Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0006142 (breast cancer)
 160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seventy-seven (68 operable breast cancer with > 9 metastatic axillary nodes and 9 inflammatory breast cancer) entered this study. During hematopoietic recovery after cancer therapy with high-dose cyclophosphamide (7 g/m2; HD-CTX) circulating hematopoietic progenitors were collected by leukapheresis (LK) in all patients and then cryopreserved for autologous transplantation. Following HD-CTX, 70 patients were treated with hematopoietic growth factor(s) for 14 days: 38 with rhGM-CSF (group a), 16 with rhIL-3 (group b), 11 with sequential rhIL-3 and rhGM-CSF (group c), 5 with sequential rhIL-3 and rhG-CSF (group d). Seven control patients (group e) did not receive any growth factor. Leukaphereses, carried out over 2-4 consecutive days per patient, were started earlier in group c and in group d patients (mean day: +12 after HD-CTX). The sequential administration of rhIL-3 and rhG-CSF (group d) resulted in clearly higher yield of CFU-GM and CD34+ cells per leukapheresis (65.9 x 10(4)/Kg versus 20.9 x 10(6)/Kg, respectively) if compared with other groups of treatment.
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PMID:Clinical application of growth factors for collection of circulating hematopoietic progenitors in breast cancer patients treated with high-dose cyclophosphamide. 751 16

The combination of mitozantrone, methotrexate and mitomycin (3M) gives a response rate of around 50% in patients with advanced breast cancer. The predominant toxicity is haematological. In this study, previously untreated patients were given 3M with increasing doses of mitozantrone (7-14 mg m-2) with recombinant human granulocyte colony-stimulating factor (metHuG-CSF) (filgrastim) to prevent marrow toxicity. Doses administered were 7 mg m-2 mitomycin i.v. 6 weekly, methotrexate i.v. 35 mg m-2 (maximum 50 mg) 3 weekly and mitozantrone i.v. 3 weekly as follows: 7 mg m-2, six patients (group 1); 10 mg m-2, six patients (group 2); 12 mg m-2, six patients (group 3); 14 mg m-2, six patients (group 4); all on day 1 for six cycles at the assigned dose. All patients received filgrastim (Amgen 0.3 mg ml-1) at a dose of 5 micrograms kg-1 subcutaneously daily on days 4-17 of each cycle. All treatment was given on an out-patient basis. A total of 24 patients were entered into the study. The median age was 63 years (range 48-75). ECOG performance status was 0 in ten, 1 in 11 patients and 2 in three patients. Locoregional disease alone was present in seven patients. The remainder had one or more sites of metastases. The actual dose administered to the 24 patients was as follows. The six patients in group 1 all completed six courses of treatment as per protocol. In group 2, three patients completed six courses, two stopped because of toxicity after one and four courses and one had progressive disease after one course. In group 3, three patients completed and three stopped early because of progressive disease. In group 4, two patients completed, one progressed after four courses and three responding patients stopped treatment because of toxicity. The maximum tolerated dose of mitozantrone in the 3M combination was 12 mg m-2. The use of filgrastim with increasing doses of chemotherapy prevents neutropenia, but other toxicities, namely thrombocytopenia and lethargy, then become dose limiting.
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PMID:Phase I study of mitozantrone, methotrexate and mitomycin with granulocyte colony-stimulating factor (filgrastim) in patients with advanced breast cancer. 752 7

The clinical usefulness of Recombinant Human Granulocyte Colony Stimulating Factor (rhG-CSF, Filgrastim, GRAN) was evaluated in patients with leukopenia and neutropenia following chemotherapy for non-Hodgkin's lymphoma, lung cancer and breast cancer. During chemotherapy when patients' leukocyte count (WBC) fell below 4.0 x 10(9)/L.rhG-CSF(GRAN) at a dose of 75 micrograms/body.day was given subcutaneously 48 hours after the termination of chemotherapy. The results indicated that rhG-CSF(GRAN) could elevate nadirs of WBC and significantly shortened leukopenic period with WBC below 4.0 x 10(9)/L and expedited the recovery of WBC. rhG-CSF (GRAN)'s side effects were mild.
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PMID:[Clinical study of recombinant human granulocyte colony stimulating factor (rhG-CSF) on leukopenia induced by chemotherapy in cancer patients]. 752 73

