Reduced dose of lenograstim is as efficacious as standard dose of filgrastim for peripheral blood stem cell mobilization and transplantation: a randomized study in patients undergoing autologous peripheral stem cell transplantation

In vitro studies have demonstrated a 27% increased efficacy of lenograstim over filgrastim. However, equal doses of 10 microg/kg/day of filgrastim and lenograstim have been recommended for mobilization of CD34+ cells without associated chemotherapy. In this study, we investigated whether a 25% reduced dose of lenograstim at 7.5 microg/kg/day is equavalent to 10 microg/kg/day filgrastim for autologous peripheral blood stem cell (PBSC) mobilization and transplantation. A total of 40 consecutive patients were randomized to either filgrastim (n = 20) or lenograstim (n = 20). The two cohorts were similar in regard to disease, sex, body weight, body surface area, conditioning regimens, previous chemotherapy cycles and radiotherapy. Each growth factor was administered for 4 consecutive days. The first PBSC apheresis was done on the 5th day. In the posttransplant period, the same G-CSF was given at 5 microg/kg/day until leukocyte engraftment. Successful mobilization was achieved in 95% of patients. Successful mobilization with the first apheresis, was achieved in 10/20 (50%) patients in the filgrastim group versus 9/20 (46%) patients in the lenograstim group. No significant difference was seen in the median number of CD34+cells mobilized, as well as the median number of apheresis, median volume of apheresis, percentage of CD34+ cells, and CD34+ cell number. Leukocyte and platelet engraftments, the number of days requiring G-CSF and parenteral antibiotics, the number of transfusions were similar in both groups in the posttransplant period. Lenograstim 7.5 microg/kg/day is as efficious as filgrastim 10 microg/kg/day for autologous PBSC mobilization and transplantation.     

Effect of lenograstim (glycosylated recombinant human granulocyte-colony stimulating factor) on peripheral blood stem cell mobilization in healthy volunteers

The efficacy and safety of high-dose lenograstim on CD34 positive (CD34+) cell mobilization into peripheral blood were investigated in 18 healthy male volunteers. The volunteers were divided into 3 lenograstim dose groups of 6 subjects each. Lenograstim was administered at a dose of 2, 5, or 10 micrograms/kg/day, b.i.d. by subcutaneous injection for a total of 5 days. The median peak number of CD34+ cells/microliter of blood was 16.3, 53.9, and 96.6 in the 2, 5, and 10 micrograms/kg/day groups, respectively. A positive correlation was observed between the peak CD34+ level and dose of lenograstim (P = 0.002). The percentage of volunteers achieving more than 50 CD34+ cells/microliter of blood was significantly higher in the 10 micrograms/kg/day group (83.3%, P = 0.010) than in the 2 micrograms/kg/day group (0%). On the subject of safety, at least 1 adverse drug reaction (ADR) was observed in each of the volunteers, and a total of 12, 33, and 45 ADRs were observed in the 2, 5, and 10 micrograms/kg/day groups, respectively. A dose-dependent increase in the number of ADRs was also observed, including an elevation of LDH (P < 0.001), bone pain (P < 0.001), and fatigue (P = 0.008). However, no volunteers required symptomatic treatment or discontinuation of lenograstim. We concluded that administration of lenograstim at a dose of 10 micrograms/kg/day for 5 days is highly effective for CD34+ cell mobilization into peripheral blood and tolerable in healthy volunteers.     

Multiple myeloma cell adhesion-induced interleukin-6 expression in bone marrow stromal cells involves activation of NF-kappa B

