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Query: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
 6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-dose therapy with autologous marrow support results in durable complete remissions in selected patients with relapsed lymphoma and leukemia who cannot be cured with conventional dose therapy. However, substantial morbidity and mortality result from the 3- to 6-week period of marrow aplasia until the reinfused marrow recovers adequate hematopoietic function. Hematopoietic growth factors, particularly used after chemotherapy, can increase the number of peripheral blood progenitor cells (PBPCs) present in systemic circulation. The reinfusion of PBPCs with marrow has recently been reported to reduce the time to recovery of adequate marrow function. This study was designed to determine whether granulocyte-macrophage colony-stimulating factor (GM-CSF)-mobilized PBPCs alone (without marrow) would result in rapid and reliable hematopoietic reconstitution. Sixteen patients with metastatic breast cancer were treated with four cycles of doxorubicin, 5-fluorouracil, and methotrexate (AFM induction). Patients responding after the first two cycles were administered GM-CSF after the third and fourth cycles to recruit PBPCs for collection by two leukapheresis per cycle. These PBPCs were reinfused as the sole source of hematopoietic support after high doses of cyclophosphamide, thiotepa, and carboplatin. No marrow or hematopoietic cytokines were used after progenitor cell reinfusion. Granulocytes greater than or equal to 500/microL was observed on a median of day 14 (range, 8 to 57). Transfusion independence of platelets greater than or equal to 20,000/microL occurred on a median day of 12 (range, 8 to 134). However, three patients required the use of a reserve marrow for slow platelet engraftment. In retrospect, these patients were characterized by poor baseline bone marrow cellularity and poor platelet recovery after AFM induction therapy. When compared with 29 historical control patients who had received the same high-dose intensification chemotherapy using autologous marrow support, time to engraftment, antibiotic days, transfusion requirements, and lengths of hospital stay were all significantly improved for the patients receiving PBPCs. Thus, autologous PBPCs can be efficiently collected during mobilization by chemotherapy and GM-CSF and are an attractive alternative to marrow for hematopoietic support after high-dose therapy. The enhanced speed of recovery may reduce the morbidity, mortality, and cost of high-dose treatment. Furthermore, PBPC support may enhance the effectiveness of high-dose therapy by facilitating multiple courses of therapy.
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PMID:Mobilization of peripheral blood progenitor cells by chemotherapy and granulocyte-macrophage colony-stimulating factor for hematologic support after high-dose intensification for breast cancer. 135 Feb 29

Neutropenic fever has been one of the most difficult complications in the recovery period following high-dose chemotherapy and autologous haematopoietic progenitor cell transplantation. The differentiation between human recombinant GM-CSF (sargramostim)-related fever and active infection can be difficult during this observation time. In 7 of 17 patients treated for metastatic breast cancer with HDCT and PBPC within 6 consecutive months, neutropenic fever without signs of infection was observed, which may be sargramostim-related fever. The typical presentation must fulfil the following criteria: cyclical elevation in body temperature that happens at the predicted time after sargramostim administration; absence of other signs or symptoms of infections; quick resolution of the fever after onset acetaminophen administration. Having met these criteria, none of these patients has been treated with intravenous antibiotics for active infections. At the time of haematological recovery (at a median time of 13 days from PBPC reinfusion to absolute neutrophil counts of > or = 0.5/nl) the febrile episode gradually resolved. No serious complications or other side-effects were observed. No toxic deaths occurred. Only if specific symptoms or signs of infection develop, would intravenous empiric antibiotic therapy be started.
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PMID:Neutropenic fever in patients after high-dose chemotherapy followed by autologous haematopoietic progenitor cell transplantation and human recombinant granulocyte-macrophage colony stimulating factor. 771 78