Factors affecting mobilization and engraftment were analysed in 54 patients undergoing transplant using autologous PBSCs mobilized with high-dose recombinant granulocyte stimulating factor (rhG-CSF). Patients received 5-7 d of rhG-CSF, 16 micrograms/kg/d, administered subcutaneously. PBSCs were harvested by leukapheresis using automated continuous-flow blood cell separators beginning on day 4 of rhG-CSF, processing 10 litres of whole blood, for 2-6 consecutive days. Transplants were performed for the following diseases: breast cancer (n = 22), non-Hodgkin's lymphoma (n = 18), multiple myeloma (n = 7) and other (n = 7). Engraftment was rapid with patients reaching a neutrophil count of 1 x 10(9)/l a median of 12 d (range 9-22) after transplant. Platelets > 20 x 10(9)/l independent of transfusion support were achieved a median of day 10 (range 7-60) after infusion. Multiple factors potentially influencing engraftment were examined using a Cox regression model. The number of CD34+ cells per kg was highly correlated with the time to achievement of granulocyte and platelet recovery (P < 0.012, 0.0001). The use of a post-infusion growth factor and a radiation preparative regimen was important for neutrophil recovery, and a diagnosis of breast cancer was important for platelet recovery. In an analysis by linear regression of the logarithm of CD34+ cells collected, lower age, marrow without disease, no prior radiation, and lower number of prior chemotherapy regimens, were important factors influencing larger numbers of CD34+ cells in collections.
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PMID:Peripheral blood stem cells (PBSCs) collected after recombinant granulocyte colony stimulating factor (rhG-CSF): an analysis of factors correlating with the tempo of engraftment after transplantation. 753 30

For the mobilization of CD34+ peripheral blood progenitor cells (PBPC) filgrastim (R-metHuG-CSF) can be administered either during steady-state hematopoiesis or following cytotoxic chemotherapy. We compared both mobilization modalities intra-individually in seven patients with breast cancer. The number of circulating CD34+ cells was increased after filgrastim-supported chemotherapy compared with filgrastim administration during steady-state (on average, 129 vs. 19/microliters), resulting in a sevenfold higher yield of CD34+ cells per leukapheresis (5.73 vs. 0.79 x 10(6)/kg bodyweight). CD34+ PBPC harvested post-chemotherapy comprised a smaller proportion of early progenitor cells (CD34+/HLA-DR- or CD34+/CD38-) compared with filgrastim treatment alone. However, the absolute number of these early progenitor cells harvested was fivefold higher. The filgrastim-supported rebound after chemotherapy was characterized by a greater proportion of CD34+/CD33+ cells. Correspondingly, CD34+ PBPC mobilized post-chemotherapy contained a higher proportion of CFU-GM compared with filgrastim treatment during steady-state, while the cloning efficiency of CD34+ cells for BFU-E tended to be lower. Of note, the proportion of CD34+/CD19+ lymphoid progenitor and B cells was reduced after chemotherapy. In cancer patients, filgrastim mobilizes higher numbers of CD34+ cells when administered post-chemotherapy, compensating for the smaller proportion of early hematopoietic progenitors.
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PMID:Filgrastim post-chemotherapy mobilizes more CD34+ cells with a different antigenic profile compared with use during steady-state hematopoiesis. 758 Nov 60

Recombinant human granulocyte colony stimulating factor (rHuG-CSF) has been used for several years in clinical haematology and it is now routinely employed to prevent or treat chemotherapy-induced neutropenia. rHuG-CSF is also administered after autologous or allogeneic bone marrow transplantation (BMT), since it can significantly shorten the duration of neutropenia. However, probably its main use at the moment is to facilitate the collection of peripheral blood stem cells (PBSC) from patients with lymphoma, myeloma and breast cancer. Within controlled trials, it is also used as an adjunct to immunosuppression for patients with aplastic anaemia. rHuG-CSF has a number of other potential uses such as increasing the numbers of progenitor cells for transplantation by in vivo and/or ex vivo amplification; treatment of non-neutropenic infections post transplant, and prophylaxis and treatment of cytomegalovirus infections. In the future, autologous stem cell transplants may be performed in the outpatient department thus expanding the use of PBSC transplantation to disease areas not previously considered suitable for such myelosuppressive treatment.
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PMID:The clinical benefits of recombinant human granulocyte colony stimulating factor in the treatment of cancer patients. 753 69

