy may translate into clinical benefit such as a decreased rate of neutropenic infection and an increased cytotoxic chemotherapy dose even though the data are conflicting and the risk of "laboratory cosmetics" is apparent. Regarding treatment with GM-CSF following chemotherapy, the clinical benefit is unclear. The clinical benefit of GM-CSF-induced monocytes and eosinophils is unknown. G- and GM-CSF accelerates neutrophil recovery following autologous or allogeneic BMT. The influence on neutropenic infections is, however, less impressive. Pretreatment with G- or GM-CSF increases the yield of peripheral stem cell harvest, thereby reducing the number of leukaphereses needed. Transplantation of G- and GM-CSF primed autologous peripheral stem cells tends to reduce the period of post-transplant cytopenia, particularly thrombocytopenia, in comparison with traditional ABMT. In patients with MDS, G- and GM-CSF appear to increase the number of neutrophil granulocytes and there is some evidence that patients with severe infectious problems will benefit from this treatment. However, little influence was seen on the main clinical problems with these patients, which are anaemia and thrombocytopenia. In conclusion, G- and GM-CSF are two different proteins with different properties in vivo and in vitro. GM-CSF has, compared with G-CSF, more complex pharmacological effects and a more trouble-some side-effect profile. Early clinical development indicates that both compounds have a substantial influence on the levels of certain blood cells. Whether the increases in different blood cells translate into long-term clinical benefit for greater patient groups is the focus of ongoing research. The effects of G- and GM-CSF may be potentiated by other cytokines, an area which is presently being explored.
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PMID:G- and GM-CSF in oncology and oncological haematology. 751 79

Congenital neutropenias include a heterogenous group of diseases characterized by a decrease in circulating neutrophils. In phase I/II/III studies in patients with severe congenital and cyclic neutropenia, treatment with recombinant human granulocyte colony-stimulating factor (r-metHuG-CSF) resulted in a rise in the absolute neutrophil counts (ANC) and a reduction in infections. We report the effects of long-term safety of subcutaneous r-metHuG-CSF administration in 54 patients (congenital n = 44. cyclic n = 10) treated for 4-6 years. A sustained ANC response was seen in 40/44 severe congenital neutropenia patients and 10/10 cyclic neutropenia patients. Two patients required an increase of > 25% in dose to maintain a clinical response; one patient became refractory to therapy. A significant decrease in the incidence of severe infections and the need for intravenous antibiotics was noted. Significant adverse events noted which may or may not be related to therapy included: osteopenia (n = 15), splenomegaly (n = 12), hypersplenism (n = 1), vasculitis (n = 2), glomerulonephritis (n = 1), BM fibrosis (n = 2), MDS/leukaemia (n = 3), and transient inverted chromosome 5q with excess blasts (n = 1). R-metHuG-CSF has been well tolerated in the majority of patients and resulted in a long-term improvement in their clinical status.
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PMID:Long-term safety of treatment with recombinant human granulocyte colony-stimulating factor (r-metHuG-CSF) in patients with severe congenital neutropenias. 1093 Oct 6

A 70-year-old man was admitted to our hospital with pancytopenia. He was diagnosed as having MDS (RA), and therapy with subcutaneous S-CSF (100 micrograms/day) was started. His leukocyte count increased from 800/microliters to 1,400/microliters in two weeks. The dose of G-CSF was raised to 200 micrograms/day in the third week, and leukocytes increased to 2,00/microliters. At the fifth week, intravenous EPO (6,000 U x 3 times/week) was added. His leukocyte count increased to 4,000/microliters. EPO therapy was raised to 12,000 U x 3 times/week at the eighth week, his leukocyte count remained at the same level. G-CSF and EPO was stopped at the eleventh week, and leukocytes decreased to the same level as before administration. Throughout the course, his platelet count and reticulocyte count did not change. G-CSF and EPO are known as the stimulators of granuriod and erythroid progenitor, respectively. However, in this case, combination therapy with G-CSF and EPO induced marked increase of granulocytes only. This was an interesting case in relation to the roles of these cytokines in the hematopoietic system.
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PMID:[Combination therapy with granulocyte colony-stimulating factor (G-CSF) and erythropoietin (EPO) induced prominent granulocyte increase in an elderly case of myelodysplastic syndrome (MDS)]. 768 8

Severe congenital neutropenia is a disorder of myelopoiesis characterized by severe neutropenia secondary to either a maturational arrest of myelopoiesis at the level of promyelocytes (Kostmann-Syndrome; SCN) or regular cyclic fluctuations in the number of blood neutrophils with a median ANC below 500/microliter (cyclic neutropenia). We have treated 32 patients with SCN and 4 patients with cyclic neutropenia. Thirty of 32 patients with SCN and all 4 patients with SCN responded to r-met HuG-CSF treatment with an increase of the median ANC to above 1000/microliter. The doses needed to achieve and maintain the response varied between 0.8 and 120 micrograms/kg/d. Long-term treatment did not exhaust the myelopoiesis: The mean ANC remained stable up to 5 years of treatment. The increase in ANC was associated with dramatic clinical responses: significant reduction of severe bacterial infections, reduction of intravenous antibiotic treatment episodes, and reduction of hospitalizations. No severe bacterial infections occurred in any of the r-met HuG-CSF responders during long-term treatment. Severe adverse event, most likely associated with the underlying disease, included the development of MDS/Leukemia in two patients, and osteopenia/osteoporosis in 12 patients. These results demonstrate the beneficial effects of r-met HuG-CSF treatment in severe congenital neutropenia patients.
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PMID:[Long-term treatment with recombinant human granulocyte colony stimulating factor in patients with severe congenital neutropenia]. 769 Aug 65

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