Disseminated fungal infections commonly occur in immunocompromised hosts; Candida spp. are the most common. Fusarium spp., soil saprophytes once considered pathogenic only in plants, have emerged as serious pathogens in neutropenic patients with malignancies. We describe two patients, one with acute myelogenous leukemia and the other with metastatic breast cancer, in whom disseminated Fusarium solani infection developed. Both patients had neutropenia and fever when generalized, tender, erythematous papules developed; most of the papules had black necrotic centers. Despite aggressive therapy with antifungal agents and granulocyte-macrophage colony-stimulating factor, both patients died within 1 month. Disseminated Fusarium infection can be a life-threatening condition in which skin lesions are frequently the initial sign. Early recognition and hematopoietic recovery offer the best chance for survival.
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PMID:Disseminated Fusarium solani infection. 782 38

The occurrence of arterial thrombosis reported in other breast cancer series has largely been confined to the upper extremities, ipsilateral to a previous mastectomy site and clinically manifest as cerebral vascular accidents. This case report describes 2 patients who experienced iliac artery thrombosis temporally related to receiving granulocyte-macrophage colony-stimulating factor (GM-CSF) and dose-intensive chemotherapy for metastatic breast cancer. A review of the literature concerning arterial thrombosis as relevant to breast cancer treatment and GM-CSF is included.
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PMID:Arterial thrombosis associated with granulocyte-macrophage colony-stimulating factor (GM-CSF) administration in breast cancer patients treated with dose-intensive chemotherapy: a report of two cases. 787 73

Circulating progenitor cells collected during periods of rapid hematopoietic reconstitution can be used successfully as hematopoietic support for super-dose chemotherapy. A major problem for collection of peripheral blood progenitor cells has been determination of optimal time to start leukapheresis and of the adequate amount of progenitor cells. This study has demonstrated that an induction chemotherapy with augmented dosage of CEF (cyclophosphamide, epirubicin, 5-fluorouracil) in conjunction with granulocyte-macrophage colony-stimulating factor (CM-CSF) successfully mobilized peripheral blood progenitor cells in 15 patients with metastatic breast cancer. By monitoring the granulocyte-macrophage colony-forming units (CFU-GM), erythrocyte burst-forming units (BFU-E), and CD34+ cells in peripheral blood daily after leukocyte nadir, we have identified an optimal 'window' in which concentrations of blood progenitor cells reached a maximum range. Although the time interval between chemotherapy and the time for maximum stimulation could vary from between 13 days to 19 days, maximum mobilization started consistently 2 days after the white blood cells (WBC) recovered to > 2.0 x 10(9)/l after nadir, and remained elevated for 4 to 5 days. A significant reduction of progenitor cells in peripheral blood and in the corresponding leukapheresis products was observed, however, from cycle 1 versus subsequent cycles (p < 0.0001), but there was no significant difference between cycles 2 and 3. When used as the sole source of hematopoietic support for super-dose chemotherapy with cyclophosphamide, mitoxantrone, and carboplatin, these progenitor cells induce rapid and sustained reconstitution in all patients. The median time from reinfusion to recovery of absolute neutrophil count (ANC) to > 0.5 x 10(9)/l was 13 days (range 9-18 days) and to an unmaintained platelet count of > 50 x 10(9)/l, 12 days (range 10-35 days). Autologous transplantation with stimulated blood progenitor cells can be an efficient alternative to bone marrow transplantation. With optimal timing for collections, as few as two leukapheresis procedures are required to obtain an adequate progenitor cell dose.
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PMID:Optimal timing for collections of blood progenitor cells following induction chemotherapy and granulocyte-macrophage colony-stimulating factor for autologous transplantation in advanced breast cancer. 796 47

Colony-stimulating factors have been shown to have a myeloprotective effect when administered following chemotherapy. Chemotherapy of short duration with predominantly cell-cycle nonspecific agents has been most used. The myeloprotective effects of colony-stimulating factors given after cell-cycle specific or continuous infusion chemotherapy have not previously been assessed. Twenty-one evaluable patients with metastatic breast cancer progressing after one prior chemotherapy regimen were treated with continuous infusion vinblastine 2.0 mg/m2/day for 5 days. After the second chemotherapy cycle, granulocyte-macrophage colony-stimulating factor (GM-CSF) was given for 10 days. Serial complete blood counts, differential, and platelet counts were obtained to document myelotoxicity. GM-CSF administration resulted in a significantly shorter duration of granulocytopenia, < 500/microliters, at the maximum GM-CSF dose. Significantly more rapid recovery of granulocytes to > 500/microliters, > 1000/microliters, and > 1500/microliters was seen with all doses and schedules of GM-CSF administered. The nadir absolute granulocyte counts were unaffected. GM-CSF given after continuous infusion cell-cycle specific chemotherapy is therefore myeloprotective.
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PMID:The myeloprotective effect of recombinant human granulocyte-macrophage colony-stimulating factor given sequentially with continuous infusion vinblastine in metastatic breast cancer patients. 845 4

