Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027947 (neutropenia)
17,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study compares differences in the cellularity and levels of CD34 positive cells in bone marrows from patients treated with G-/GM-CSF prior to harvest and marrows from untreated patients. The average volume of marrow aspirated was 1302mL in the untreated group containing an average of 2.6 x 10(10) nucleated cells, while an average volume of 1147mL of marrow was aspirated from patients treated with GM-/G-CSF prior to harvest which contained an average of 5.6 x 10(10) nucleated cells. Analysis of these marrows by flow cytometry revealed a higher percentage of CD34 positive cells within the lymphoid gate of marrow specimens from patients receiving GM-/G-CSF as compared with their untreated counterparts (21.4% vs. 9.1%). All patients receiving GM-/G-CSF prior to harvest were also given G-CSF subcutaneously (5 micrograms/kg/day) following the infusion of autologous marrow after high dose myelosuppressive chemotherapy and the duration of neutropenia (AGC < 500/mm3) in this group was shortened, an average of 12 days as compared to 24 days in untreated patients. This decreased duration of neutropenia is similar to that reported in patients receiving GM-/G-CSF only after transplantation (Lieschke & Burgess, 1992). Further studies are needed to determine whether the administration of GM-/G-CSF prior to bone marrow harvest is clinically beneficial.
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PMID:Administration of GM-/G-CSF prior to bone marrow harvest increases collection of CD34+ cells. 753 43

It was the objective of the study to characterize CD34+ hematopoietic progenitor cells from peripheral blood (PB) and bone marrow (BM) in a group of 24 cancer patients. After cytotoxic chemotherapy, R-metHu granulocyte colony-stimulating factor (R-metHuG-CSF; filgrastim, 300 micrograms daily, subcutaneously) was given to shorten the time of neutropenia as well as to increase the rebound of peripheral blood progenitor cells (PBPC) for harvesting. The proportion of CD34+ cells in the leukapheresis products (LPs) was 1.4-fold greater than in BM samples that were obtained at the same day (LP: median, 1.4% v BM: median, 1.0%, P < .01). Two- and three-color immunofluorescence showed that blood-derived CD34+ cells comprised a greater proportion of a particular early progenitor cell than CD34+ cells of bone marrow. Blood-derived progenitor cells tended to have a higher mean fluorescence intensity of CD34 and expressed significantly lower levels of HLA-DR (mean fluorescence intensity of HLA-DR: 442.6 +/- 44.9 [LP] v 661.5 +/- 64.6 [BM], mean +/- SEM, P < .01). Furthermore, the blood-derived CD34+ cells comprised a 1.7-fold greater proportion of Thy-1+ cells (LP: median, 24.4% v BM: median, 14.4%, P < .001) and expressed significantly less c-kit (LP: median, 20.5% v BM: median, 31.0%, P < .01). Three-color analysis showed that high levels of Thy-1 expression were restricted to CD34+/HLA-DRdim or CD34+/HLA-DR- cells confirming the early developmental stage of this progenitor cell subset. The proportion of CD34+/CD45RA(bright) cells representing late colony-forming unit granulocyte-macrophage (CFU-GM) was smaller in LPs compared with BM (P < .05). For an examination of BM CD34+ cells before the mobilization chemotherapy, samples of 16 patients were available. The mean proportion of c-kit expressing CD34+ cells in the bone marrow during G-CSF-stimulated reconstitution decreased 1.8-fold compared with baseline values. There was no difference in the proportion of BM-derived CD34+/Thy-1+ cells and CD34+/CD45RA+ cells between steady-state hematopoiesis and G-CSF-supported recovery. Our data suggest that during G-CSF-enhanced recovery, CD34+ cells in the PB are enriched with more primitive progenitor cells to evenly replenish the BM after the chemotherapy-related cytotoxic damage.
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PMID:Blood-derived autografts collected during granulocyte colony-stimulating factor-enhanced recovery are enriched with early Thy-1+ hematopoietic progenitor cells. 753 95

