UMLS:C0027947 - FACTA Search

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Query: UMLS:C0027947 (neutropenia)
17,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Frequent complications of human immunodeficiency virus infection are hematopoietic failure and poor tolerance of myelosuppressive drugs. Reasons for neutropenia resulting from hematopoietic failure are infection of the bone marrow and hematotoxicity of treatment with zidovudine, ganciclovir, sulfonamides, and interferons. Moreover, tumor necrosis factor-alpha, transforming growth factor-beta and interferon-gamma have been shown to suppress proliferation of bone marrow cells. Both granulocyte (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) increase neutrophil counts and ameliorate phagocytic and bactericidic function of neutrophils. We report eight cases of AIDS patients with serious infections and neutropenia (< 750 cells/microliters), who were treated concomitantly with recombinant human G-CSF (3-4 micrograms subcutaneously per kilogram body weight daily). G-CSF treatment was well tolerated in all patients and showed no side effects or disturbances of other lineages than neutrophils. Life-threatening bacterial infections were treated successfully by stimulating the neutrophil immune system. This therapy shortened the duration of subsequent treatment with antibiotics. Since human immunodeficiency virus infects CD4-positive monocytes and macrophages, which are stimulated by GM-CSF, G-CSF seems to be the cytokine of choice, if stimulation of the neutrophil lineage is warranted.
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PMID:Granulocyte colony-stimulating factor treatment in AIDS patients. 128 Apr 96

Candida albicans (CA) increasingly causes septic shock, acute lung injury, and multiple organ damage during immunosuppression-related neutropenia. However, the effects of neutrophil (PMN) depletion on induction of tumor necrosis factor-alpha (TNF) by CA and its potential mediation of Candida septic shock are unknown. We hypothesized that reduced CA uptake by circulating PMNs during cyclophosphamide (CY)-related neutropenia sensitizes to TNF-mediated shock from enhanced cytokine production after phagocytosis by tissue macrophages. Absolute or relative neutropenia (PMNs < or = 500/microliters or 2,500/microliters) was modeled in rats by intraperitoneal CY 4-8 days before 10(9) yeast-phase CA (acute studies < or = 24 h, n = 81 animals) or 10(6) CA (subacute studies < or = 72 h, n = 25). Compared with neutrophil-sufficient rats, absolute neutropenia accelerated hemodynamic collapse and respiratory distress after 10(9) CA, and pulmonary microvascular permeability was amplified. These changes evolved without increased candidemia or elevations in bioactive or antigenic serum TNF, which remained low even at death (42.3 +/- 14.8 U/ml vs. 12.6 +/- 2.9 U/ml for CY + saline, means +/- SE, P = NS). In contrast, significant TNF in lung tissue and bronchoalveolar lavage fluid (BALF) was evident within 6 h in CY + 10(9) CA rats. Electron microscopy confirmed hyphal proliferation into alveoli from yeast within mononuclear cells in lung capillaries. Subacute disseminated candidiasis after 10(6) CA was not associated with elevated serum, lung, or BALF TNF. We conclude that differential systemic and intrapulmonary TNF production occur in CA septic shock during preexisting neutropenia, with compartmentalized TNF production in the lower respiratory tract accompanying yeast-mycelial transformation. Thus TNF is not an obligate mediator of acute candidemic shock or subacute disseminated candidiasis during CY-induced immunosuppression but may initiate pulmonary injury accompanying high-grade candidemia.
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PMID:Differential systemic and intrapulmonary TNF-alpha production in Candida sepsis during immunosuppression. 144 56