Peripheral blood (PB) CD34+ cells mobilized by granulocyte colony- stimulating factor (G-CSF) administration are potentially useful for transplantation and as a target of gene transfer for therapy of hematopoietic disorders. Efficient harvest and planning for clinical use of PB CD34+ cells ideally requires foreknowledge of the expected mobilization kinetics and yield. We developed a sensitive flow cytometric assay for accurately enumerating CD34+ cells throughout the range seen at baseline to peak mobilization. We used this assay to assess the kinetics of G-CSF-mediated mobilization of CD34+ cells to PB in normal volunteers and in patients with chronic granulomatous disease (CGD) or adenosine deaminase (ADA)-deficient severe combined immunodeficiency disease (SCID). Two dose levels of G-CSF were examined (5 and 10 micrograms/kg/d for 7 days). Both doses were well tolerated. For normal subjects and patients an increase in PB CD34+ cells was first detected only preceding the third dose of G-CSF (day 3), peaked transiently on day 5 or 6, and then decreased thereafter despite additional doses of G-CSF. With 32 normal volunteers mean peak CD34+ cell counts were 57 and 76 cells/mm2 of blood (5 and 10 micrograms doses, respectively), whereas for 18 CGD patients the mean peaks were 31 and 40 cells/mm2 of blood. For 2 ADA-deficient SCID patients studied at a G-CSF dose of 5 micrograms/kg/d, the average peak was 16 cells/mm2 of blood. For both of these patient groups mobilization of CD34+ cells to PB was impaired compared with similarly treated normal subjects (P < .05). By contrast to the kinetics of the CD34+ cell mobilization, the absolute neutrophil count (ANC) increased markedly by 6 hours after the first dose of G-CSF and then increased steadily through day 8. At days 5 and 6 (peak mobilization of CD34+ cells) the mean ANC of CGD and ADA patients was only slightly lower ( < or = 15%) than that seen with normal subjects, whereas the difference in CD34+ cell mobilization was > 48%. Thus, ANC is not a reliable surrogate to predict peak PB CD34+ cell counts and direct enumeration of PB CD34+ counts should be undertaken in decisions regarding timing and duration of apheresis to harvest a specific number of these cells. Finally, unexpected, but significant differences in the PB CD34+ cell mobilization between normal subjects and patients with inherited disorders can occur and underscores the importance of establishing the expected mobilization of PB CD34+ cells in the planning of treatment approaches using these cells.     

Lenograstim-mobilized peripheral blood progenitor cells in volunteer donors: an open label randomized split dose escalating study

Mobilization of peripheral blood cell progenitor cells was investigated in 36 healthy sibling donors using three different split doses of glycosylated rhG-CSF (lenograstim). The donors were randomized into three groups: group 1 was given lenograstim at 8, group 2 at 11 and group 3 at 15 micrograms/kg/day in two split doses, subcutaneously for 4 and 5 days, respectively. Leukapheresis was performed on day 4 or 5 depending on the WBC and CD34+ cell count. We were able to demonstrate that there was a significant correlation between circulating CD34+ cells on the day of harvest and CD34+ cells in the apheresis products in all three groups. The number of CD34+ cells pre-apheresis was inversely correlated with age in group 1 and group 2. However, in group 3, the number of CD34+ cells pre-apheresis did not correlate with age. There was also a difference between the number of progenitor cells mobilized in the three dose groups regarding the time of harvest. Apheresis was performed in groups 1 and 2 on day 5 of mobilization in order to obtain a sufficient number of stem cells for allogeneic transplantation. In contrast, with the split dose of 15 micrograms/kg/day, harvest could be routinely performed on day 4 of stimulation. We conclude that lenograstim given twice a day at doses of 8, 11 and 15 micrograms/kg/day provided different CD34+ cell yields in normal donors, in particular, with regard to the time of harvest. The number of CD34+ cells pre-apheresis was not correlated with age in the group of donors mobilized with a split dose of 15 micrograms/kg/day, indicating that this dosage might also be suitable for older donors.     

Flt3 ligand and thrombopoietin serum levels during peripheral blood stem cell mobilization with chemotherapy and recombinant human glycosylated granulocyte colony-stimulating factor (rhu-G-CSF,lenograstim) and after high-dose chemotherapy

The purpose of this investigation was to study thrombopoietin (TPO) and Flt3 ligand (FL) serum levels in the course of peripheral blood stem cell (PBSC) mobilization and high-dose chemotherapy (HDC) and to correlate the values with stem cell yield and engraftment. Thirty-nine patients were included. PBSC were mobilized by chemotherapy followed by two body surface area-dependent doses of glycosylated recombinant human granulocyte colony-stimulating factor (rhu-G-CSF, lenograstim). PBSC could be harvested in 35 patients and 30 received a total of 62 courses of HDC (1-3 per patient). Fifty-six were analyzed and TPO and FL serum levels were measured at the start of PBSC mobilization, at the first PBSC collection, on the day of PBSC infusion, and until engraftment. Mean baseline TPO and FL serum levels were 173 pg/ml and 192 pg/ml and increased to 493 and 323 pg/ml at the start of PBSC collection. Maximum values were 2279 pg/ml TPO after HDC 1 and 2375 pg/ml after HDC 2, while the mean maximum serum levels for FL were 1181 and 1236 pg/ml after HDC 1 and 2 and PBSC transfusion, respectively. FL serum levels at the start of PBSC mobilization correlated with the total yield of CD34+ cells (17.61+/-18.8x10(6)/kg body weight, r=0.81), while TPO serum levels on days 11-13 after PBSC infusion were inversely correlated with the amount of transfused CD34+61+62+ cells (r=-0.88 and -0.79 for HDC 1 and 2). There was no strong correlation between TPO or FL serum levels and WBC and platelet engraftment. In conclusion, chemotherapy followed by glycosylated rhu-G-CSF induced elevated serum levels of TPO and to a lower degree of FL at the start of PBSC collection. The maximum increase was 13.7-fold for TPO and 6.4-fold for FL after PBSC infusion indicating endogenous release which should be considered if the clinical use of these cytokines is intended in this setting.     

