UMLS:C0002874 - FACTA Search

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Query: UMLS:C0002874 (aplastic anemia)
5,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Megakaryocyte progenitor growth in 42 patients with myeloproliferative disorders (MPD), including 23 essential thrombocythaemia (ET), eight polycythaemia vera (PV), six chronic myelogenous leukaemia (CML) and five primary myelofibrosis (PMF), was studied in vitro using plasma clot assay and serum-free agar culture. Spontaneous megakaryocyte colonies (CFU-MK) were found in 34/40 (80%) blood and 14/18 (77.8%) bone marrow plasma clot cultures, and also observed in 27/35 (77.1%) blood and 10/18 (55.6%) bone marrow serum-free agar cultures. In the blood of 27 patients with MPD (15 ET, four PV, four CML and four PMF) and the bone marrow of 10 patients (five ET, four CML and one PV), spontaneous colony formation was observed in both plasma clot and serum-free agar cultures. However, spontaneous CFU-MK was only found in plasma clot culture, but not in agar culture in two blood (one ET and one CML) and four bone marrow cultures (one ET, two PV, one CML). The colony numbers were greatly increased in the presence of aplastic anaemia serum (AAS) under both conditions. In 17 patients (12 ET, two CML and three PV) with spontaneous megakaryocyte colonies, anti-cytokine antibody neutralizing experiments were carried out in blood cultures. Anti-IL3, anti-IL6 and anti-GM-CSF antibody, alone or in combination, at different concentrations (1, 5 and 10 micrograms/ml), were added into plasma clot or agar cultures without exogenous stimulating growth factors. The results showed that the numbers of spontaneous megakaryocyte colonies were not significantly decreased in the presence of these monoclonal antibodies in the cultures. The data indicated that the megakaryocyte progenitor growth in MPD under in vitro conditions was heterogenous, and independent of exogenous stimulatory factors in most patients and that optimal megakaryocyte colony development in MPD still requires exogenous growth factors. Three possibilities are discussed with regard to the phenomenon that the spontaneous colony formation was not decreased with the addition of anti-IL3, anti-IL6 and anti-GM-CSF antibodies.
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PMID:Spontaneous megakaryocyte colony formation in myeloproliferative disorders is not neutralizable by antibodies against IL3, IL6 and GM-CSF. 799 86

The results of clinical trials suggest that human hematopoietic factors are very usefull in overcoming neutropenia. Particularly, the great clinical benefit after G-CSF, GM-CSF therapy is observed in different types of neutropenia (cyclic, chronic neutropenia) aplastic anaemia, and neutropenias in infection diseases. At present, in acquired immunodeficiency syndrome, GM-CSF and other CSFs are envisioned in a primarily adjunctive role, supporting blood counts during period of myelosuppressive drug therapy.
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PMID:[Use of hematopoietic growth factors in nonmalignant neutropenias in adults]. 806 1

Because GM-CSF possesses burst-promoting activity (BPA) and megakaryocyte colony-stimulating activity (Meg-CSF) as well as stimulating activity on granulocyte-macrophage progenitors, and erythropoietin (Epo) has thrombopoietin-like activity, the combination therapy of GM-CSF and Epo seems to be more effective for stimulating erythropoiesis and thrombocytopoiesis in patients with pancytopenia. For this reason, the combination therapy of recombinant human GM-CSF (rhGM-CSF) and rhEpo was performed in two patients with refractory anemia (RA) and aplastic anemia (AA). Epo-unresponsive anemia was remarkably improved by adding rhGM-CSF to Epo and the effect lasted for 1 1/2 months in a patient with RA, but severe anemia occurred again immediately after the discontinuation of Epo. The neutralizing antibodies against GM-CSF were not demonstrated at the phase when anemia re-progressed in this patient. In a patient with AA, anemia and thrombocytopenia, which were refractory to previous administration of rhGM-CSF, responded to the combined administration of GM-CSF and Epo. Although the effects were maintained for 3 1/2 months, the anemia and thrombocytopenia became worse again after the administration of rhGM-CSF was changed from daily to every other day. These findings suggest the usefulness of combination therapy of GM-CSF and Epo for patients with pancytopenia.
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PMID:Combination therapy with rhGM-CSF and rhEpo for two patients with refractory anemia and aplastic anemia. 824 8

