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Bibliography
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Demirer, T., C. D. Buckner, T. Gooley, et al. 1996. "Factors influencing collection of peripheral blood stem cells in patients with multiple myeloma." Bone Marrow Transplant 17(6):937-941.
This study was performed to determine the factors influencing the collection of autologous peripheral blood stem cells (PBSC) in patients with multiple myeloma (MM) who had disease which had progressed after an initial response or who had refractory disease. Fifty-seven patients with MM underwent PBSC collections following recombinant human granulocyte colony stimulating factor (G-CSF) alone (n = 19) (16 micrograms/kg/day), cyclophosphamide (CY) (4 gm/m2 x 1) with either G-CSF (10 micrograms/kg/day) (n = 7) or granulocyte-macrophage colony-stimulating factor (GM-CSF) (500 micrograms/m2/day) (n = 7) or cyclophosphamide (4 gm/m2 x 1) and etoposide (200 mg/m2/day x 3) (CE) with G-CSF (10 micrograms/kg/day) (n = 24). The goal was to collect 5 x 10(6) CD34+ cells/kg. Fifty of 57 patients underwent autologous transplantation with PBSC alone (n = 39) or PBSC + marrow (n = 11). The median yield of CD34+ cells was 7 x 10(6)/kg (range 0-178.3). Thirty-nine of 57 patients (68%) achieved the target level of 5 x 10(6) CD34+ cells/kg in a median of three (range 1-8) collections. Eighteen (32%) patients yielded < 5 x 10(6) CD34+ cells/kg with the first collections. Thirteen of these 18 patients yielded < 2.5 x 10(6) and five yielded 2.5-4.95 x 10(6) CD34+ cells/kg. Of the 18 patients with less than optimal CD34+ cell yields, five with CD34+ yields of 2.5-4.95 x 10(6)/kg received PBSC alone at transplant, six underwent marrow storage to augment the PBSC dose and received PBSC plus marrow and seven patients underwent secondary collections. Of seven patients who underwent second (n = 5) or third (n = 2) cycles of PBSC collections using G-CSF 16 (n = 4) or 32 (n = 3) micrograms/kg/day, > 2.5 x 10(6) CD34+ cells/kg were collected in four patients. Two patients achieved < 0.18 CD34+ cells following three cycles of mobilization. In a linear regression model, an increased percentage of marrow involvement and prior radiotherapy (RT) were statistically significantly associated with a low CD34+ cell collection yield (P = 0.003, and 0.01, respectively). A mobilization regimen of CE plus G-CSF was associated with a significantly higher yield of CD34+ cells as compared to patients receiving G-CSF alone (P = 0.02). CY with G or GM-CSF was not significantly different than G-CSF alone (P = 0.49). Twenty-two of 24 (92%) patients receiving CE with G-CSF achieved a target level of 5 x 10(6) CD34+ cells/kg or more as compared to 11 of 19 (58%) patients receiving G-CSF alone (P = 0.01) and six of 14 (43%) patients receiving CY with G or GM-CSF (P = 0.001). These data suggest that percentage of marrow involvement, prior radiotherapy, and number of prior chemotherapy regimens are important predictors of PBSC yield in patients with MM. These data also suggest that CE plus G-CSF is superior to G-CSF alone or CY plus G/GM-CSF based on mean daily CD34+ cell collection yield. Higher doses of G-CSF (16-32 micrograms/kg/day) can result in adequate CD34+ cell collections in some secondary attempts in patients with MM failing an initial mobilization regimen.
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Sola, C., P. Maroto, R. Salazar, et al. 1999. "Bone Marrow Transplantation: Prognostic Factors of Peripheral Blood Stem Cell Mobilization with Cyclophosphamide and Filgrastim (r-metHuG-CSF): The CD34+ Cell Dose Positively Affects the Time to Hematopoietic Recovery and Supportive Requirements after High-Dose Chemotherapy." Hematology 4(3):195-209.