Results of a phase I/II trial of recombinant human granulocyte- macrophage colony-stimulating factor in very low birthweight neonates: significant induction of circulatory neutrophils, monocytes, platelets, and bone marrow neutrophils

Neonates, especially those of very low birthweight (VLBW), have an increased risk of nosocomial infections secondary to deficiencies in development. We previously demonstrated that granulocyte-macrophage colony-stimulating factor (GM-CSF) production and mRNA expression from stimulated neonatal mononuclear cells are significantly less than that from adult cells. Recombinant murine GM-CSF administration to neonatal rats has resulted in neutrophilia, increased neutrophil production, and increased survival of pups during experimental Staphylococcus aureus sepsis. In the present study, we sought to determine the safety and biologic response of recombinant human (rhu) GM-CSF in VLBW neonates. Twenty VLBW neonates (500 to 1,500 g), aged < 72 hours, were randomized to receive either placebo (n = 5) or rhuGM-CSF at 5.0 micrograms/kg once per day (n = 5), 5.0 micrograms/kg twice per day (n = 5), or 10 micrograms/kg once per day (n = 5) given via 2-hour intravenous infusion for 7 days. Complete blood counts, differential, and platelet counts were obtained, and tibial bone marrow aspirate was performed on day 8. Neutrophil C3bi receptor expression was measured at 0 and 24 hours. GM-CSF levels were measured by a sandwich enzyme-linked immunosorbent assay at 2, 4, 6, 12, and 24 hours after the first dose of rhuGM-CSF. At all doses, rhuGM-CSF was well tolerated, and there was no evidence of grade III or IV toxicity. Within 48 hours of administration, there was a significant increase in the circulating absolute neutrophil count (ANC) at 5.0 micrograms/kg twice per day and 10.0 micrograms/kg once per day, which continued for at least 24 hours after discontinuation of rhuGM-CSF. When the ANC was normalized for each patient's first ANC, there was a significant increase in the ANC on days 6 and 7 at each dose level. By day 7, all tested doses of rhuGM- CSF resulted in an increase in the absolute monocyte count (AMC) compared with placebo-treated neonates. In those receiving rhuGM-CSF 5.0 micrograms/kg twice per day, there was additionally a significant increase in the day 7 and 8 platelet count. Tibial bone marrow aspirates demonstrated a significant increase in the bone marrow neutrophil storage pool (BM NSP) at 5.0 micrograms/kg twice per day and 10.0 micrograms/kg once per day. Neutrophil C3bi receptor expression was significantly increased 24 hours after the first dose of rhuGM-CSF at 5.0 micrograms/kg once per day. The elimination half-life (T1/2) of rhuGM-CSF was 1.4 +/- 0.8 to 3.9 +/- 2.8 hours.(ABSTRACT TRUNCATED AT 400 WORDS)     

Treatment of aplastic anemia in children with recombinant human granulocyte colony-stimulating factor

Twenty children (aged 1 to 17 years) with severe or moderate aplastic anemia were treated with recombinant human granulocyte colony- stimulating factor (rhG-CSF) at a dose of 400 micrograms/m2 per day administered as a 30-minute intravenous (IV) infusion daily for 2 weeks. This treatment increased the neutrophil counts (2.7- to 28.0- fold) in 12 of the 20 patients. Increasing doses (800 or 1,200 micrograms/m2 per day) were administered to five patients who had not responded to the initial dose, and three showed an increase in neutrophil count. Differential counts of bone marrow (BM) aspirates showed an increase in the myeloid/erythroid ratio. The response was transient, however, and the neutrophil count returned to baseline within 2 to 10 days of discontinuing treatment. No severe toxicity attributable to rhG-CSF was observed. The results suggest that this agent is effective in stimulating granulopoiesis in children with aplastic anemia. Our study also indicates that rhG-CSF will be particularly useful in managing patients with aplastic anemia complicated by bacterial or fungal infection.     