Seventeen patients with aplastic anaemia were treated with recombinant human granulocyte-macrophage colony stimulating factor (rhGM-CSF) for 14 d. Nonresponding patients were then treated with anti-human thymocyte globulin (ATG), methylprednisolone and oxymetholone. Side-effects of rhGM-CSF included fever, nausea and vomiting, diarrhoea, bone pain, headache and chills. Two patients had sustained trilineage haemopoietic recovery after receiving only rhGM-CSF. Of 11 patients who received immunosuppressive therapy, there was one complete response, two partial responses, one minimal response, and seven nonresponses. Actuarial survival at 2 years is 64%. Early administration of rhGM-CSF had no apparent effect on subsequent response to immunosuppressive therapy.
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PMID:Recombinant granulocyte-macrophage colony stimulating factor followed by immunosuppressive therapy for aplastic anaemia. 825 89

A 29-year-old male patient presented with acute liver failure from non-A, non-B and non-C hepatitis, necessitating orthotopic liver transplantation. After operation he developed progressive pancytopenia on the basis of aplastic anemia, which was probably hepatitis associated. After therapy with GM-CSF had failed, he underwent allogeneic BMT from his HLA genotypically identical brother following a conditioning regimen of CY 50 mg/kg x 4 and 500 cGy total lymphoid irradiation. He engrafted promptly but transfusion dependency did not resolve until CMV viremia was treated with ganciclovir. The patient is alive and well 2 years after BMT.
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PMID:Successful allogeneic bone marrow transplantation in an adult with aplastic anemia following orthotopic liver transplantation for non-A, non-B, non-C hepatitis. 827 44

We administered granulocyte-macrophage colony stimulating factor (GM-CSF) to patients with aplastic anemia and myelodysplastic syndrome (MDS), as a phase III trial. The GM-CSF was given by 3 hrs intravenous drip infusion daily for at least fourteen days. Twenty-five patients with aplastic anemia and nineteen patients with MDS were evaluable for efficacy. Peripheral blood granulocyte counts, especially neutrophil counts and eosinophil counts, increased markedly by the administration of GM-CSF in each disease. Fifteen patients with MDS and nineteen patients with aplastic anemia responded to the GM-CSF. Dose-related increase of granulocytes were seen in patients with MDS, but no relation was seen in patients with aplastic anemia. Adverse effects were observed in some patients and flu-like syndrome including fever, general fatigue and anorexia were seen most commonly but were transient. Our results showed that GM-CSF is a potent stimulator of hematopoiesis in patients with aplastic anemia and MDS.
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PMID:[Clinical study of GM-CSF in patients with aplastic anemia and myelodysplastic syndrome. (CSF39-300 Study Group)]. 829 27

Recent progress of molecular biology and gene technology has developed a novel approach of clinical treatment. Several recombinant cytokines are already applied to clinical field. In this symposium, I introduced clinical application of some cytokines including GM-CSF, interleukin (IL)-1 and IL-3. The clinical benefits of IL-1 are; 1) IL-1 has an anti-tumor effect especially on cutaneous lymphoma and brain tumors, and 2) IL-1 has a function as hematopoietic growth factor for very immature hematopoietic stem cells. In the clinical Phase I/II study, IL-1 has been shown to have anti-tumor effect on cutaneous T-lymphoma via immune mechanisms. The side effects of IL-1 were variable including fever, fatigue, skin redness and so on, but they were all tolerable. The clinical phase studies of GM-CSF and IL-3 are now on going. The preliminary studies show that GM-CSF has granulo-poietic activity but not thrombo-poietic activity, and that IL-3 has multi-hematopoietic activity. These cytokines may be useful for treatment of disorders of hematopoietic stem cells such as aplastic anemia and myelodysplastic syndrome. The side effects of both cytokines are resemble, but all are tolerable.
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PMID:[Clinical application of new cytokines]. 835 Apr 99