To prospectively analyze factors that influence peripheral blood stem cell (PBSC) collection and hematopoietic recovery after high-dose chemotherapy (HDC), 39 patients received cyclophosphamide 4 g/m(2) and rHuG-CSF (Filgrastim) 5 &mgr;g/kg/day. Leukapheresis was started when CD34(+) cells/mL were > 5 x 10(3). A minimum of 2 x 10(6) CD34(+) cells/kg was collected. Median steady-state bone marrow CD34(+) cell percentage was 0.8% (range, 0.1 to 6). Thirty-two patients received HDC with autologous PBSC transplantation plus Filgrastim. A median of 2 (range, 0 to 6) leukapheresis per patient were performed and a median of 6.3 x 10(6) CD34(+) cells/kg (range, 0 to 44.4) collected; four patients failed to mobilize CD34(+) cells. The number of cycles of prior chemotherapy had an inverse correlation with the number CD34(+) cells/kg collected (r = -0.38; p < 0.005). Patients with <7 cycles had a higher predictability for onset of leukapheresis than patients with (3) 7 (93% versus 50%; p < 0.005). The four patients who failed to mobilize had received >/=7 cycles. The number of CD34(+) cells/kg infused after HDC had an inverse correlation with days to recovery to 0.5 x 10(9) neutrophils/L and 20 x 10(9) platelets/L (r = -0.68 and -0.56; p < 0.005). The effect of these factors on mobilization and hematopoietic recovery were confirmed by multivariate analysis. Requirements for supportive measures were significantly lower in patients given a higher dose of CD34(+) cells/kg. Therefore, PBSC collection should be planned early in the course of chemotherapy. Larger number of CD34(+) cells/kg determined a more rapid hematopoietic recovery and a decrease of required supportive measures.
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Kumar, S., A. Dispenzieri, M. Q. Lacy, et al. 2007. "Impact of lenalidomide therapy on stem cell mobilization and engraftment post-peripheral blood stem cell transplantation in patients with newly diagnosed myeloma." Leukemia 21(9):2035-2042.
While initial therapies have become highly effective with introduction of lenalidomide and bortezomib and patients may opt for delayed stem cell transplantation, it is important to collect stem cells for future transplant. Given its increasing use as initial therapy, we examined if lenalidomide had any impact on the ability to collect peripheral blood stem cells (PBSC). We studied the entire cohort of patients with myeloma undergoing PBSC mobilization at our institution during a 5-year period, comparing the results between patients receiving different initial therapies. Among those mobilized with granulocyte-colony stimulating factor (G-CSF) alone, there was a significant decrease in total CD34(+) cells collected (P <0.001), average daily collection (P <0.001), day 1 collection (P <0.001) and increased number of aphereses (P=0.004) in patients treated with lenalidomide compared to those receiving dexamethasone, thalidomide-dexamethasone or VAD. A similar trend was seen in those mobilized with chemotherapy and G-CSF. A trend was seen towards decreased PBSC yield with increasing duration of lenalidomide therapy as well as increasing age (P=0.002). There was no effect on quality of PBSC collected based on similar engraftment across all groups. We recommend collection of PBSC within 6 months of initiation of therapy with lenalidomide containing regimens to minimize the risk of mobilization failures.
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Alexeev S, Babenko E, Estrina M, Mikhailova N, Zubarovskaya L, Afanasyev B. fitoussi Cellular Therapy Transplantation. 2009;1(3):61-5.
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Fermand, J. P., P. Ravaud, S. Chevret, et al. 1998. "High-dose therapy and autologous peripheral blood stem cell transplantation in multiple myeloma: up-front or rescue treatment? Results of a multicenter sequential randomized clinical trial." Blood 92(9):3131-3136.