Donor demographic and laboratory predictors of allogeneic peripheral blood stem cell mobilization in an ethnically diverse population

A reliable estimate of peripheral blood stem cell (PBSC) mobilization response to granulocyte colony-stimulating factor (G-CSF) may identify donors at risk for poor mobilization and help optimize transplantation approaches. We studied 639 allogeneic PBSC collections performed in 412 white, 75 black, 116 Hispanic, and 36 Asian/Pacific adult donors who were prescribed G-CSF dosed at either 10 or 16 microg/kg per day for 5 days followed by large-volume leukapheresis (LVL). Additional LVL (mean, 11 L) to collect lymphocytes for donor lymphocyte infusion (DLI) and other therapies was performed before G-CSF administration in 299 of these donors. Day 5 preapheresis blood CD34(+) cell counts after mobilization were significantly lower in whites compared with blacks, Hispanics, and Asian/Pacific donors (79 vs 104, 94, and 101 cells/microL, P < .001). In addition, donors who underwent lymphapheresis before mobilization had higher CD34(+) cell counts than donors who did not (94 vs 79 cells/microL, P < .001). In multivariate analysis, higher post-G-CSF CD34(+) cell counts were most strongly associated with the total amount of G-CSF received, followed by the pre-G-CSF platelet count, pre-G-CSF mononuclear count, and performance of prior LVL for DLI collection. Age, white ethnicity, and female gender were associated with significantly lower post-G-CSF CD34(+) cell counts.     

Peripheral blood stem cell mobilization and apheresis: analysis of adverse events in 94 normal donors

Adverse events were analyzed in 94 normal donors who underwent PBSC harvest with G-CSF. The median dose of G-CSF was 9.7 microg/kg/day (range, 2.0-16.7), and the duration of administration was 4-6 days. Frequent symptoms were bone pain (71%), general fatigue (33%), headache (28%), insomnia (14%), anorexia (11%), nausea and/or vomiting (11%). One donor (1%) developed grade 3 toxicity bone pain (WHO criteria). WBC counts and ANC increased during G-CSF administration. After leukapheresis, three donors (3%) developed grade 3 toxicity neutropenia. Platelet counts decreased after leukapheresis. Three donors (3%) developed grade 3 thrombocytopenia. The means of both ALP and LDH increased approximately 1.9-fold compared with pretreatment levels. In one pediatric donor (1%), ALP was elevated to the grade 3 toxicity level. From multivariate analysis, the incidence of bone pain increased when G-CSF was given at a dose of 8.8 microg/kg/day or more, headaches were frequent in donors younger than 35 years, and the incidence of nausea and/or vomiting was high in female donors. The peak levels of WBC counts and ANC and post-treatment level of LDH increased in correspondence with the escalation of G-CSF dose. All adverse events normalized on follow-up evaluation. In conclusion, although PBSC harvest for normal donors is acceptable, care must be taken for all donors in terms of their sex and age as well as the G-CSF dose. We recommend less than 8.8 microg/kg/day as the G-CSF dose for PBSC mobilization in normal donors.     

Factors associated with granulocyte colony-stimulating factor-induced peripheral blood stem cell yield in healthy donors

