Hematopoietic stem cells can be collected from the peripheral blood. These hematopoietic stem cells (HSC), or better progenitor cells, are mostly expressed as the percentage of cells than react with CD34 antibodies or that form colonies in semi-solid medium (CFU-GM). Under steady-state conditions the number of HSC is much lower in peripheral blood than in bone marrow. Mobilization with chemotherapy and/or growth factors may lead to a concentration of HSC in the peripheral blood that equals or exceeds the concentration in bone marrow. Transplantation of HSC from the peripheral blood results in faster hematologic recovery than HSC from bone marrow. This decreases the risk of infection and the need for blood-product support. For autologous stem-cell transplantation (SCT), the use of peripheral blood cells has completely replaced the use of bone marrow. For allogeneic SCT, on the other hand, the situation is more complex. Since peripheral blood contains more T-lymphocytes than bone marrow, the use of HSC from the peripheral blood increases the risk of graft-versus-host disease after allogeneic SCT. For patients with goodrisk leukemia, bone marrow is still preferred, but for patients with high-risk disease, peripheral blood SCT has become the therapy of choice.
For prediction of hematologic recovery after autologous PBPC transplantation, determination of CFU-GM dose does not add to the predictive value of the CD34+ dose.
Tandem cycles of myeloablative chemotherapy can increase dose intensity and total dose of chemotherapy, but sufficient numbers of progenitor cells must be collected to ensure hematologic recovery after each treatment. This study was undertaken to determine if two courses of mobilizing chemotherapy given 4 weeks apart using cyclophosphamide 4000 mg/m2 and etoposide 400 mg/m2, combined with G-CSF 5-10 mg/kg on days 3-16 could each provide sufficient numbers of peripheral blood progenitor cells to support tandem cycles of myeloablative chemotherapy in 20 patients with stage IV breast cancer. Leukapheresis of blood with WBC > 1000/mm3 was performed daily for up to five collections (days 12-16), and mononuclear cells, CFU-GM, and CD34+ cells were compared between the first and second collections. The second course of mobilizing treatment resulted in similar numbers of mononuclear cells collected but far fewer CFU-GM and CD34+ progenitor cells. This prevented using the second collection of progenitor cells as the sole source for the second transplant. The data suggest that a second course of cyclophosphamide, etoposide, and G-CSF given 4 weeks after the first leads to progenitor cell depletion, and efforts to increase the yield of blood-derived progenitors should focus on the initial mobilizing procedure.
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