Results to date indicate that high-dose therapy (HDT) with autologous stem cell support improves survival of patients with symptomatic multiple myeloma (MM). We performed a multicenter, sequential, randomized trial designed to assess the optimal timing of HDT and autotransplantation. Among 202 enrolled patients who were up to 56 years old, 185 were randomly assigned to receive HDT and peripheral blood stem cell (PBSC) autotransplantation (early HDT group, n = 91) or a conventional-dose chemotherapy (CCT) regimen (late HDT group, n = 94). In the late HDT group, HDT and transplantation were performed as rescue treament, in case of primary resistance to CCT or at relapse in responders. PBSC were collected before randomization, after mobilization by chemotherapy, and, in the two groups, HDT was preceded by three or four treatments with vincristine, doxorubicin, and methylprednisolone. Data were analyzed on an intent-to-treat basis using a sequential design. Within a median follow-up of 58 months, estimated median overall survival (OS) was 64.6 months in the early HDT group and 64 months in the late group. Survival curves were not different (P = .92, log-rank test). Median event-free survival (EFS) was 39 months in the early HDT group whereas median time between randomization and CCT failure was 13 months in the late group. Average time without symptoms, treatment, and treatment toxicity (TWiSTT) were 27.8 months (95% confidence interval [CI]; range, 23.8 to 31.8) and 22.3 months (range, 16.0 to 28.6) in the two groups, respectively. HDT with PBSC transplantation obtained a median OS exceeding 5 years in young patients with symptomatic MM, whether performed early, as first-line therapy, or late, as rescue treatment. Early HDT may be preferred because it is associated with a shorter period of chemotherapy.
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Koc, O. N., S. L. Gerson, B. W. Cooper, et al. 2000. "Randomized cross-over trial of progenitor-cell mobilization: high-dose cyclophosphamide plus granulocyte colony-stimulating factor (G-CSF) versus granulocyte-macrophage colony-stimulating factor plus G-CSF." J Clin Oncol 18(9):1824-1830.
PURPOSE: Patient response to hematopoietic progenitor-cell mobilizing regimens seems to vary considerably, making comparison between regimens difficult. To eliminate this inter-patient variability, we designed a cross-over trial and prospectively compared the number of progenitors mobilized into blood after granulocyte-macrophage colony-stimulating factor (GM-CSF) days 1 to 12 plus granulocyte colony-stimulating factor (G-CSF) days 7 to 12 (regimen G) with the number of progenitors after cyclophosphamide plus G-CSF days 3 to 14 (regimen C) in the same patient. PATIENTS AND METHODS: Twenty-nine patients were randomized to receive either regimen G or C first (G1 and C1, respectively) and underwent two leukaphereses. After a washout period, patients were then crossed over to the alternate regimen (C2 and G2, respectively) and underwent two additional leukaphereses. The hematopoietic progenitor-cell content of each collection was determined. In addition, toxicity and charges were tracked. RESULTS: Regimen C (n = 50) resulted in mobilization of more CD34(+) cells (2.7-fold/kg/apheresis), erythroid burst-forming units (1.8-fold/kg/apheresis), and colony-forming units-granulocyte-macrophage (2.2-fold/kg/apheresis) compared with regimen G given to the same patients (n = 46; paired t test, P <.01 for all comparisons). Compared with regimen G, regimen C resulted in better mobilization, whether it was given first (P =.025) or second (P =.02). The ability to achieve a target collection of > or =2x10(6) CD34(+) cells/kg using two leukaphereses was 50% after G1 and 90% after C1. Three of the seven patients in whom mobilization was poor after G1 had > or =2x10(6) CD34(+) cells/kg with two leukaphereses after C2. In contrast, when regimen G was given second (G2), seven out of 10 patients failed to achieve the target CD34(+) cell dose despite adequate collections after C1. Thirty percent of the patients (nine of 29) given regimen C were admitted to the hospital because of neutropenic fever for a median duration of 4 days (range, 2 to 10 days). The higher cost of regimen C was balanced by higher CD34(+) cell yield, resulting in equivalent charges based on cost per CD34(+) cell collected. CONCLUSION: We report the first clinical trial that used a cross-over design showing that high-dose cyclophosphamide plus G-CSF results in mobilization of more progenitors then GM-CSF plus G-CSF when tested in the same patient regardless of sequence of administration, although the regimen is associated with greater morbidity. Patients who fail to achieve adequate mobilization after regimen G can be treated with regimen C as an effective salvage regimen, whereas patients who fail regimen C are unlikely to benefit from subsequent treatment with regimen G. The cross-over design allowed detection of significant differences between regimens in a small cohort of patients and should be considered in design of future comparisons of mobilization regimens.
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Morris, C. L., E. Siegel, B. Barlogie, et al. 2003. "Mobilization of CD34+ cells in elderly patients (>/= 70 years) with multiple myeloma: influence of age, prior therapy, platelet count and mobilization regimen." Br J Haematol 120(3):413-423.