In conclusion, hematopoietic growth factors have been shown to enhance the recovery and function of circulating WBCs after standard-dose cancer therapy or high-dose cancer therapy with ABMT, and preliminary data strongly suggests that these agents may have the ability to restore leukocyte numbers and competence in AIDS, myelodysplastic syndromes, and other marrow failure states. Phase I and II trials of GM-CSF in patients with AIDS, cancer, marrow failure states, and following bone marrow transplantation have been published, and limited phase III randomized trial experiences have been reported as well. Overall, GM-CSF represents a fascinating molecule with which to modulate human hematopoiesis in vivo. The multilineage stimulatory effects of GM-CSF that are evident in vitro have not been striking or consistent in clinical trials. However, the effects of GM-CSF on the production and function of mature neutrophils, monocytes, and eosinophils have been noted in the vast majority of clinical scenarios in which this cytokine has been tested. The clinical benefits of GM-CSF have, to date, only been proven in large-scale randomized studies of recovery from ABMT for lymphoid neoplasms. However, further data regarding the use of GM-CSF in other clinical settings have been generated, and the final results are eagerly anticipated by the oncology community. The beneficial effects of GM-CSF following ABMT consisted not only of a shorter period of absolute neutropenia, but also fewer significant infections, a diminished requirement for intravenous antibiotic administration, and a shorter overall duration of inpatient hospitalization. The use of GM-CSF in clonal disorders of hematopoiesis, such as myelodysplasia or myeloid leukemias, requires caution before such applications can be routinely recommended, and the demonstration of safety in this setting from large randomized trials will be needed. Preliminary data from small randomized trials suggests that the incidence of evolution to leukemia in patients with myelodysplasia and the number of patients with regrowth of leukemia after induction treatment in relapsed patients with AML may not be significantly different than in patients who do not receive GM-CSF. Various neutropenic conditions (eg, idiopathic or congenital) may respond clinically to hematopoietic growth factors such as GM-CSF. Patients treated for 3 to 15 months continue to respond with significantly increased granulocytes and resolution of prior infection. The subcutaneous route of administration is convenient and patients seem to accept it readily. It is difficult to determine the extent to which adjunctive therapy with GM-CSF will be cost effective.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Granulocyte-macrophage colony-stimulating factor (GM-CSF): preclinical and clinical investigations. 150 75

Neutropenia is a major cause of chemotherapy-induced morbidity. This study examines the effect of ImuVert on the course of neutropenia from Cytoxan and Adriamycin. In adult rats treated with either Cytoxan or Adriamycin and ImuVert, the absolute neutrophil count remained above 7,000 and 2,000, respectively, for the duration of ImuVert therapy. In contrast, in the control Cytoxan group the absolute neutrophil count reached 300/mm3 on day 5 and remained below 1,000 from day 4 through day 7. In the Adriamycin control group, the nadir absolute neutrophil count reached 600/mm3 on day 7 and remained below 100 from day 6 through day 8. C3H/EJ mice (endotoxin-hyporesponsive) treated with Cytoxan developed an absolute neutrophil count below 1,000 from day 4 through day 7. In contrast, in the group concomitantly treated with ImuVert, the nadir absolute neutrophil count remained below 1,000 only on days 4 and 5. The authors conclude that stimulation of endogenous cytokine production by ImuVert may provide a potentially useful approach to bone marrow rescue from chemotherapy.
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PMID:Protection from chemotherapy-induced neutropenia by ImuVert. 153 14

The short biologic half-life of the peripheral neutrophil (PMN) requires an active granulopoietic response to replenish functional PMNs and to maintain a competent host defence in irradiated animals. Recombinant human G-CSF (rhG-CSF) was studied for its ability to modulate haemopoiesis in normal dogs as well as to decrease therapeutically the severity and duration of neutropenia in sublethally and lethally irradiated dogs. For the normal dog, subcutaneous administration of rhG-CSF induced neutrophilia within hours after the first injection; total PMNs continued to increase (with plateau phases) to mean peak values of 1000 per cent of baseline at the end of the treatment period (12-14 days). Bone-marrow-derived granulocyte-macrophage colony-forming cells (GM-CFC) increased significantly during treatment. For a sublethal 200 cGy dose, treatment with rhG-CSF for 14 consecutive days decreased the severity and shortened the duration of neutropenia and thrombocytopenia. The radiation-induced lethality of 60 per cent after a dose of 350 cGy was associated with marrow-derived GM-CFC survival of 1 per cent. Treatment with rhG-CSF markedly reduced the lethality associated with exposure to 350 cGy of radiation to zero. White blood cell (WBC) and platelet recovery kinetics were correlated with degree of marrow damage. The rhG-CSF reduced the severity and duration of neutropenia. Control animals required antibiotic therapy (WBC less than 1000 mm3) for a total of 16 days versus 3 days for rhG-CSF-treated dogs. The duration of thrombocytopenia was reduced, although the severity of depletion was unchanged with treatment. These data indicate that in the lethally irradiated dog, effective cytokine therapy with rhG-CSF will increase survival through the induction of earlier recovery of neutrophils and platelets.
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PMID:Therapeutic use of recombinant human G-CSF (rhG-CSF) in a canine model of sublethal and lethal whole-body irradiation. 169 Dec 55