BACKGROUND AND OBJECTIVES: Poor collection results are a clinical problem in granulocyte-colony stimulating factor (G-CSF)-induced peripheral blood stem cell (PBSC) collection in healthy donors. It would be beneficial to be able to predict the PBSC yield from allogeneic donors before mobilization or harvesting. MATERIALS AND METHODS: We examined the relationship between certain donor characteristics and the effectiveness of G-CSF-induced PBSC collection in 59 healthy family donors aged 3-63 years old (median 16 years). G-CSF was administered subcutaneously at 10 microg/kg for mobilization, daily for 5 days, and PBSC harvest using a continuous blood cell separator was started on day 5 of G-CSF treatment. Total cell yields were calculated as the number per unit of processed blood (l) per unit weight of the donor (kg). RESULTS: In a univariate analysis, the donor's age, body mass index (BMI), white blood cell (WBC) count before mobilization, and platelet count before and during mobilization were significantly correlated with the yield of mononuclear cells (MNC), CD34(+) cells and granulocyte-macrophage colony-forming units (GM-CFU). Younger age (P < 0.001), a low BMI (P = 0.002), a high WBC count before mobilization (P = 0.004), a high platelet count before (P = 0.012) and during (P < 0.05) mobilization, and a low speed of withdrawal (P = 0.019) were associated with a higher CD34(+) cell yield. No significant correlation was found for gender, the type of G-CSF, the serum level of G-CSF, the type of cell separator, or the type of blood access. A multivariate forward and backward stepwise selection regression analysis showed that the factors associated with CD34(+) cell yield were age, platelet count before and during mobilization, and circulating CD34(+) cell concentration on day 2 of G-CSF treatment. CONCLUSION: In this small preliminary study, we found that donor age is the most important factor in predicting G-CSF-induced PBSC yields. Old age and low platelet counts before mobilization might be useful indicators for identifying poor mobilizers. Further validation of these findings in a larger number of donors are needed to establish whether these findings apply to other populations.     

Effects of low doses of recombinant human granulocyte-macrophage colony stimulating factor (GM-CSF) in patients with myelodysplastic syndromes

There has been no previously published experience with granulocyte-macrophage colony stimulating factor (GM-CSF) doses less than 12 micrograms/m2 daily in patients with myelodysplastic syndromes, and most observations have been made at doses greater than or equal to 120 micrograms/m2 daily. We administered 5 micrograms/m2 daily by subcutaneous injection to 29 such patients increasing the dose in patients who did not show a haematologic response. Doses of 5 or 10 micrograms/m2 ('low-dose GM-CSF') produced an increase in neutrophils in 14/29 patients. Response was significantly (P = 0.03) more frequent in patients who had a higher pre-treatment neutrophil count (e.g. 11/16 in patients with greater than or equal to 0.5 x 10(9)/l). A rise in blasts followed administration of low-dose GM-CSF in five patients, all with either refractory anaemia with excess blasts (RAEB) or refractory anaemia with excess blasts in transformation (RAEBT). Platelets decreased in five patients, four of whom had no change in blasts, reverting to baseline when GM-CSF was discontinued. We and others have previously observed similar rises in blasts or decreases in platelets at doses of 120 micrograms/m2 daily. Low-dose GM-CSF produced no constitutional side effects. Our results suggest that low doses of GM-CSF might be initially employed in neutropenic patients with myelodysplastic syndromes who present with pretreatment neutrophil counts greater than 0.5 x 10(9)/l. Increasing the dose, and hence the risk of extramedullary toxicity, only in patients who do not respond to the low dose. Patients who present with lower pre-treatment neutrophil counts might begin treatment at doses above 10 micrograms/m2, but below the 120 micrograms/m2 commonly employed, which may be necessary in relatively few patients.     

The VAD chemotherapy regimen plus a G-CSF dose of 10 microg/kg is as effective and less toxic than high-dose cyclophosphamide plus a G-CSF dose of 5 microg/kg for progenitor cell mobilization: results from a monocentric study of 82 patients

A study was conducted to compare the efficiency and toxicity of two peripheral blood stem cell (PBSC) mobilization procedures for newly diagnosed patients with multiple myeloma. Patients from group 1 (n=51) were treated by high-dose cyclophosphamide (HD-CY) plus G-CSF (5 microg/kg/day), and the second group (n=31) by VAD regimen plus G-CSF administration (10 microg/kg/day). Successful mobilization, defined by a minimal count of 2.5 x 10(6) CD34(+) cells/kg collected, was achieved in 96 and 90% of patients in groups 1 and 2, respectively (P=0.15). The mean peripheral blood CD34(+) cells concentration and the mean CD34(+) cells/kg collected were higher in group 2 than in the group 1 (P=0.05). The mean number of leukaphereses necessary to collect a count of 2.5 x 10(6) CD34(+) cells/kg was reduced in group 2 compared to group 1. Adverse events, blood products consumption and time spent in the hospital were significantly greater after HD-CY. In conclusion, VAD plus a G-CSF dose of 10 microg/kg administration seems preferential to HD-CY plus a G-CSF dose of 5 microg/kg for PBSC collection because of equivalent or better efficiency in stem cell mobilization, strong favorable toxicity profile and reduced cost.     

