UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The delivery of high-dose epirubicin in patients with advanced breast cancer usually entails serious myelotoxicity and frequent treatment delays. Concurrent administration of G-CSF probably allows the administration of epirubicin on schedule with minimal morbidity. From August 1990 to February 1992, 42 women with advanced breast cancer were treated with six cycles of epirubicin 110 mg/m2 every 4 weeks. Filgrastim 5 micrograms/kg per day for 14 days was administered subcutaneously starting 24 hours after chemotherapy. All patients had multiple metastatic sites, and 39 had visceral metastases. All cases were evaluable for response, toxicity, and survival. Treatment was delayed in only two cases. The actually administered average dose per unit time per patient amounted to 99.6% of the dose prescribed by the protocol. Two (4.5%; 95% confidence interval [C.I.] 0-16%) patients demonstrated a complete response and 14 (33%; 95% C.I. 19-49%) a partial response. Median time to progression was 31 weeks and median survival was 60 weeks. Severe granulocytopenia was seen in six patients; stomatitis and diarrhea in one patient each. Myoskeletal pain was noticed in 23 (55%) patients, while cardiac problems were reported in 3 cases. The present study shows that the prophylactic use of r-met-hu G-CSF allows the administration of high-dose epirubicin every 4 weeks with minimal morbidity and an improved quality of life.
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PMID:High-dose epirubicin and r-met-hu G-CSF (filgrastim) in the treatment of patients with advanced breast cancer: A Hellenic Cooperative Oncology Group study. 752 43

In 29 chemotherapy-naive patients with stage II-III breast cancer, peripheral blood stem cells (PBSCs) were mobilised following fluorouracil 500 mg m-2, epirubicin 90-120 mg m-2 and cyclophosphamide 500 mg m-2 (FEC) and granulocyte colony-stimulating factor (G-CSF; Filgrastim) 300 microgram s.c. daily. In all but one patient, mobilisation was successful, requiring three or fewer leucocytopheresis sessions in 26 patients; 28 patients subsequently underwent high-dose chemotherapy consisting of carboplatin 1600 mg m-2, thiotepa 480 mg m-2 and cyclophosphamide 6 g m-2 (CTC) followed by PBSC transplantation. Haemopoietic engraftment was rapid with a median time to neutrophils of 500 x 10(6) l(-1) of 9 days (range 8-10) in patients who received G-CSF after PBSC-transplantation; platelet transfusion independence was reached within a median of 10 days (range 7-16). Neutropenic fever occurred in 96% of patients. Gastrointestinal toxicity was substantial but reversible. Renal, neural or ototoxicity was not observed. Complications related to the central venous catheter were encountered in 64% of patients, with major vein thrombosis occurring in 18%. High-dose CTC-chemotherapy with PBSC-transplantation, harvested after mobilisation with FEC and G-CSF, is reasonably well tolerated without life-threatening toxicity and is a suitable high-dose strategy for the adjuvant treatment of breast cancer.
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PMID:High-dose carboplatin, thiotepa and cyclophosphamide (CTC) with peripheral blood stem cell support in the adjuvant therapy of high-risk breast cancer: a practical approach. 753 25

This phase II study combined paclitaxel (Taxol; Bristol Myers Squibb Company, Princeton, NJ) 135 mg/m2 by 3-hour infusion on day 1 and vinorelbine 25 mg/m2 on days 1 and 8 (in the first 14 patients) or on days 1 and 3 (in the subsequent 20 patients). The courses were repeated every 3 weeks. The second vinorelbine dose (on days 3 or 8) was reduced or omitted according to the toxicities encountered. Thirty-four patients have been treated to date; 21 had received one prior regimen of chemotherapy, 11 had two prior regimens, and two had three prior regimens. Only two patients (6%) had not been exposed to anthracyclines. One hundred twenty-six courses have been administered: 52 with vinorelbine given on days 1 and 8, and 74 with vinorelbine administered on days 1 and 3. The most frequent toxicity was grade 4 neutropenia, which occurred in 64% of the courses; 13 episodes of febrile neutropenia have been reported in eight patients. Filgrastim was administered in 43% of the courses because of febrile neutropenia or delayed recovery (> 72 hours) from grade 4 neutropenia. Mucositis was observed in 18% of the courses (12% grade 1, 3% grade 2, and 3% grade 3). The dose of vinorelbine was reduced or omitted in 86% of courses with the days 1 and 8 schedule, and in 48% of courses with the days 1 and 3 schedule. Among 28 evaluable patients, two complete and 10 partial responses have been observed (response rate, 43%, 95% confidence interval, 19% to 51%). Median duration of response is 5+ months (range, 1 to 15 months). In conclusion, this combination is active and has acceptable toxicities in anthracycline-pretreated breast cancer patients. The delivered dose intensity of vinorelbine is higher with the schedule adopted later in the study, with vinorelbine given on days 1 and 3.
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PMID:Paclitaxel in combination with vinorelbine in pretreated advanced breast cancer patients. 889 98