Leukopenia or pancytopenia as a result of bone marrow dysfunction are manifestations of various diseases or complications of therapeutic regimens. The spectrum of diseases associated with leukopenia is wide and includes congenital as well as acquired neutropenias secondary to conditions such as myelodysplastic syndromes, AIDS, malignant tumors with or without chemotherapy-enhanced neutropenia, bone marrow transplantation or therapeutic or accidental radiation. The morbidity and mortality of infectious diseases is greatly enhanced during neutropenic phases. Over the last few years attempts have been made to shorten the duration and lessen the severity of neutropenia in patients with the above conditions by administration of Granulocyte Macrophage Colony Stimulating Factor (G-CSF). Both cytokines were successfully tested in phase I and II trials. Treatment with GM-CSF or G-CSF results in a dose-dependent increase of the neutrophil count. GM-CSF also increases the number of eosinophils and monocytes in peripheral blood. The effect of both cytokines on the neutrophil count is transient as long as the underlying disease persists. This prompted the institution of maintenance therapy, which has been successfully used with either cytokine. Long-term treatment is usually well tolerated and results in a reduction in the frequency of infections as well as in the duration of antibiotic treatments. Side effects of GM-CSF or G-CSF are usually mild and include fever, myalgia, bone pain, and erythema. A number of patients developed dyspnea, hypotension, sweating, flushing and erythema after the first dose of GM-CSF in each treatment cycle. This first-dose reaction occurs more frequently after intravenous than reactions were reported with G-CSF. Some patients with myelodysplastic syndrome progressed to acute myeloic leukemia during or after treatment with GM-CSF or G-CSF. Most of these patients presented with an increased fraction of blasts in the bone marrow, which preceded the treatment with the colony stimulating factors. Since GM-CSF and possibly G-CSF may increase the risk of developing acute leukemia in patients with myelodysplastic syndrome, it appears prudent to limit the use of these cytokines in patients with this disease. The subcutaneous route of administration appears to be preferable to intravenous administration, since the incidence and severity of side effects are reduced. While many questions concerning dosage, long-term therapy and combination therapy still remain unanswered, the information presented in this review concerning the clinical use of these cytokines warrants an optimistic outlook.
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PMID:[GM-CSF and G-CSF: cytokines in clinical application]. 170 94

Granulocyte colony-stimulating factor (G-CSF) is a glycoprotein of Mr of about 20,000, which stimulates proliferation and differentiation of progenitor cells of neutrophils. Recent clinical application of G-CSF has proven that this hormone is effective in treatment of patients suffering from neutropenia. In the last few years, the biochemical and molecular nature of the G-CSF receptor has been characterized. The G-CSF receptor is a glycoprotein of Mr 100-130,000, and is expressed on the cell surface of various myeloid cells. A homodimer of this polypeptide can bind G-CSF with a high affinity, and transduce G-CSF-triggered growth signals into cells. Its extracellular domain contains a sequence of about 200 amino acids which can be found in various cytokine receptors. In addition, it contains an immunoglobulin-like domain and three fibronectin type III domains. The overall structure of the beta-chain (gp130) of the interleukin 6 receptor was found to be very similar to that of the G-CSF receptor.
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PMID:Granulocyte colony-stimulating factor and its receptor. 172 14

Recombinant granulocyte colony-stimulating factor (rG-CSF) primed the ability of human neutrophils to generate increased levels of reactive oxidants in response to fMet-Leu-Phe, and also resulted in an increased rate of protein biosynthesis which was similar to that induced by granulocyte-macrophage colony-stimulating factor. However, rG-CSF reduced the chemotactic activity of neutrophils in response to endotoxin and did not result in an enhanced rate of killing of Staphylococcus aureus. rG-CSF was administered to patients after high dose chemotherapy and autologous bone marrow transplantation for the treatment of either Hodgkin's disease or multiple myeloma. This cytokine decreased the period of neutropenia following such treatment. Neutrophil function in two patients, measured seven days after the final administration of rG-CSF, was severely impaired as indicated by a greatly decreased ability to generate reactive oxidants. However, seven days later (i.e. 14 days post-therapy), the functional activity of the neutrophils from these patients had returned to normal. These data indicate that assays of neutrophil function together with morphological assessment of neutrophil numbers and maturity should be performed in order to evaluate the immune status of patients undergoing such therapy.
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PMID:Effects of recombinant human granulocyte colony-stimulating factor on neutrophil function in vitro and in vivo following chemotherapy and autologous bone marrow transplantation. 172 83