Bone marrow and extensive bone involvement have limited the use of chemotherapy with stem cell support for treatment of women with metastatic breast cancer. The toxicity and efficacy of dose-intensive chemotherapy were studied using etoposide and cyclophosphamide without a stem cell support regimen for women with advanced breast cancer. The regimen was well tolerated, with treatment-related mortality similar to dose-intensive therapy with stem cell support. The overall 58% response rate is comparable to the response rate with dose-intensive chemotherapy regimens using stem cell support. The extent of disease, responsiveness to standard therapy, and dose of etoposide affected the response rate. Hematopoietic recovery was fairly prompt and was generally unaffected by the use of hematopoietic growth factors or the presence of breast cancer cells in the marrow. The use of stem cells or recombinant human interleukin-3 (rhIL-3) in combination with recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) resulted in some benefit in neutrophil recovery. It was concluded that in many women with advanced breast cancer, a dose-intensive regimen of etoposide and cyclophosphamide results in response or stabilization of disease. Hematopoietic recovery, particularly platelet recovery, may be accelerated by a combination of rhIL-3 and rhGM-CSF.
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PMID:Dose-intensive chemotherapy with etoposide-cyclophosphamide for advanced breast cancer. North American Marrow Transplant Group. 860 May 46

In this retrospective study, we assessed the impact of each of three consecutive cycles of conventional-dose chemotherapy on CD34+ cells, colony-forming units granulocyte-macrophage (CFU-GM), and contaminating breast cancer cells collected in the leukapheresis products of patients with metastatic breast cancer. The patients subsequently underwent high-dose chemotherapy followed by autologous blood progenitor cell transplantation. We analyzed 172 leukapheresis products from 17 patients and have correlated the long-term clinical outcome with tumor cell contamination. The induction chemotherapy regimen consisted of three cycles of cyclophosphamide 750 mg/m2 i.v., epirubicin 100 mg/m2, and 5-fluorouracil (5-FU) 750 mg/m2 i.v., followed by 5 microg/kg body weight of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) daily until leukapheresis was completed. An average of 10 leukapheresis products (three to four collections after each cycle of chemotherapy) were obtained from each patient. Numbers of CD34+ cells, CFU-GM, and mononuclear cells (MNCs) in the leukapheresis products were determined at the time of collection. Aliquots from the same products were frozen and breast cancer cells were detected by immunocytochemistry with a cocktail of anti-cytokeratin antibodies (AE-1, AE-3, CAM 5.2, Keratin 8+18+19) using a standardized immunoalkaline phosphatase method. A minimum of 10(6) cells were examined by light microscopy and by at least two blinded observers. Cells were considered positive when immunostaining was detected in the cytoplasm and on the cell membrane, and cellular morphology was consistent with a malignant phenotype. Of the 172 samples analyzed, 13 of 57 (23%) leukapheresis products collected after cycle I were positive for tumor cells; 3 of 60 (5%) after cycle II; and 4 of 55 (7%) after cycle III. The likelihood of contamination by breast cancer cells after cycle I was significantly higher than after subsequent cycles of chemotherapy (p = 0.0052). Simultaneously, there was a significant decrease in quantity of CD34+ cells and CFU-GM (p < 0.0001 for both comparisons). Our study indicated that leukapheresis products collected after the second or third cycles of induction chemotherapy carry a significantly lower likelihood of tumor cell contamination, albeit the quantity of CD34+ cells or CFU-GM collected was also significantly reduced.
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PMID:Decrease in tumor cell contamination and progenitor cell yield in leukapheresis products after consecutive cycles of chemotherapy for breast cancer treatment. 950 99

