Thawing of cryopreserved hematopoietic progenitor cells from apheresis with a new dry-warming device.

BACKGROUND: Current thawing techniques of cryopreserved progenitor cells are based on the use of a water bath. The aim of this study has been to assess the progenitor cell viability and the time of hematopoietic engraftment after transplantation of cell products thawed with a new dry-thawing device. STUDY DESIGN AND METHODS: In the preclinical phase, two cryobags from the same patient were thawed with the standard technique and with the dry system method in parallel (n=5, Protocol A and Protocol B, respectively). In the clinical phase, cryobags were thawed with the dry system and the time to hematopoietic engraftment after autologous transplantation (n=52) was compared with those of a control group of patients whose progenitor cell products were thawed with the standard technique (n=52). RESULTS: There were no statistical differences in nuclear and CD34+ cell viability, total colony-forming cells, and cloning efficiency after thawing with Protocols A and B. Days to neutrophil (>0.5×10(9) and >1×10(9) /L) and platelet engraftment (>20×10(9) and >50×10(9) /L) were not different between patients transplanted with products thawed with Protocols A and B. CONCLUSION: Progenitor cell viability and function are preserved with this dry-thawing system. The time to hematopoietic engraftment of patients after transplantation is comparable to those infused with progenitor cells thawed with the water bath technique. Thawing cell products without the use of water and in a dry environment might favor the use of this dry method.

Allogeneic and autologous bone marrow transplantation after consolidation therapy in high-risk acute myeloid leukemia in children. Towards a risk-oriented therapy.

BACKGROUND AND OBJECTIVES: Although chemotherapy in childhood acute myeloid leukemia (AML) has improved in the last decade, except for a group of better-risk patients (approximately one third), more than half the other patients relapse. The main objective of this study was to evaluate the results obtained with bone marrow transplants, either allogeneic (allo-BMT) or autologous (auto-BMT), following two intensive consolidation courses in a series of children with high-risk (HR) AML according to morphologic and early-response BFM criteria. A second objective was to compare the results of auto-BMT with those of allo-BMT. DESIGN AND METHODS: From April 1988 to May 2001, 79 children (< 15 years old) with de novo AML entered the prospective AML-88 trial in a single institution: 50 (63%) were qualified as having high-risk disease and are the subject of this study. After 1 or 2 induction courses, depending on early response, and two consolidations, patients with an HLA-identical sibling received an allo-BMT and all the others an auto-BMT. The conditioning regimen was cyclophosphamide and total body irradiation (TBI) in children over 3 years old and busulfan and etoposide in younger children. Bone marrow was purged with mafosfamide in auto-BMT and cyclosporine alone was given as graft-versus-host disease (GVHD) prophylaxis in allo-BMT. RESULTS: At the end of the chemotherapy phase (induction and consolidation ), 46 of the 50 HR patients (92%) had attained complete remission (CR) after one (n=29), two (n=11) or three (n=6) courses; 2 more were in partial remission (PR) and 2 had died. The 48 patients in CR or PR received either an allo-BMT (17) or an auto-BMT (31). Hematologic reconstitution was significantly slower in auto-BMT recipients. Forty-one percent of patients who received allo-BMT suffered acute GVHD grades II-IV. Toxic deaths and relapse rates were 5.9% and 17.6%, respectively, in allo-BMT and 3.2% and 25.8%, respectively, in auto-BMT. Post-transplant 8-year event-free survival (EFS) was 74.5% (54-96) in allo-BMT and 74.2% (59-89) in auto-BMT. EFS and OS in all the series (50 patients) were 71% (59-83) and 73% (61-85), respectively, with a median follow-up of 7.2 years. INTERPRETATION AND CONCLUSIONS: This study indicates that improved results in children with HR-AML can be obtained by either allo- or auto-BMT performed after two courses of intensive consolidation therapy provided good supportive therapy is given and reduced transplant -related mortality (TRM) is minimized.

FK506 in the maturation of dendritic cells.

BACKGROUND AND OBJECTIVES: FK506 (tacrolimus) is a potent immunosuppressive agent that inhibits interleukin-2 (IL-2) and interferon-g production by CD4+ cells. The effect of this agent on dendritic cells (DCs), the highly professional antigen-presenting cells for T-cells, has not been completely defined. We investigated the effect of FK506 on DC differentiation from monocytes, and on the shift from immature to mature immunophenotypes. DESIGN AND METHODS: DCs were generated in vitro from monocytes of healthy donors. Cells were exposed to lipopolysaccharide (LPS) and two doses of FK506, with variations in time of exposure and sequence of FK506 and LPS addition. Immunophenotype analysis in immature and mature DCs under FK506 treatment was performed by flow cytometry at the end of cell culture. The Student's t-test was used for statistical analyses. RESULTS: FK506 did not affect dendritic cell generation or viability. There were no changes in cell surface markers with addition of FK506 at physiologic concentrations (10 ng/mL). We found a decrease in CD1a median fluorescence intensity (MFI) and an increase in percentage of CD86-positive cells with lengthy exposure (6 days) to FK506 at 5000 ng/mL. In the sequential study, 5000 ng/mL FK506 before LPS addition resulted in a significant decrease in CD1a MFI and in the percentage of cells co-expressing CD83 and CD86. INTERPRETATION AND CONCLUSIONS: Our results indicate that lengthy exposure to 5000 ng/mL FK506 modified the expression of some DC-cell surface markers, maintaining DCs in a low maturity stage.