The purpose of this study was to evaluate the antigenic profile of granulocyte colony-stimulating factor (G-CSF)-mobilized peripheral blood progenitor cells (PBPC) in patients with non-Hodgkin's lymphoma (NHL), Hodgkin's disease (HD), and multiple myeloma (MM). The mobilization regimens consisted of high-dose cytarabine/mitoxantrone for patients with NHL, DexaBEAM for patients with HD, and high-dose cyclophosphamide (4 or 7 g per m2) for patients with MM. Cytotoxic therapy was supported by recombinant human G-CSF (Filgrastim, 300 micrograms/day sc) to shorten the period of neutropenia and to increase the number of circulating hematopoietic progenitor cells. The mean numbers of circulating CD34+ cells/microliters during leukocyte recovery were different between patient groups, 80.5 +/- 9.8 (mean +/- SEM) in low-grade NHL and 51.2 +/- 9.7 in high-grade NHL compared with 31.3 +/- 6.9 in HD and 24.4 +/- 4.1 in patients with MM. As a result, the greatest numbers of CD34+ cells/kg collected per leukapheresis were observed in patients with NHL, whereas the collection efficiency was substantially lower in patients with HD or MM. Patients with MM had also the smallest proportion of CD34+ cells in the mononuclear cell fraction (mean 0.79 +/- 0.10% versus 2.15 +/- 0.19% in low-grade NHL) but the greatest proportion of early CD34+ HLA-DR- progenitor cells (mean 2.38 +/- 0.51 versus 0.84 +/- 14% in low-grade NHL). Patients with MM had a mean proportion of CD34/c-kit+ cells that was twofold greater than that observed in patients with high- or low-grade NHL.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of peripheral blood progenitor cells mobilized by cytotoxic chemotherapy and recombinant human granulocyte colony-stimulating factor. 753 8

A major potential problem of autologous transplantation in the treatment of advanced malignancy is the infusion of tumor cells. A multi-institutional study of purified CD34-selected peripheral blood progenitor cell (PBPC) transplantation was conducted in 37 patients with advanced multiple myeloma receiving myeloablative chemotherapy. Fourteen days after intermediate-dose cyclophosphamide, prednisone, and granulocyte colony-stimulating factor (G-CSF), a median of 3 (range, 2 to 5) 10-L leukaphereses yielded 9.8 x 10(8)/kg (range, 3.7 to 28.3) mononuclear cells. The adsorbed (column-bound) fraction contained 5.9 x 10(6) cells/kg (range, 1.6 to 25.5) with 4.65 x 10(6) CD34 cells/kg (range, 1.2 to 23.3). Using Poisson distribution analysis of positive polymerase chain reactions with patient-specific complementarity-determining region 1 (CDR1) and CDR3 Ig-gene primers, tumor was detected in leukapheresis products from 8 to 14 unselected patients and ranged from 1.13 x 10(4) to 2.14 x 10(6) malignant cells/kg. After CD34 selection, residual tumor was detected in only three patients' products. Overall, a greater than 2.7- to 4.5-log reduction in contaminating multiple myeloma cells was achieved. CD34 PBPCs were infused 1 day after busulfan (14 mg/kg) and cyclophosphamide (120 mg/kg), and granulocyte-macrophage colony-stimulating factor was used until hematologic recovery. The median time to both neutrophil and platelet recovery was 12 days (range, 11 to 16 days and 9 to 52 days, respectively). The median number of erythrocyte and platelet transfusions was 7 (range, 2 to 37) and 3 (range, 0 to 85), respectively. Patients receiving fewer than 2 x 10(6) CD34 cells/kg had significantly prolonged neutropenia, thrombocytopenia, and an increased red blood cell and platelet transfusion requirement. Thus, CD34 selection of PBPCs markedly reduces tumor contamination in multiple myeloma and provides effective hematopoietic support for patients receiving myeloablative therapy.
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PMID:Transplantation of CD34+ peripheral blood progenitor cells after high-dose chemotherapy for patients with advanced multiple myeloma. 754 Aug 88

The duration of neutropenia and thrombocytopenia after high-dose chemotherapy has improved since the introduction of myeloid growth factors and peripheral blood progenitor cells (PBPC), yet there remains a subset of patients who have delayed hematopoietic recovery. Currently, there ar no established, reliable parameters which may be used to guide stem cell harvests. We investigated the utility of measuring harvested CD34 positive cell populations by flow cytometry. From March 1990 to July 1993, 30 women with advanced breast cancer underwent therapy with high-dose cyclophosphamide and thiotepa and stem cell rescue. Patients received either cyclophosphamide (CY) mobilized PBPC or CY/G-CSF mobilized PBPC. The number of harvested CD34+ cell and CFU-GM (colony forming units-granulocyte macrophage) were quantitated for each stem cell produce. There ar complete CD34 data for 21 patients and complete CFU-GM data for 20 patients. There was a significantly delayed neutrophil recovery in those patients reinfused with < 0.75 x 10(6) CD34+ cells/kg body weight (median days 22) compared with patients reinfused with > 0.75 x 10(6)/kg (median days 12, P = 0.0004); a similar trend was seen with platelet recovery (median 135 days vs 18 days, respectively, P = 0.002). With neutrophil recovery, there was no improvement in time to engraftment with a large number of reinfused CD34+ cells, but there was a trend towards shortened platelet recovery when the number of reinfused CD34+ cells exceeded 2.0 x 10(6)/kg (median 15 days) compared with CD34+ < 2.0 x 10(6)/kg (median 75 days, P = 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quantitative CD34 analysis may be used to guide peripheral blood stem cell harvests. 754 Dec 69