The mobilization of peripheral blood stem cells was studied in 984 multiple myeloma patients, including 106 patients aged >/= 70 years. Increasing age correlated inversely with CD34+ yield (P < 0.0001), but also with >/= 12 months of prior standard chemotherapy (P = 0.0001), < 200 x 10(9)/l platelets (P = 0.0006) premobilization and mobilization with growth factors only (P = 0.0001). After controlling for these age covariates, multivariate analysis identified /= 200 x 10(9)/l premobilization as favourable variables (both P < 0.0001), while increasing patient age remained an unfavourable factor (P = 0.0009). With both favourable variables, 85% of elderly patients collected >/= 4 x 10(6)/kg CD34+ cells in a median of one collection. The effect of age was incremental with no age threshold showing acceleration in the decline of CD34+ yield. Chemotherapy significantly increased CD34+ yield compared with growth factors only. However, the subgroup of patients with > 12 months prior therapy and premobilization platelet count < 200 x 10(9)/l mobilized as many CD34+ cells with granulocyte colony-stimulating factor (G-CSF) alone as with chemotherapy and haematopoietic growth factors. Increasing patient age had no effect on post-transplant neutrophil recovery, but significantly delayed platelet recovery ( >/= 50 x 10(9)/l) if < 2 x 10(6)/kg CD34+ cells were infused, but this effect was eliminated completely with infusion of >/= 4 x 10(6)/kg CD34+ cells. Increasing age adversely affected CD34+ yield even with limited premobilization therapy, indicating that early collection is important in elderly patients.
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To, L. B., D. N. Haylock, T. Dowse, et al. 1994. "A comparative study of the phenotype and proliferative capacity of peripheral blood (PB) CD34+ cells mobilized by four different protocols and those of steady-phase PB and bone marrow CD34+ cells." Blood 84(9):2930-2939.
Peripheral blood (PB) CD34+ cells from four commonly used mobilization protocols were studied to compare their phenotype and proliferative capacity with steady-state PB or bone marrow (BM) CD34+ cells. Mobilized PB CD34+ cells were collected during hematopoietic recovery after myelosuppressive chemotherapy with or without granulocyte-macrophage colony-stimulating factor (GM-CSF) or granulocyte colony-stimulating factor (G-CSF) or during G-CSF administration alone. The expression of activation and lineage-associated markers and c-kit gene product were studied by flow cytometry. Proliferative capacity was measured by generation of nascent myeloid progenitor cells (granulocyte-macrophage colony-stimulating factor; CFU-GM) and nucleated cells in a stroma-free liquid culture stimulated by a combination of six hematopoietic growth factors (interleukin-1 (IL-1), IL-3, IL-6, GM-CSF, G-CSF, and stem cell factor). G-CSF-mobilized CD34+ cells have the highest percentage of CD38- cells (P < .0081), but otherwise, CD34+ cells from different mobilization protocols were similar to one another in their phenotype and proliferative capacity. The spectrum of primitive and mature myeloid progenitors in mobilized PB CD34+ cells was similar to their steady-state counterparts, but the percentages of CD34+ cells expressing CD10 or CD19 were lower (P < .0028). Although steady-state PB and chemotherapy-mobilized CD34+ cells generated fewer CFU-GM at day 21 than G-CSF-mobilized and steady-state BM CD34+ cells (P < .0449), the generation of nucleated cells and CFU-GM were otherwise comparable. The presence of increased or comparable numbers of hematopoietic progenitors within PB collections with equivalent proliferative capacity to BM CD34+ cells is not unexpected given the rapid and complete hematopoietic reconstitution observed with mobilized PB. However, all four types of mobilized PB CD34+ cells are different from steady-state BM CD34+ cells in that they express less c-kit (P < .0002) and CD71 (P < .04) and retain less rhodamine 123 (P < .0001). These observations are novel and suggest that different mobilization protocols may act via similar pathways involving the down-regulation of c-kit and may be independent of cell-cycle status.