The regulation of megakaryocytopoiesis and platelet production has not yet been clearly elucidated. Several cytokines have been shown to be capable of producing megakaryocyte colonies from bone marrow [i.e. Interleukin (IL)-3, granulocyte-macrophage (GM)-colony-stimulating factor (CSF), erythropoietin (Epo)]. In addition, other activities have been reported to stimulate megakaryocyte precursors, yet a megakaryocyte-CSF (Meg-CSF) has not been purified to homogeneity and IL-3, GM-CSF and/or Epo often contaminate purification attempts which could account for the activities. A Meg-CSF has been isolated from the urine of patients with aplastic anaemia and purified by sequential ultrafiltration, cation exchange, G-50 chromatography, preparative PAGE, chromatofocusing and cation exchange HPLC. The activity of this material is 2-4 x 10(4) CFU-Meg/mg as measured in a murine marrow, serum-containing assay. This activity also stimulates CFU-Meg in the absence of adherent accessory cells and in serum-free cultures, indicative of the direct stimulation on CFU-Meg. Immunoassays, colony forming assays, and proliferation assays demonstrate that purified Meg-CSF has no GM-CSF, IL-3, M-CSF, G-CSF or IL-1 alpha, -3, -6, -9 and -11. In confirmation of these results, neutralizing antibody to IL-6 also did not abrogate Meg-CSF activity. Therefore the previously-reported megakaryocyte colony-stimulating activity in purified aplastic anaemia patient urine is due to a unique cytokine: Meg-CSF.
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PMID:Megakaryocyte colony-stimulating factor (Meg-CSF) is a unique cytokine specific for the megakaryocyte lineage. 839 18

GM-CSF has been used successfully in autologous BMTs, and more recently in patients undergoing allogeneic BMT, for acute or chronic leukemia. We report two patients with hepatitis-related aplastic anemia who received recombinant human GM-CSF following HLA-identical sibling allogeneic BMTs. Both patients were conditioned with CY 200 mg/kg given over 4 days and received GM-CSF at 250 micrograms/m2 beginning 6 h after marrow infusion and continuing daily until the absolute neutrophil count was > 1.0 x 10(9)/l for 2 days. Both patients had prompt engraftment, achieving an absolute neutrophil count of > 0.5 x 10(9)/l on day 13. Neither patient had side-effects attributable to the GM-CSF although one patient developed severe acute GVHD after the cessation of GM-CSF therapy. Our experience suggests that GM-CSF can be safely used in aplastic anemia patients undergoing BMT and that GM-CSF may be useful to decrease the incidence of graft failure associated with less intensive conditioning regimens.
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PMID:Use of recombinant GM-CSF following allogeneic BMTs for aplastic anemia. 840 68

A 37-year-old woman with severe aplastic anemia (SAA), who had relapsed 6 years after antilymphocyte globulin therapy, was treated with intravenous recombinant human IL-3 (4 micrograms/kg/d) for 21 days. Subsequently, long-term therapy with subcutaneous rhIL-3 at the highest dose level tested so far (16 micrograms/kg/d) was initiated in order to maintain growth-factor response. Therapy was discontinued on day 73 due to progressive thrombocytopenia and increased petechial bleeding. Both treatment schedules resulted in a transient increase in leukocytes (twofold) due to an increase in monocytes, neutrophils, and eosinophils. RhIL-3 had no effect on hemoglobin values or platelet counts and only marginally improved colony formation of bone marrow CFU-GM in response to rhGM-CSF. Side effects of both treatment schedules were mild and did not exceed WHO grade II. Steady-state serum concentrations of IL-3, which are able to stimulate hematopoiesis in vitro (i.e. > 1 ng/ml), were achieved by both low- and high-dose treatment, although high-dose treatment resulted in markedly higher serum levels of IL-3. On measuring cytokine serum levels (neopterin, IL-1 beta, IL-6, sIL-2R, GM-CSF, TNF-alpha, IFN-gamma) we noticed a different cytokine pattern with both treatment modalities, resulting in a moderate induction of TNF-alpha and IFN-gamma during low-dose, intravenous treatment, whereas during subcutaneous, high-dose treatment a profound increase of IL-6, sIL-2R, and, to a lesser extent, neopterin was detected. These results in a single patient with SAA indicate that further studies on IL-3 serum levels and IL-3-induced secondary cytokines in a larger group of patients are needed to optimize growth-factor treatment and to better understand the in vivo biological activity of IL-3.
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PMID:Cytokine serum levels during treatment with high-dose recombinant human IL-3 in a patient with severe aplastic anemia. 844 42

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