Phase I study of echinomycin administered on an intermittent bolus schedule

We have conducted a phase I study of the cyclic peptide echinomycin (Quinomycin A) on a schedule of administration of once every 4 weeks. Ten dose levels between 20 and 1800 micrograms/m2 were studied. Acute gastrointestinal toxicity, thrombocytopenia, and transient elevations of serum transaminases occurred at doses of greater than or equal to 1000 micrograms/m2. Gastrointestinal toxicity was severe and dose-limiting in several patients at doses of 1800 micrograms/m2. Thrombocytopenia was erratic, but generally increased with drug doses. Platelet count nadirs occurred 5-10 days after administration. Hepatic toxicity was reflected in transient elevations of serum transaminases without hyperbilirubinemia. Three patients experienced apparent anaphylactic reactions to doses of 1500 micrograms/m2. The maximum tolerated single dose of echinomycin was 1800 micrograms/m2. A starting phase II dose of 1500 micrograms/m2 is recommended.     

Single Dose Preemptive Plerixafor for Stem Cell Mobilization for ASCT After Lenalidomide Based Therapy in Multiple Myeloma: Impact in Resource Limited Setting

Peripheral blood stem cell mobilization with cytokines for autologous stem cell transplant in multiple myeloma is adversely affected by initial induction therapy consisting of either Lenalidomide or cytotoxic drugs, with failure rates of up to 45%. The use of Plerixafor with G-CSF for PBSC mobilisation significantly improves the chances of a successful mobilization. Plerixafor is a costly therapy and increases the overall costs of ASCT which can affect the number of patients being taken up for ASCT in resource limited settings. We prospectively studied the impact of single dose preemptive Plerixafor for PBSC mobilization in patients with prior Lenalidomide exposure. 26 patients who had received Lenalidomide based induction protocol underwent PBSC mobilisation during the study period with G-CSF 10 μg/kg/day SC for 4 days and single dose preemptive Plerixafor 240 μg/kg SC stat 11 h before the scheduled PB stem cell harvest on D5, based on a D4 PB CD34+ counts of <20/μL. A median of 07 cycles of Lenalidomide based combination therapy was used for induction therapy prior to ASCT. 84% patients underwent successful mobilization with one sitting of stem cell harvest post a single dose of Inj Plerixafor. 7.6% patients failed to mobilise the predefined minimum cell dose of CD34 and could not be taken up for ASCT. The median CD34% of the harvest bag sample was 0.33% (0.1–0.97%). Injection site erythema (34%), paresthesia’s (34%) and nausea (30%) were the commonest adverse events reported post Inj Plerixafor. We did a real-world cost analysis for a resource limited setting for PBSC mobilization and found significant cost savings for the preemptive Plerixafor group.     

Effect of Filgrastim Administration for Steady‐State Mobilization of Peripheral Blood Stem Cells

Abstract: To obtain a better (optimal) schedule of peripheral blood stem cell (PBSC) collection by steady‐state granulocyte colony‐stimulating factor administrations for autologous or allogeneic transplantations, we compared the effect of doses of filgrastim (8 μg/kg/day versus 16 μg/kg/day) for the steady‐state mobilization of PBSCs. The effects of a filgrastim dose of 8 μg/kg/day were not significantly different from those of a dose of 16 μg/kg/day. In the group of patients receiving 8 μg/kg/day, the CD34⁺ cells over 3 × 10⁶/kg donor body weight were harvested in 3 patients who did not have a long history of receiving combination chemotherapy. The administration of 8 μg/kg filgrastim was adopted also for allogeneic PBSC mobilization for 24 healthy donors. All healthy donors donated an adequate number of PBSCs (CD34⁺ cells over 4 × 10⁶/kg of recipient body weight) and tolerated this mobilization well with no serious complications. In PBSC mobilization with healthy donors, the maximal yields of CD34⁺ cells from Day 4 to Day 6 were seen on the fifth day in most cases.     