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To, L. B., K. M. Shepperd, D. N. Haylock, et al. 1990. "Single high doses of cyclophosphamide enable the collection of high numbers of hemopoietic stem cells from the peripheral blood." Exp Hematol 18(5):442-447.
We used single high doses of cyclophosphamide (4 g/m2) to produce rebound increases in peripheral blood (PB) stem cells (PBSC) during recovery from myelosuppression, enabling their collection by apheresis for later autotransplantation. Thirty-three courses of cyclophosphamide were given to 30 patients with malignant lymphoma, multiple myeloma, or solid tumors. The neutrophil count was less than 0.5 x 10(9)/liter for a mean of 6.9 days (median 7 days), and fever occurred in 17 of 33 courses. Positive blood cultures occurred in two patients, one of whom died. The mean peak level of PB granulocyte-macrophage colony-forming units (CFU-GM) was 1517 x 10(3)/liter (median 2447 x 10(3)/liter), a 14-fold increase above the mean in normal subjects. The peak occurred at a mean of 16.6 days (median 16 days) after cyclophosphamide, generally coinciding with the time to reach 1.0 x 10(9) neutrophils per liter. Normal or minimally involved bone marrow and a rapid rise in leukocyte count during recovery were independent variables correlated to the peak of the rebound increase in PB CFU-GM levels. Previous chemotherapy and the duration of neutropenia were additional independent variables in the group with peak PB CFU-GM levels of greater than 1000 x 10(3)/liter. The mean total CFU-GM collected after a mean of five aphereses was 43.8 x 10(4)/kg body weight (BW) (median 35.5 x 10(4)/kg BW), significantly correlated with the mononuclear cell yield. We conclude that single 4 g/m2 doses of cyclophosphamide effectively produce high levels of PBSC, particularly but not exclusively in patients with normal or minimally involved bone marrow and who have not had intensive recent chemotherapy.
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Alegre, A., J. F. Tomas, C. Martinez-Chamorro, et al. 1997. "Comparison of peripheral blood progenitor cell mobilization in patients with multiple myeloma: high-dose cyclophosphamide plus GM-CSF vs G-CSF alone." Bone Marrow Transplant 20(3):211-217.
The best method for peripheral blood progenitor cell (PBPC) mobilization in patients with multiple myeloma (MM) remains controversial. We report the results of two different methods of PBPC collection for autologous transplantation in 40 patients with stage II or III MM. In group I (n = 18), HD-CY, 4 g/m2 i.v., was administered followed by GM-CSF, 8 microg/kg/day s.c., until the end of collection, starting the leukaphereses after hematological recovery ( >1 x 10(9)/l WBC). In group II (n = 22), G-CSF, 10 microg/kg/day s.c., was used alone until the last day of collection, starting consecutive aphereses on the 5th day. A minimum of two aphereses were performed to collect at least 2 x 10(6)/kg CD34+ cells. Both patient groups were comparable for age, sex and clinical prognostic features as well as previous therapies. In group I, the median yields per pheresis were: MNC 1.47 (1.38-2.32) x 10(8)/kg, CFU-GM 0.82 (0.18-13.2) x 10(4)/kg and CD34+ cells 1.98 (0.96-6.96) x 10(6)/kg. In group II these results were: MNC 2.44 (2.06-3.6 x 10(8)/kg) (P = 0.03), CFU-GM 0.75 (0.16-7.8) x 10(4)/kg and CD34+ 1.05 (0.32-3.4) x 10(6)/kg (P = 0.02). The median number of aphereses performed in each group was 5 (4-12) with a median of 5.24 +/- 2.51 in group I and 3 (2-6) with a median of 3.1 (+/- 0.91) in group II (P = NS). Hospitalization for PBPC mobilization was required in all patients in group I and the treatment-related toxicity was greater in this group: 12 patients (66%) developed fever requiring antibiotics during the neutropenic period after HD-CY and six (33%) patients required transfusion support. After receiving busulfan 12 mg/kg p.o. and melphalan 140 mg/m2 i.v., as the conditioning regimen, the median periods to reach granulocytes ( >0.5 x 10(9)/l) and platelet ( >20 x 10(9)/l) engraftment were 12 and 11 days respectively (ranges 8-20 and 10-16) in group I (HD-CY plus GM-CSF group), and 11 and 13 days respectively (ranges 7-42 and 10-38) in group II (G-CSF group) (P = NS). In conclusion, these data suggest that although HD-CY plus GM-CSF is superior to G-CSF alone based on mean CD34+ cell yield per pheresis, adequate CD34+ cell collections can be achieved with G-CSF alone in most MM patients with less toxicity and with simplification of the procedure.