Low-dose, subcutaneous recombinant human granulocyte colony-stimulating factor (rHuG-CSF, Lenograstim) was administered to 40 cancer patients (17 men, 23 women) enrolled from two medical centers to verify its clinical effectiveness and safety. The patients' mean age was 50.3 +/- 14.9 years. In this study, there were 20 patients with non-Hodgkin's lymphoma, 10 with breast cancer and 10 with various other solid tumors. The patients first received a course of chemotherapy without rHuG-CSF (control cycle). All patients had at least one episode of neutropenia or leukopenia during the control cycle. rHuG-CSF (2 micrograms/kg/day) was given subcutaneously for 10 days during the study cycle starting on the fourth day of chemotherapy. The nadirs of absolute neutrophil counts (ANC) were 1.8 +/- 0.25 x 10(9)/L and 0.27 +/- 0.05 x 10(9)/L for the rHuG-CSF cycle and pre-rHuG-CSF control cycle, respectively. The number of days of ANC < 1 x 10(9)/L were 1.03 +/- 0.29 and 7.38 +/- 0.58 for rHuG-CSF and control cycles, respectively. The duration from nadir to recovery of ANC (> or = 2 x 10(9)/L) was 9.68 +/- 1.15 days in the rHuG-CSF cycle, vs 22.53 +/- 1.03 days in the control cycle (p < 0.0001). No patient withdrew from the study. Adverse events were mild, with 12.5% to 40% of patients developing myalgia, general malaise, back pain, anorexia or fever. These side-effects were tolerable in all cases. The biochemical abnormalities were subtle and negligible. rHuG-CSF 2 micrograms/kg/day given subcutaneously for 10 days beginning on the fourth day of chemotherapy is very effective (90%), safe and convenient.
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PMID:Clinical trial of low-dose rHuG-CSF in neutropenic cancer patients following anti-cancer chemotherapy. 899 Jul 72

We report on an 66-year old female in whom we diagnosed uterine carcinosarcoma and concurrent breast cancer. As first-line treatment the patient received ifosfamide 4.8 mg/m2 body surface. During her second course of chemotherapy she developed sequentially life-threatening toxicities; severe emesis followed by nephrotoxicity, neurotoxicity and myelosuppression. Early prophylactic administration of rhG-CSF (Filgrastim) helped to overcome severe, potentially fatal myelosuppression. The course of severe toxicities following high doses of ifosfamide might reflect a dependent sequence, where one organ failure causes a subsequent organ failure. Prophylactic treatment of anticipated toxicity should be considered for the management of severe ifosfamide-induced toxicity. Such treatment may consist of sufficient antiemesis, sufficient hydration, as well as a therapy with methylene blue in case of severe neurotoxicity.
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PMID:[Sequential course and prospective management of ifosfamide-induced multi-organ toxicity]. 903 65

Based on reports of substantial antitumor efficacy of the combination of mitoxantrone (DHAD), 5-fluorouracil (FU) and leucovorin (LV), a clinical trial was performed to attempt augmentation of the dose of DHAD with filgrastim support. The doses and schedules, all intravenous, were DHAD (total dose divided over days 1 and 2), level I, 16 mg/m2; II, 20 mg/m2; III, 24 mg/m2; IV, 32 mg/m2; and LV, 300 mg, followed by FU, 350 mg/m2, on days 1-3. Filgrastim was given at 5 micrograms/kg/day subcutaneously on days 4-13. The planned cycle length was 21 days. Three or 4 patients were to be entered at each dose level and the maximum tolerated dose (MTD) was defined as the dose immediately below that which resulted in 2 patients with dose-limiting toxicity (DLT) in cycle 1. Once an apparent MTD was identified, an additional 6 patients were to be entered. Twenty patients (pts) were entered: level I: 3 pts; II: 3 pts; III: 10 pts: IV: 4 pts. The major toxicity was found to be cumulative thrombocytopenia with platelet counts < or = 20,000/microL occurring after cycle 1 at all levels beyond level I and five pts (25%) were removed from treatment solely because of platelet toxicity. Additional serious toxicities included grade 4 stomatitis in one patient (level IV) and cardiac toxicity in 2 patients with prior doxorubicin exposure. Ten pts had measurable and 8 had evaluable disease, and in 17 pts assessed, 5 (29%) achieved an objective response. The response rates in this study are lower than reported in the literature for the combination of DHAD, 5FU, LV and this may be related to the fact that only 40% of the patients were removed from protocol treatment because of disease progression. On the basis of limited DHAD-dose augmentation, toxicities observed, and modest response rate, the filgrastim-supported DHAD, 5FU, LV regimen as utilized in this study cannot be recommended for further development for treatment of women with metastatic breast cancer.
Breast Cancer Res Treat 1997 May
PMID:Mitoxantrone dose augmentation utilizing filgrastim support in combination with fixed-dose 5-fluorouracil and leucovorin in women with metastatic breast cancer. 915 Aug 98