Allogeneic peripheral blood stem cell versus bone marrow transplantations: CD34+ cell mobilisation,graft composition,immune reconstitution and clinical outcome

The use of peripheral blood, after G-CSF mobilization, as a source of allogeneic hematopoietic stem cells is being increasingly considered. Some significant data were given by 3 large randomized trials comparing bone marrow (BM) and peripheral blood stem cells (PBSC). Numbers of CD34+ and CD3+ harvested cells were significantly higher in PBSCT group and the hematopoietic recovery was significantly faster after PBSCT. While the American trial showed significant increased rates of acute GVHD and an higher survival and disease-free survival in favour of PBSC, the 2 other studies showed a significant increase of chronic GVHD after PBSCT. The French group investigated whether there was a correlation between cellular composition of PBSC and outcome after transplant. Neither hematological recovery, acute or chronic GVHD nor disease relapse, were significantly associated with CD3+ cell doses. However, high CD34+ cell doses (>8.3×10⁶/Kg) were associated with faster hematopoietic recovery and higher probability of extensive cGVHD at 5 years and DFS was significantly higher in patients receiving low CD34+ cell dose. In parallel, in this study, we evaluated and compared different immune parameters in the graft and after transplantation. Absolute values of mononuclear cells/kg were significantly higher in PBSC grafts than in BM grafts. Analysis of CD25, CD95, HLA-DR and CD45RA expression showed that PBSC grafts T cells exhibited a lower activation level. We found no preferential G-CSF-induced mobilisation of so-called “suppressive” CD3+ cells. In contrast, G-CSF reduced 2- to 3-fold the frequency of IFN-gamma-, IL-2- and TNF-alpha-secreting cells within the NK, NK-T and T-cell subsets and severely reduced the potential for IFN-gamma production at the single-cell level. Thirty days after transplantation, T-cell blood counts were 3-fold higher after PBSC. After PBSCT, T cells were less activated, and at day 30 CD4+, CD8+, CD45RA+ counts were correlated with the number of mononuclear cells infused with the graft, this was not observed after BMT. We showed that Anti-A and/or anti-B Ab titers were significantly increased in PBSCT vs BMT recipients at day 30 and mostly after minor ABO mismatch transplant. PBSCT were significantly associated with increased detection of anti-HLA antibodies early after transplantation. This difference was further increased when analysis was restricted to anti-HLA IgG Ab-negative donor/recipient pairs. The higher number of B cells in the PBSC could be associated with enhanced Ab production early after transplantation. Regarding mini-allotransplants, in France, in a retrospective analysis, we did not show any difference between PBSC and BM in term of disease response, chimerism and overall survival but a significant impact of number of CD34+ cells on early chimerism after transplant. This kind of tranplant might include donor lymphocyte infusion (DLI) strategy and we showed in our center that previous PBSC donation selectively impaired the yields of total MNC and total CD3+ cells recovery after donation but did not affect neither CD19+ nor CD3? CD56+ recoveries when compared to the cohort of BM donations. The use of G-CSF mobilised peripheral blood, as a source of allogeneic stem cells is increasingly considered, especially for mini-allotransplants which justify further studies to identify the different biological characteristics of this source and its clinical impact. *** DIRECT SUPPORT *** A00RC002 00004     

Autologous peripheral stem cell transplantation in a patient with diffuse systemic sclerosis: our experience

The diffuse form of systemic sclerosis (SSc) can often lead to a rapidly progressive course with the involvement of the visceral organs which causes a severe prognosis. The 5-years cumulative mortality is between 30 and 60%, depending on the clinic form at the onset. Until now, no drug treatment has been proved to be efficacious against the progression of the disease or the regression of the fibrosis. Recently autologous peripheral blood stem cell (PBSC) transplantation has been found to be promising. We introduce the case of a patient, male, 56 years old, who came under our observation on February 2001, suffering from a SSc with a severe multisystem involvement of lungs, skin, heart and gastrointestinal tract, and a positive antibodies anti-Scl-70. The 8 months therapy, at first with iloprost and cyclophosphamide, then with bolus of cyclophosphamide, was ineffective, with a rapid worsening of the cutaneous and pulmonary involvement. Under the patient agreement we decided to carry out an autologous PBSC transplantation. On December 2001, we obtained the PBSC mobilization after the administration of cyclophosphamide and lenograstim and the PBSC recovery with two leucoaferesis procedures. On February 2002, we gave the conditioning therapy with: thiotepa, cyclophosphamide, fludarabine, rabbit antilymphocytic globulin; then we made the infusion of PBSC. The bone marrow recovery (GN >500 and PLT >20.000) arrived at the day + 10. For three months after the transplantation we made an antibacterial, antiviral and antifungin prophylaxis with valacocyclovir, co-trimoxazole and fluconazole. The one-year follow-up has shown an essentially good response with the improving of the skin involvement and of the subjective indicators of the disease, while the pulmonary involvement don't seen modified from the high dose therapy.     