Relapse continues to be a problem after bone marrow transplantation (BMT) for hematologic malignancies, particularly in recipients of autologous or T-cell-depleted allogeneic grafts and in patients with advanced disease. Interferon (IFN) has shown antiproliferative activity in several malignant hematologic diseases and potentially may be of benefit when administered early after BMT when the number of residual cells is minimal. We tested in a phase I study the maximum tolerated daily dose of recombinant IFN alpha-2b in patients who had received a transplant for a disease at high risk for relapse (acute myeloid leukemia or non-Hodgkin's lymphoma beyond first remission, advanced myelodysplastic syndrome, acute lymphoblastic leukemia at any stage, chronic myeloid leukemia in accelerated or blast phase. Recombinant IFN alpha-2b was started at a dose of 0.5 x 10(6) IU/m2 and escalated by 0.5 x 10(6) IU/m2 in groups of three or four patients. The intention was to administer IFN as soon as stable engraftment after BMT was achieved (defined as an absolute neutrophil count of greater than 2.0 x 10(9)/L and platelet count greater than 100 x 10(9)/L for 5 consecutive days) and continued for 2 months. A total of 14 patients were enrolled after autologous (n = 3) or allogeneic (n = 11) BMT. Dose-limiting toxicity was myelosuppression. Significant (grade 2 to 4) neutropenia and thrombocytopenia led to discontinuation or dose reduction in five of eight patients receiving 1.5 x 10(6) or 2 x 10(6) IU/m2 IFN. Mild to moderate (grade 1 or 2) anorexia, weight loss, and fatigue occurred in the majority of patients independent of the IFN dose. De novo acute GVHD responsive to steroid treatment developed in 3 of 11 allograft recipients. Natural killer (NK) cell function was low before IFN treatment and was not improved with the cytokine. Conversely, interleukin-2-activated NK cells showed normal function even before starting IFN and no change was seen during IFN treatment. Clonogenic hematopoietic progenitor studies showed depression of all progenitor lines (colony-forming unit [CFU]-granulocyte, erythroid, monocyte, megakaryocyte, CFU granulocyte-macrophage, burst-forming unit-erythroid) by IFN at all dose levels except at 0.5 x 10(6) IU/m2. Considering this result and the incidence and severity of marrow depression seen at doses greater than 1.0 x 10(6) IU/m2, we would consider this the maximum dose safely tolerated if IFN alpha-2b is administered in this setting for a prolonged course on a daily basis.
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PMID:Treatment with recombinant interferon (alpha-2b) early after bone marrow transplantation in patients at high risk for relapse [corrected]. 174 91

Granulocyte/Macrophage Colony Stimulating Factor (GM-CSF) stimulates the production as well as the function of myeloid cells, i.e. granulocytes and macrophages. Proliferative effects are exerted on the level of the multipotent as well as the unipotent progenitor cell. Functional effects on mature phagocytes comprise bactericidal and tumoricidal mechanisms including induction of cytokine release. GM-CSF receptors are present on normal hematopoietic progenitors as well as on mature granulocytes, on leukemic cells and some non-hematopoietic cells. Alteration of the GM-CSF gene has been associated with distinct features of AML and ALL. The glycosilated molecule is produced by various hemolymphopoietic and possibly non-hematopoietic cells, amongst whom T-lymphocytes and marrow stroma may be most relevant for myelopoiesis. The regulation of gene expression is exerted on both transcriptional and posttranscriptional levels of gene expression. GM-CSF production may play a role in steady state as well as in stress hematopoiesis. In vivo application of GM-CSF leads to a marked increase of phagocytes, in particular granulocytes. GM-CSF reduces the duration of neutropenia following aplasiogenic and ablative therapy. GM-CSF may possibly be helpful in the treatment of victims of radiation accidents and in patients with acquired neutropenias and glykogenosis IB. The curative potential for the underlying malignant disease is to be investigated in the present cooperative european Ewing's sarcoma study.
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PMID:The granulocyte/macrophage-colony stimulating factor (GM-CSF): basic science and clinical application. 194 37

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