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Arora, M., L. J. Burns, J. N. Barker, et al. 2004. "Randomized comparison of granulocyte colony-stimulating factor versus granulocyte-macrophage colony-stimulating factor plus intensive chemotherapy for peripheral blood stem cell mobilization and autologous transplantation in multiple myeloma." Biol Blood Marrow Transplant 10(6):395-404.
Autologous peripheral blood stem cell transplantation for multiple myeloma offers higher response rates and improved survival compared with conventional chemotherapy. However, successful autografting requires effective cytoreduction and rapid hematologic reconstitution. We conducted a prospective randomized clinical trial to assess the efficacy of 2 cycles of priming chemotherapy with either granulocyte colony-stimulating factor (G-CSF) or granulocyte-macrophage colony-stimulating factor (GM-CSF) for peripheral blood stem cell mobilization followed by autologous transplantation. The major study end points were the comparative utility of G-CSF versus GM-CSF, the percentage of patients achieving complete response after transplantation, and overall and progression-free survival. Priming chemotherapy included cyclophosphamide (4 g/m2), mitoxantrone (8 g/m2 every day for 2 days), and dexamethasone (20 mg/m2 every 12 hours for 2 days) followed by randomization to either G-CSF or GM-CSF daily until completion of leukapheresis. Conditioning for transplantation included cyclophosphamide (75 mg/kg every day for 2 days) plus total body irradiation (165 cGy twice daily for 3 days), and patients received maintenance immunotherapy with interferon alpha. Seventy-two patients were randomized, and 64 underwent autologous transplantation. The median age at transplantation was 52 years, and the median time from diagnosis to transplantation was 10 months; 58% of the patients had received >4 cycles of pretransplantation chemotherapy. The median number of CD34+ cells obtained after mobilization was 16.4 x 10(6)/kg in the G-CSF arm versus 12.8 x 10(6)/kg in the GM-CSF arm (P = .8). Neutrophil recovery was faster in the G-CSF group after both cycle 1 (median, 13 days with G-CSF and 16 days with GM-CSF; P < .01) and cycle 2 (median, 13 days versus 17 days in the 2 groups, respectively; P = .03). Although platelet recovery was similar after cycle 1, platelet recovery to >100000/microL was notably faster in the G-CSF group both after cycle 2 and after transplantation (P = .03). Response and overall and disease-free survival were similar in both cohorts. Overall, 23% of the patients achieved a complete response after priming chemotherapy, which improved to 33% after transplantation. An additional 47% attained a partial response after transplantation, for a total response rate of 80%. With a median follow-up of 2 years (range, 0.7-8 years), the overall survival was 88% (95% confidence interval [CI], 80%-96%) at 1 year and 65% (95% CI, 51%-79%) at 3 years. Progression-free survival was 73% (95% CI, 62%-84%) at 1 year and 40% (95% CI, 26%-54%) at 3 years. Relapse or progressive disease was the most common cause of death (25 [83%] of 30 deaths). We conclude that mobilization with chemotherapy plus G-CSF versus GM-CSF results in similar CD34+ progenitor collections, even in patients exposed to multiple cycles of alkylator-based chemotherapy. Earlier neutrophil and platelet recovery was seen with G-CSF priming. Two cycles of priming chemotherapy plus autologous transplantation yields survival rates similar to those in published reports, including those using tandem transplantation.
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Hiwase, D. K., G. Bollard, S. Hiwase, et al. 2007. "Intermediate-dose CY and G-CSF more efficiently mobilize adequate numbers of PBSC for tandem autologous PBSC transplantation compared with low-dose CY in patients with multiple myeloma." Cytotherapy 9(6):539-547.