Six patients with advanced ovarian carcinoma (OvCa), and six patients with stage II or III resectable breast cancer (BrCa) were treated with low-dose CY (LD-CY, 1500 mg/m2) and cisplatin (CDDP) 100 mg/m2 (OvCa) or epirubicin (EPR) 120 mg/m2 (BrCa) plus recombinant human G-CSF (rhG-CSF). Twelve days after chemotherapy, all patients underwent PBSC collection on an outpatient basis. Following the completion of the induction programme, all patients underwent high-dose chemotherapy (HDC) with carboplatin 1200 mg/m2, etoposide 900 mg/m2 and melphalan 100 mg/m2 with the reinfusion of PBSC. LD-CY plus rhG-CSF in combination with CDDP or EPR mobilised a very large number of PBSC. After a median of 13 days from chemotherapy, the concentration of PBSC in the peripheral blood was 40-fold higher than the same patient's baseline value. Each collection yielded a median of 10.8 x 10(4)/kg colony-forming unit granulocyte-macrophage. Severe myelosuppression occurred in all patients following HDC, but the infusion of PBSC produced a rapid and sustained haemopoietic recovery. After a median of 11 days from reinfusion, haemopoietic engraftment was complete and 80% of the patients had platelets > 100 x 10(9)/l and PMN > 1 x 10(9)/l within 14 days after reinfusion. We can conclude that the present therapeutic approach is an excellent option for mobilisation, collection and transplantation of PBSC during intensive dose adjuvant polychemotherapy of high-risk cancer.
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PMID:Low-dose cyclophosphamide in combination with cisplatin or epirubicin plus rhG-CSF allows adequate collection of PBSC for autotransplantation during adjuvant therapy for high-risk cancer. 753 71

Peripheral blood progenitor cells (PBPC) can be mobilized using cytotoxic chemotherapy and cytokines. There is a substantial variability in the yield of hematopoietic progenitor cells between patients. We were looking for predictive parameters indicating a patient's response to a given mobilization regimen. Multiparameter flow-cytometry analysis and clonogenic assays were used to examine the hematopoietic progenitor cells in bone marrow (BM) and peripheral blood (PB) before filgrastim (R-metHuG-CSF; Amgen, Thousand Oaks, CA)-supported chemotherapy and in PB and leukapheresis products (LPs) in the recovery phase. Fifteen patients (four with high-grade non-Hodgkin's lymphoma [NHL], two with low-grade NHL, two with Hodgkin's disease, two with multiple myeloma, three with breast cancer, one with ovarian cancer, and one with germ cell tumor) were included in this study. The comparison of immunofluorescence plots showed a homogenous population of strongly CD34+ cells in steady-state and mobilized PB whereas in steady-state BM, the CD34+ cells ranged from strongly positive with continuous transition to the CD34- population. Consistent with the similarity in CD34 antigen expression, a correlation analysis showed steady-state PB CD34+ cells (r = .81, P < .001) and colony-forming cells (CFCs; r = .69, P < .01) to be a measure of a patient's mobilizable CD34+ cell pool. Individual estimates of progenitor cell yields could be calculated. With a probability of 95%, eg, 0.4 steady-state PB CD34+ cells x 10(6)/L allowed to collect in six LPs 2.5 x 10(6) CD34+ cells/kg, the reported threshold-dose of progenitor cells required for rapid and sustained engraftment after high-dose therapy. For the total steady-state BM CD34+ cell population, a weak correlation (r = .57, P < .05) with the mobilized CD34+ cells only became apparent when an outlier was removed from the analysis. Neither the CD34+ immunologic subgroups defined by the coexpression of the myeloid lineage-associated antigens CD33 or CD45-RA or the phenotypically primitive CD34+/HLA-DR- subset nor the BM CFC count had a predictive value for the mobilization outcome. This may be caused by the additional presence of maturing progenitor cells in BM, which express lower levels of the CD34 antigen and do not circulate. Our results permit us to recognize patients who are at risk to collect low numbers of progenitor cells and those who are likely to achieve sufficient or high progenitor cell yields even before mobilization chemotherapy is administered.
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PMID:Peripheral blood progenitor cell (PBPC) counts during steady-state hematopoiesis allow to estimate the yield of mobilized PBPC after filgrastim (R-metHuG-CSF)-supported cytotoxic chemotherapy. 860 80