We evaluated the feasibility of tandem-cycle high-dose chemotherapy (HDCT) with cisplatin, melphalan, and peripheral blood progenitor cells (PBPCs). Fifty patients with high-risk primary (n = 17) or stage IV breast cancer (n = 29) or other malignancies (n = 4) received 2 cycles of intravenous melphalan, 20 to 151.8 mg/m2, and cisplatin, 200 mg/m2, followed by granulocyte-macrophage colony-stimulating factor (GM-CSF) or G-CSF. Starting at 40 mg/m2 of melphalan, patients also received PBPCs. Delayed platelet recovery defined the maximum tolerated dose (MTD) for melphalan at 101.2 mg/m2 per cycle. There were no treatment-related deaths. Cycle 2 was delivered at a median of 1.7 months after cycle 1; 72% of patients treated at the MTD received both cycles. Cycle 2 was omitted when patients refused it or had disease progression or toxicities, primarily prolonged thrombocytopenia. Complete response rates in stage IV breast cancer patients increased from 28% pre-HDCT to 55% after cycle 2. At a median follow-up of 4.6 years (range, 1.5-8.1 years), 11 of 29 patients with stage IV breast carcinoma were alive with 5-year projected progression-free and overall survival rates of 19% (95% confidence interval [CI], 7%-41%) and 39% (95% CI, 20%-62%), respectively. Five-year projected progression-free and overall survival rates for patients with stage IV breast cancer in complete response following HDCT versus all others were 35% (95% CI, 15%-70%) versus 0% (P = .01) and 61% (95% CI, 35%-91%) versus 10% (95% CI, 2%-60%) (P = .003; log-rank test), respectively. Estrogen-receptor positivity was predictive of reduced risk of progression (relative risk [RR], 0.25; 95% CI, 0.10-0.65; P = .003) and death (RR, 0.27; 95% CI, 0.10-0.72; P = .009) after adjusting for response status. Five-year projected relapse-free and overall survival rates were 71% (95% CI, 43%-96%) and 82% (95% CI, 56%-100%), respectively, for the 17 patients with high-risk primary breast cancer. Tandem-cycle high-dose melphalan and cisplatin with PBPCs is feasible. Preliminary data suggest significant activity in selected patients with stage IV responding breast carcinoma.
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PMID:Tandem-cycle high-dose melphalan and cisplatin with peripheral blood progenitor cell support in patients with breast cancer and other malignancies. 1140 Sep 51

MDA-MB-231, an HLA-A2(+), HER2/neu(+) allogeneic breast cancer cell line genetically modified to express the costimulatory molecule CD80 (B7-1), was used to vaccinate 30 women with previously treated stage IV breast cancer. Expression of CD80 conferred the ability to deliver a costimulatory signal and thereby improved the antigen presentation capability of the tumor cells to patient T cells in vitro. Patients were vaccinated with 10(7) or 10(8) irradiated gene-modified tumor cells with granulocyte-macrophage colony-stimulating factor (GM-CSF) or BCG, three times at 2-week intervals and then monthly until progressive disease developed. GM-CSF-related flulike symptoms and minor injection site reactions were observed frequently. Prolonged disease stabilization was observed in four patients but no objective tumor regressions were seen. Immune responses were measured in matched peripheral blood samples collected before and after treatment from 9 of 15 patients treated at the 10(8) tumor cell dose. Four patients exhibited MHC class I-restricted cytokine production in response to the parental breast cancer cell line. One patient maintained an increased number of circulating tumor-specific, interferon gamma-secreting CD8(+) T cells for 24 months after the last vaccination. One patient exhibited a tumor-specific interleukin 5 response to an autologous tumor cell line. This immunization strategy proved to be safe and feasible, and induced tumor-specific immune responses in a minority of patients; however, no objective tumor regressions were observed.
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PMID:Vaccination of women with metastatic breast cancer, using a costimulatory gene (CD80)-modified, HLA-A2-matched, allogeneic, breast cancer cell line: clinical and immunological results. 1288 50


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