BACKGROUND: Autologous PBSC transplantation is the standard care for patients with multiple myeloma. The most common regimen used to mobilize PBSC consists of CY and G-CSF. METHODS: We retrospectively analyzed the efficacy and toxicity of two regimens of CY for PBSC mobilization: low-dose CY (1-2 g/m(2), LD-CY, n=61) plus G-CSF, and intermediate-dose CY (3-4 g/m(2), ID-CY, n=26) plus G-CSF. RESULTS: In the LD-CY group, 5.17 (0.23-17.3)x10(6) CD34(+) cells/kg, and in the ID-CY group 7.71 (0.08-26.4)x10(6) CD34(+) cells/kg (P=0.018), were collected. Although >/=2x10(6)/kg CD34(+) cells were collected in 89% of the LD-CY group and 92% of the ID-CY group, this was achieved after a single leukapheresis in 54% of the LD-CY group and 92% of the ID-CY group (P=0.0001). Patients who are to have tandem autologous PBSC transplants require >/=4x10(6)/kg CD34(+) cells. This was achieved in only 65% patients in the LD-CY group but 88% in the ID-CY group (P=0.05). Among patients who had not had prior melphalan and/or >12 months of prior treatment, 74% in the LD-CY group and 100% in ID-CY group mobilized >/=4x10(6)/kg CD34(+) cells. Febrile neutropenia was more frequent in the ID-CY group (38% vs. 13%). DISCUSSION: In conclusion, compared with LD-CY, patients receiving ID-CY were more likely to collect a total CD34(+) cell number adequate for tandem autologous PBSC transplantation. The increased toxicity was manageable and considered acceptable.
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Rowlings, P. A., J. L. Bayly, C. M. Rawling, et al. 1992. "A comparison of peripheral blood stem cell mobilisation after chemotherapy with cyclophosphamide as a single agent in doses of 4 g/m2 or 7 g/m2 in patients with advanced cancer." Aust N Z J Med 22(6):660-664.
We used cyclophosphamide at a dose of 7 g/m2 in patients with advanced cancer and compared the efficacy of this treatment to generate peripheral blood stem cells (PBSC) with the previously reported regimen of cyclophosphamide 4 g/m2 in a similar group of patients. None of these patients received haemopoietic growth factors. Twenty-two patients received 7 g/m2 and 37 received 4 g/m2. PBSC were collected by apheresis after the leukocyte count recovered to 1.0 x 10(9)/L. The yield of colony forming unit-granulocyte macrophage (CFU-GM) was higher for the 7 g/m2 group with a median of 35 x 10(4)/kg versus 15 x 10(4)/kg body weight (BW) (p < 0.05) and higher mononuclear cell yield with medians of 4.2 x 10(8)/kg compared with 3.1 x 10(8)/kg BW (p < 0.001). The percentage of patients achieving the minimum safe level of > 15 x 10(4) CFU-GM/kg BW was higher in the 7 g/m2 cyclophosphamide group (82%) than the 4 g/m2 cyclophosphamide group (51%). The duration of significant neutropaenia was a median of 11 compared with nine days (p < 0.004) and all patients receiving 7 g/m2 required admission to hospital and intravenous antibiotic therapy compared with 44% in the 4 g/m2 group. There was one death during the period of neutropaenia after cyclophosphamide in each group. Nineteen per cent of patients required platelet transfusions after cyclophosphamide 7 g/m2 compared with 18% after 4 g/m2. We conclude that the 7 g/m2 cyclophosphamide gives a higher yield of haemopoietic progenitor cells than the 4 g/m2 but at increased clinical toxicity.
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Jantunen, E., M. Putkonen, T. Nousiainen, et al. 2003. "Low-dose or intermediate-dose cyclophosphamide plus granulocyte colony-stimulating factor for progenitor cell mobilisation in patients with multiple myeloma." Bone Marrow Transplant 31(5):347-351.
