Bone marrow transplantation
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Bone Marrow Transplant. · Apr 2000
Autologous stem cell transplantation in multiple myeloma after VAD and EDAP courses: a high incidence of oligoclonal serum Igs post transplantation.
Thirty-seven patients with multiple myeloma (stage II and III, 65% increased beta2-microglobulin level) were prospectively treated with a median of 3.7 VAD courses (range 2-8) followed by cyclophosphamide (6 g/m2) in conjunction with G-CSF (5 microg/kg filgrastrim (n = 14), or 3.5 microg/kg lenograstrim (n = 22)), and peripheral stem cell (PSC) isolation. After regeneration this was followed by one EDAP course and high-dose melphalan (HDM, 200 mg/m2) in combination with re-infusion of PSC. Adequate stem cell mobilization was obtained with both G-CSF regimens. ⋯ In 73% of the patients new oligoclonal or monoclonal serum bands were noticed 3 months post transplantation. IgG-lambda and IgG-kappa bands predominated. In 48% of the cases the oligoclonal Igs disappeared after a median follow-up of 22 months (range 8-36), whereas in 52% of the cases the oligoclonal Igs persisted with a median follow-up of 31 months (range 21-45), which did not correlate with a significant difference in overall, and event-free survival between both subgroups.
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Bone Marrow Transplant. · Apr 2000
Multicenter Study Comparative StudyA dose escalation study of total body irradiation followed by high-dose etoposide and allogeneic blood stem cell transplantation for the treatment of advanced hematologic malignancies.
Since approximately 30% of leukemia patients relapse after allogeneic BMT using total body irradiation (TBI)-based preparative regimens, treatment intensity may be suboptimal. The killing of leukemia cells is proportional to the radiation absorbed dose. We studied the feasibility and toxicity of escalating the doses of fractionated TBI above our previous prescription of 13.5 Gy. ⋯ The 100-day treatment-related mortality rates were 9% and 20% for the 14.4 Gy and 15.3 Gy cohorts, respectively, and the median survivals were 226 and 201 days, respectively. We conclude that TBI dose escalation above the previously used 13.5 Gy dose is feasible using a high-energy source and high-dose etoposide. Acute and chronic toxicities were primarily related to GVHD, infection and relapse rather than to TBI.
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Bone Marrow Transplant. · Apr 2000
Multi-purpose silastic dual-lumen central venous catheters for both collection and transplantation of hematopoietic progenitor cells.
Autologous peripheral blood progenitor cell (PBPC) transplantation frequently requires sequential placement and use of two separate central venous catheters: (1) a short-term, large-bore, stiff device inserted for leukapheresis, and after removal of that device, (2) a long-term, multi-lumen, flexible, Silastic catheter for administration of high-dose chemotherapy, re-infusion of hematopoietic cells, and intensive supportive care. We reviewed our recent experience with two dual-lumen, large-bore, Silastic multi-purpose ('hybrid') catheters, each of which can be used as a single device for both leukapheresis and long-term supportive care throughout the transplant process. Quinton-Raaf PermCath and Bard-Hickman hemodialysis/apheresis dual-lumen catheters were used as the sole venous access device in 112 consecutive patients who underwent autologous PBPC collection and transplantation. ⋯ Cost analysis comparing the hybrid catheters alone vs conventional devices revealed a charge of $4230 in patients with hybrid catheters vs. $7530 in those requiring a temporary non-Silastic dialysis catheter in addition to a flexible, long-term Silastic catheter. Hybrid, Silastic, dual-lumen, large-bore central venous catheters are safe, cost-effective and convenient multi-purpose venous access devices that may be used in the setting of autologous PBPC collection and transplantation. The rate of thrombotic, infectious and mechanical complications appears comparable to other central venous access devices.
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Bone Marrow Transplant. · Apr 2000
Clinical Trial Controlled Clinical TrialHematological recovery and peripheral blood progenitor cell mobilization after induction chemotherapy and GM-CSF plus G-CSF in breast cancer.
In order to determine the effect of GM-CSF plus G-CSF in combination in breast cancer patients receiving an effective induction regimen, we compared hematological recovery and peripheral blood progenitor cell (PBPC) mobilization according to colony-stimulating factor (CSF) support. Forty-three breast cancer patients were treated by TNCF (THP-doxorubicin, vinorelbine, cyclophosphamide, fluorouracil, D1 to D4) with CSF support: 11 patients received GM-CSF (D5 to D14); 16 patients G-CSF (D5 to D14) and 16 patients GM-CSF (D5-D14) plus G-CSF (D10-D14). ⋯ The GM-CSF plus G-CSF combination led to better PBPC mobilization, with significantly different kinetics (P<0.001) and optimal mean values of CFU-GM, CD34+ cells and cells in cycle, at D15 compared to those obtained with G-CSF or GM-CSF alone. The significantly greater PBPC mobilization obtained with a CSF combination by D15 could be of value for PBPC collection and therapeutic reinjection after high-dose chemotherapies.
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Bone Marrow Transplant. · Mar 2000
Clinical TrialA phase II study of two cycles of high-dose chemotherapy with autologous stem cell support in patients with metastatic breast cancer who meet eligibility criteria for a single cycle.
Multi-cycle high-dose chemotherapy with autologous stem cell support (HDC-ASCS) may improve the results obtained with single-cycle HDC-ASCS in metastatic breast cancer (MBC). However, the tolerability and efficacy of additional cycles of HDC-ASCS in patients selected using standard eligibility criteria for single cycle HDC-ASCS is uncertain. Twenty-nine patients with MBC and a CR or PR to induction chemotherapy were selected by standard institutional eligibility criteria for single-cycle HDC-ASCS. ⋯ These data show that a second cycle of full-dose intensity HDC-ASCS may increase the proportion of patients with MBC that achieve CR and may increase PFS. However, a large proportion of patients that complete HDC-ASCS cycle I may fail to proceed to cycle II in a timely fashion. Bone Marrow Transplantation (2000) 25, 519-524.