An open-label, unit dose-finding study of AMG 531, a novel thrombopoiesis-stimulating peptibody, in patients with immune thrombocytopenic purpura

Abstract The objective of this open label, phase 1-2, multicentre trial was to evaluate the safety of AMG 531, a novel thrombopoiesis-stimulating peptibody, and its effect on platelet counts in adults with immune thrombocytopenic purpura. Four patients were assigned to each of four unit-dose cohorts: 30, 100, 300 or 500 microg, administered subcutaneously on days 1 and 15 (or day 22 if the day 15 platelet count was >50 x 10(9)/l). Safety was assessed by adverse event (AE) monitoring, clinical laboratory studies and antibody assays. Platelet response was defined as a platelet count double the baseline value and between 50 and 450 x 10(9)/l. Sixteen patients (10 women) were enrolled. The 500-microg cohort was discontinued because the first patient's platelet count became unacceptably high. AEs were generally expected and mild or moderate; the most frequent was headache (eight of 16 patients). Two patients experienced serious AEs related to AMG 531 (severe headache and elevated serum lactic dehydrogenase; thrombocytopenia). Platelet responses occurred with all doses and with a dose equivalent to >/=1 microg/kg in eight of 11 patients. In summary, patients tolerated AMG 531 well at the doses tested. No anti-AMG or antithrombopoietin antibodies were detected. Doses equivalent to >/=1 microg/kg increased platelet counts.     

GM-CSF-based mobilization effect in normal healthy donors for allogeneic peripheral blood stem cell transplantation

It is important to optimize methods to mobilize hematopoietic stem cells into peripheral blood (PB) for successful allogeneic peripheral blood stem cell (PBSC) transplantation. Our primary intent was to investigate the role of GM-CSF for mobilization in normal healthy donors and to compare its efficacy in mobilizing stem cells alone, in concurrent combination and in sequential combination with G-CSF in this study. We analyzed the results of the PBSC harvest through large volume leukapheresis from 48 normal healthy donors mobilized by three different regimens including GM-CSF. Donors were assigned sequentially to one of the following regimens for mobilization: GM-CSF 10 microg/kg/day alone (group 1, n = 9); concurrent combination (group 2, n = 20) of G-CSF 5 microg/kg/day and GM-CSF 5 microg/kg/day; sequential combination (group 3, n = 19) of GM-CSF alone 10 microg/kg/day for 3 days followed by G-CSF alone 10 microg/kg/day for 2-3 days. The harvested CD34(+) cell count (P < 0.05) was statistically higher in group 3 than in group 1 or 2. Pre-collection WBC count in donors (P < 0.05), harvested MNC (P < 0.05) and CD3(+) cell count (P < 0.05) of group 2 or 3 were significantly higher than those of group 1. Recipients who received stem cells mobilized with combination regimens showed an earlier recovery of WBC and platelets count than those with GM-CSF alone. The incidence of acute graft-versus-host disease was not statistically different among three recipient groups. GM-CSF-based mobilization was well tolerated in normal healthy donors. The sequential combination regimen appears to be an excellent mobilization strategy and might be preferred as the optimal method in some clinical situations that need a higher number of stem cells.     

Progenitor cell yield in sequential blood stem cell mobilization in the same patients: insights into chemotherapy dose escalation and combination of haemopoietic growth factor and chemotherapy

Between April 1988 and March 1994 a total of 23 patients with haematological or non-haematological malignancies received serial peripheral blood stem cell (PBSC) mobilization to attain sufficient harvest for PBSC transplant at our institution. There was no improvement in yield with the second mobilization for group A patients ( n  = 12) who had the same dose of cyclophosphamide twice as mobilizing agent. For group B patients ( n  = 6), who had a higher dose of cyclophosphamide with the second mobilization, there was significant increase in CFU-GM yield. CD34⁺ cell yield was not measured. For group C patients, who received interleukin-3 plus granulocyte-macrophage colony-stimulating factor (GM-CSF) with the first mobilization and chemotherapy plus GM-CSF with the second, there was significant increase in CFU-GM as well as CD34⁺ cell yield.   Our results demonstrate that, at the doses studied, chemotherapy dose escalation and combining haemopoietic growth factor with chemotherapy improve progenitor cell yield in PBSC mobilization.