Cycling intensive chemotherapy currently used to treat pediatric solid tumors induces severe neutropenia. Prolonged neutropenia is a major risk factor for septic death which occurs in up to 5% of febrile or septic neutropenic episodes. We treated 18 neutropenic pediatric cancer patients (eight females, 10 males) during 30 febrile and/or septic episodes with single daily doses of E. coli-derived non-glycosylated recombinant human granulocyte-macrophage colony-stimulating factor (rh-GM-CSF, 5 micrograms per kg of body weight). The cytokine was administered for a median period of 6.5 days (2-12 days). Analysis of circulating hematopoietic progenitor cells was performed at day 1 (baseline) and day 5 of rh-GM-CSF treatment and included flow cytometric CD34 analysis as well as the methylcellulose-based clonogenic assay. Prompt hematopoietic recovery and resolution of septic problems was observed in all children. The counts of leukocytes (WBC), absolute neutrophils (ANC), and platelets (PLT) rose above 1,000/microL, 1,000/microL, and 50,000/microL within 4 days (0-9), 5.5 days (2-13), and 6 days (0-14), respectively. Faster granulocyte recovery and improved recruitment of circulating hemopoietic precursors was observed in children with detectable amounts (> 0.1%) of CD34-positive mononuclear cells prior to rh-GM-CSF treatment. We conclude that, to some extent, the efficacy of rh-GM-CSF treatment in neutropenic cancer patients is influenced by the hematopoietic recovery status on the progenitor cell level. Although they respond more slowly to the treatment, patients without circulating CD34-positive progenitor cells may gain most from growth factor therapy. Rh-GM-CSF can be safely administered to febrile and/or septic neutropenic children treated for cancer.
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PMID:Recombinant human granulocyte-macrophage colony-stimulating factor in septic neutropenic pediatric cancer patients: detection of circulating hematopoietic precursor cells correlates with rapid granulocyte recovery. 754 80

Recent development of chemotherapy enabled us to cure patients with malignancies including leukemia, malignant lymphoma, choriocarcinoma, ovarian cancer, breast cancer and so on. In order to obtain the definite effect, the quantities of chemotherapeutic agents should be increased and the major lethal side effect caused by bone marrow failure should be avoided. For this purpose, hematopoietic stem cells derived from either bone marrow or peripheral blood can be used for the rapid recovery of neutropenia and thrombocytopenia. We prepared stem cells both from bone marrow and peripheral blood by anti-CD34 monoclonal antibody bound on magnetic beads column and administered into severe combined immunodeficiency (SCID) mouse. Four and 20 weeks after transplantation, mononuclear cells bearing human hematopoietic antigens and human immunoglobulin G were appeared in the circulation, suggesting that stem cells from peripheral blood also possess long-standing capability of maturation as well as those from bone marrow. We next conducted clinical study of high dose chemotherapy combined with peripheral blood stem cell transplantation for patients with poor risk choriocarcioma. By this treatment, 4 complete response (CR) and 4 partial response (PR) were obtained, whereas 2 progressive disease (PD), 1 no change (NC) and 5 PR were obtained by the previous conventional chemotherapies. The results obtained were promising and this treatment regimen may become a good modality for the complete treatment of chemotherapy curable tumors.
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PMID:[Hematopoietic stem cell transplantation]. 777 76

The clinical application of recombinant human G-CSF in patients with acute myeloid leukemia (AML) has been controversial because it stimulates the in vitro proliferation of leukemic cells. In order to explore the possibility of predicting in vivo leukemic proliferation after G-CSF administration to AML patients by using in vitro assays, we investigated the leukemic blasts of 30 AML patients, including 14 patients who received G-CSF for severe infection associated with neutropenia following chemotherapy (G-CSF group) and 16 patients who did not (control group). Of the 14 patients in the G-CSF group, 9 showed an increase of leukemic blasts in the peripheral blood during G-CSF administration, while 11 of the 16 control patients developed leukemic resurgence. In the G-CSF group, the frequency of leukemic resurgence among patients whose blasts showed dose-dependent proliferation after addition of G-CSF to cultures was similar to that among patients whose blasts did not. In addition, there were no significant differences between the G-CSF and control groups in [3H]thymidine incorporation by leukemic cells and leukemic colony formation after the addition of G-CSF to cultures. The G-CSF receptor affinity of leukemic blasts was significantly higher in the patients with leukemic resurgence (mean dissociation constant [Kd]: 55 pM in the G-CSF group and 63 pM in the control group) than in those without it (101 pM and 96 pM, respectively), and the number of G-CSF receptors per cell was significantly lower when leukemic resurgence occurred (200 in the G-CSF group and 260 in the control group) than when it did not (3400 and 3030, respectively). Immunophenotyping (for CD2, CD7, CD10, CD13, CD19, CD33, CD34, CD71, HLA-DR, glycophorin A and the G-CSF receptor) revealed no significant differences between blasts from the patients with and without leukemic resurgence in the G-CSF group. Thus, we conclude that the in vivo leukemic resurgence during G-CSF administration after chemotherapy for AML was not correlated with the in vitro responsiveness of leukemic blasts to this cytokine or with blast phenotyping data. Leukemic resurgence is likely to occur in patients whose leukemic blasts have fewer numbers of G-CSF receptors with a high affinity irrespective of whether patients receive G-CSF.
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PMID:Granulocyte colony-stimulating factor in acute myeloid leukemia. 859 Aug 66