This trial was designed to determine the recommended maximum tolerated dose (MTD), toxicity, pharmacokinetics, and efficacy of docetaxel (Taxotere) and cyclophosphamide (Cytoxan, Neosar) for phase II studies. Both drugs were administered to 39 patients with advanced solid tumors, 26 of whom had breast cancer. Docetaxel doses ranged from 60 to 85 mg/m2 and cyclophosphamide doses ranged from 600 to 800 mg/m2. All patients received steroid prophylaxis. The MTDs for patients with a history of prior chemotherapy were 75 mg/m2 of docetaxel and 700 mg/m2 of cyclophosphamide. For patients with no prior chemotherapy, the MTDs were 75 mg/m2 of docetaxel and 800 mg/m2 of cyclophosphamide. The dose-limiting toxicity was neutropenic fever, observed in 41% of patients and 13% of cycles. Addition of granulocyte colony-stimulating factor (G-CSF, filgrastim [Neupogen]) did not permit further dose escalation, although it did result in briefer periods of neutropenia.
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PMID:Docetaxel and cyclophosphamide in patients with advanced solid tumors. 921 23

To support multicyclic, dose-intensive chemotherapy in breast cancer, we assessed the effects of reinfusing hematopoietic progenitors either as a leukapheresis product or as mobilized unprocessed whole blood. In this clinical study, 16 consecutive female breast cancer patients were given six cycles of chemotherapy regimen EC (epirubicin (150 mg/m2) and cyclophosphamide (1250 mg/m2) on day 1). In the first cycle, 24 h after chemotherapy, mobilization of the peripheral blood progenitor cells (PBPC) was started with growth factor G-CSF (Neupogen; Amgen-Roche) at a dose of 5 microg/kg/day for 13 days. In all other cycles G-CSF had been given at the same dose from day 7. On days 11, 12 and 13 the leukaphereses were performed and their products cryopreserved. On day 14 whole blood was collected. The median peak incidence of CFU-GM (granulocyte-macrophage colony-forming unit) in peripheral blood was approximately 50 times the baseline level. The leukapheresed PBPC were divided into portions and reinfused after the fourth, fifth and sixth chemotherapy courses. The support with mobilized whole blood was given after the second and third cycles. The effects of the support of whole blood vs leukapheresed PBPC on hematopoietic recovery were compared. The best yields of leukaphereses were achieved on day 13 after initiation of the chemotherapy. The mean number of CD34+ cells was 4.93 x 10(6)/kg (s.d. 2.7; range 0.36-10.54 x 10(6)/kg) the amount of CFU-GM was 2.18 x 10(5)/kg (s.d. 1.3; range 0.07-4.2 x 10(5)/kg). The yields of CFU-GM in 450 ml whole blood collected on day 14 reached 0.51 x 10(5)/kg (s.d. 0.28; range 0.05-1.5 x 10(5)/kg) and of CD34+ cells were 1.3 x 10(6)/kg (s.d. 0.8, range 0.18-2.58 x 10(6)/kg). PBPC yields in 450 ml of unprocessed whole blood were in some cases not sufficient for good hematopoietic recovery after the EC cycles. Grade 4 leukopenias and thrombocytopenias were two times higher in cycles with whole blood support than in cycles with cryopreserved PBPC support. An increase of PBPC harvest can be simply achieved by collecting larger amounts of unprocessed blood, as used by some authors.
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PMID:Mobilization of peripheral blood progenitor cells (PBPC) through a combination of chemotherapy and G-CSF in breast cancer patients and a possibility of unprocessed whole blood collection. 948 27

Two forms of recombinant human G-CSF (rhG-CSF) are available for clinical use: filgrastim is expressed in E coli and non-glycosylated, whereas lenograstim is derived from Chinese hamster ovary (CHO) cells and glycosylated. The function of the sugar chain, accounting for approximately 4% of the molecular weight of lenograstim (and native G-CSF), is not known. Glycosylation of the G-CSF molecule does not prolong its circulation half life. Lenograstim is more active than filgrastim (and research-use deglycosylated G-CSF) on a weight-by-weight basis in in vitro colony-forming and cell line assays. An international potency standard assigns a specific activity of 100,000 IU/microgram to filgrastim and 127,760 IU/microgram to lenograstim. Correspondingly, two randomised crossover studies in normal subjects, comparing mass equivalent doses of the two rhG-CSFs, have demonstrated a 25-30% higher concentration of blood stem cells (CD34+, CFU-GM) during lenograstim administration. No difference in side effects was observed. Results from a prospective, randomised, non-crossover trial in breast cancer patients suggest that bioequivalent doses of filgrastim and lenograstim have a similar effect on mobilisation of CD34+ cells and immature CD34+ cell subsets, respectively. Although comparisons outside the setting of stem cell mobilisation are lacking, the clinical relevance of the greater specific activity of lenograstim may thus be limited. The difference in potency between microgram identical doses of the two rhG-CSFs makes dosing in biological units (IU) rather than mass units (microgram) more appropriate.
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PMID:Glycosylated and non-glycosylated recombinant human granulocyte colony-stimulating factor (rhG-CSF)--what is the difference? 995 85

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