In an effort to determine whether subcutaneous or continuous intravenous infusion administration of rhGM-CSF results in better hematopoietic progenitor mobilization, the findings of two sequential clinical trials were reviewed. Patients who had received prior chemotherapy for leukemia, lymphoma, multiple myeloma, breast cancer, or other solid tumors and were candidates for high-dose therapy received rhGM-CSF, 250 micrograms/m2/day, either as a continuous intravenous infusion (trial 1) or subcutaneously (trial 2) for stem cell mobilization. At least five apheresis collection procedures were performed to collect a target number of 6.5 x 10(8) mononuclear cells (MNC)/kg. For the 37 patients in trial 1, the collections contained a median of 7.99 x 10(8) MNC/L (range 6.42-21.36) and a median of 5.27 x 10(4) CFU-GM/kg (range 0.28-19.35). In trial 1, 25 patients were autografted with their cells and recovered 0.5 x 10(9) granulocytes/L at a median of 12 days (range 6-16). For the 33 patients in trial 2, the autograft product contained a median of 7.63 x 10(8) MNC/kg (range 6.51-22.66) and 6.31 x 10(4) CFU-GM/kg (range 0.06-60.4). In trial 2, 25 patients were autografted. The median time to reach 0.5 x 10(9) granulocytes/L was 11 days (range 9-26). All patients received rhGM-CSF after peripheral stem cell transplant. No significant differences in the collected products or the time to hematopoietic recovery was found between the two trials (p > 0.05). The mobilization effects of subcutaneous rhGM-CSF in these pretreated patients were similar to those of intravenous rhGM-CSF.
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PMID:Comparison of subcutaneous and intravenous administration of recombinant human granulocyte-macrophage colony-stimulating factor for peripheral blood stem cell mobilization. 754 52

Mitoxantrone (MTZ) and vinorelbine (VNR) have shown a good efficacy in advanced breast cancer. We conducted a phase I-II trial to determine the MTDs and best schedule of these drugs, in advanced breast cancer patients, when granulocyte-colony stimulating factor (G-CSF) support was given. The starting dose-intensity level was MTZ 3 mg/m2/week + VNR 15 mg/m2/week; dose was escalated at each step by 1 mg/m2/week for MTZ and 5 mg/m2/week for VNR, until dose limiting toxicity (DLT) developed in 33% or more of the patients at the first course. G-CSF 5 micrograms/kg/day d3-13 was administered at each cycle from dose level 2 on. For each dose step we planned 3 different schedules (a = total dose of MTZ on day 1; b = total dose d1 and 8; c = weekly schedule). At the time of this analysis (December 1993) 43 patients with locoregionally advanced or metastatic breast cancer have entered this study, 23 of whom had received prior chemotherapy other than adjuvant. Toxicity has been primarily hematologic. Non hematologic toxicity never caused interruption of dose escalation. Overall 8 patients developed DLT at the first course. Dose escalation was stopped at level 3 in patients receiving schedules a or b, and in those receiving schedule c the dose was escalated until level 5. The MTD was MTZ 6 mg/m2 and VNR 30 mg/m2 weekly. Age, dose level, and PS were found to be correlated with neutrophil and platelet nadirs, but dose level was the only independent variable predictive of myelotoxicity at multiple regression analysis. Forty-one patients were evaluable for response.(ABSTRACT TRUNCATED AT 250 WORDS)
Breast Cancer Res Treat 1995 Aug
PMID:Mitoxantrone plus vinorelbine with granulocyte-colony stimulating factor (G-CSF) support in advanced breast cancer patients. A dose and schedule finding study. 754 69


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