Pretransplant and posttransplant use of hematopoietic growth factors in bone marrow transplantation (BMT) has shortened the time to engraftment. Severe neutropenia and thrombocytopenia have been the major clinical problems associated with autologous BMT. Efforts to maintain posttransplant levels of circulating neutrophils have focused on exploiting the synergistic action between various hematopoietic growth factor families. Ex vivo generation of distinct populations of expanded cells through simultaneous and sequential addition of hematopoietic growth factors was attempted. Cultures of CD34-selected cells with combinations of growth factors consisting of either recombinant human stem cell factor (rhSCF), recombinant human interleukin-6 (rhIL-6), and recombinant human interleukin-3 (rhIL-3) or rhSCF, rhIL-3, and recombinant human granulocyte-colony stimulating factor (rhG-CSF) generated two distinct but overlapping populations of cells. Delayed addition (on day 7) of rhIL-3 and rhIL-6 to cells cultured with rhSCF generated a population of cells significantly less mature than those cultured with continuous rhSCF, rhIL-3, and rhIL-6 alone. It appears that optimal generation of immediate and delayed cell populations can be achieved by simultaneous culture with rhSCF, rhIL-3, and rhG-CSF; and with rhSCF, rhIL-6, and rhIL-3. Questions remain regarding the cell populations most effective for generating and sustaining the required neutrophil numbers.
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PMID:The biology of the cytokine sequence cascade. 860 May 44

Over the past ten years, the availability of pharmacologic quantities of hematopoietic growth factors has opened many avenues of study in basic science and clinical investigation. Numerous studies performed to date have demonstrated significant benefits from the use of these cytokines. The side effect profiles, particularly for "later acting" growth factors, indicate that they are generally well tolerated by most patients. The table summarizes the potential indications for hematopoietic growth factor use as discussed in this article, as justified by current evidence of benefit, harm, and cost effectiveness resulting from their use in various clinical settings. It has been clearly demonstrated in standard-dose chemotherapy regimens that these agents shorten the duration of myelosuppression, reduce the incidence of significant infection, can shorten hospital stay, and reduce antibiotic use for most patients, although the cost/benefit ratio for growth factors such as G-CSF makes this a cost-effective approach only for regimens with a high (40 percent or more) incidence of febrile neutropenia. Limited indirect evidence supports the use of growth factors in patients with a prior episode of fever and neutropenia. The suppressive approach to growth factor use could potentially benefit patients with documented infection or clinical deterioration, but it has not otherwise been shown to be a particularly effective or cost-effective approach. Administration of hematopoietic growth factors has been instrumental in facilitating both autologous and allogeneic peripheral progenitor cell mobilization and techniques such as ex vivo expansion. There is an increasing body of data supporting the use of high-dose chemotherapy regimens with progenitor cell rescue for a number of malignancies and limited data supporting the benefits of maintaining dose-intensity for certain malignancies in standard-dose settings. Although of continuing concern, clinically significant evidence of disease stimulation and recurrence has not been unequivocally demonstrated in studies to date. A comprehensive set of evidence-based guidelines has recently been published by the American Society of Clinical Oncology. As often is the case, current studies have perhaps generated more questions than answers. Future investigation will undoubtedly focus on use of hematopoietic growth factors in conjunction with other techniques, such as outpatient-based treatment of febrile neutropenia, CD34-positive stem cell selection in autologous transplantation, selective manipulation of T-cell subsets (to decrease the incidence of severe graft-versus-host disease) in allogeneic transplantation, and high-dose therapy with stem cell transplantation.
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PMID:Hematopoietic growth factors. 864 43


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