Cyclophosphamide (CY) combined with granulocyte colony-stimulating factor (G-CSF) is commonly used to mobilise blood progenitor cells to support high-dose therapy in patients with multiple myeloma (MM). The optimal dose of CY in this setting is unknown. We have retrospectively analysed mobilisation efficiency and need for supportive care in 57 patients with newly diagnosed myeloma previously treated with VAD+/-local radiotherapy. The patients were mobilised either with low-dose CY (LD-CY, 1.2-2 g/m(2)) (n=25) or intermediate-dose CY (ID-CY, 4 g/m(2)) (n=32) plus G-CSF. Both regimens proved to be effective in the progenitor cell mobilisation. At least 2 x 10(6)/kg CD34+ cells were collected from 88% and 84% of the patients with a single apheresis, respectively. Only one patient in the LD-CY group (4%) failed to mobilise vs none in the ID-CY group. Patients mobilised with LD-CY plus G-CSF had less toxicity: fewer hospital days during the mobilisation and apheresis procedures (5 vs 9 days, P <0.001), lower frequency of fever (20 vs 73%, P <0.001) and less need for supportive care including platelet transfusions (0 vs 24%, P=0.004) and days on parenteral antibiotics (0 vs 4 days, P <0.001). While these regimens seem to be equally effective in terms of progenitor cell mobilisation in newly diagnosed patients with MM, LD-CY+G-CSF is preferential because of more optimal resource utilisation and more favourable toxicity profile.
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Petrucci, M. T., G. Avvisati, G. La Verde, et al. 2003. "Intermediate-dose cyclophosphamide and granulocyte colony-stimulating factor is a valid alternative to high-dose cyclophosphamide for mobilizing peripheral blood CD34+ cells in patients with multiple myeloma." Acta Haematol 109(4):184-188.
Peripheral blood stem cells (PBSC) are widely used in the setting of dose-intensive chemotherapies in patients with multiple myeloma (MM). Although the granulocyte colony-stimulating factor (G-CSF), following chemotherapy or not, is considered the standard growth factor for mobilizing PBSC, the optimal chemotherapeutic regimen still remains to be defined. Cyclophosphamide (CTX) is an effective drug in the treatment of MM which is capable of mobilizing PBSC if followed by growth factors, even though administration of high-dose CTX (7 g/m(2)) results in severe toxicity requiring hospitalization and increasing costs. We have retrospectively analyzed the results obtained in 38 newly diagnosed MM patients treated with 1.2 g/m(2) CTX on days 1 and 3 combined with 40 mg dexamethasone daily for 4 days. The results were compared with those obtained in 25 newly diagnosed MM patients treated with 7 g/m(2) CTX. A higher number of CD34+ cells/kg was collected during the first leukapheresis and a statistically significant lower consumption of G-CSF was observed following two doses of 1.2 g/m(2) CTX compared to the 7 g/m(2) CTX dose. The possibility of treating patients with day-hospital regimens, with a satisfactory yield of hematopoietic cells harvested, may have relevant economic implications for treatment strategies in MM patients.
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Fitoussi, O., V. Perreau, J. M. Boiron, et al. 2001. "A comparison of toxicity following two different doses of cyclophosphamide for mobilization of peripheral blood progenitor cells in 116 multiple myeloma patients." Bone Marrow Transplant 27(8):837-842.
High-dose cyclophosphamide (HDC) has been shown to be an effective regimen for collecting PBPC in multiple myeloma (MM) patients, but the optimal dose to be used remains controversial. Two historical cohorts of MM patients who received G- or GM-CSF and HDC at the dose of either 7 g/m(2) (HDC7, n = 74) or 4 g/m (HDC4, n = 42) were compared. As patients in the HDC4 group were more likely to have received G-CSF than GM-CSF (P < 10(-3)) and fewer previous alkylating agents (P = 0.004), multivariate logistic regression analysis was performed. In the HDC4 group, patients had a shorter median duration of neutropenia (P < 10(-4)), fewer RBC (P < 10(-3)) and platelet transfusions (P < 10(-3)) with fewer patients with platelets <20 x 10(9)/l (P = 0.004). Moreover, fewer febrile episodes (P < 10(-3)) and less need of intravenous antibiotics (P < 10(-3)) were found in the HDC4 group. No statistical difference was observed with regard to CD34(+) cell collection efficiency. Thus, the use of HDC at the dose of 4 g/m(2) for the collection of PBPC in MM patients decreases hematological and extrahematological toxicity with an equivalent CD34(+) cell collection efficiency.