Autologous stem cell transplantation has become an important therapy in lymphoma, multiple myeloma and solid tumors. The rationale for the selection of CD34+ cells from peripheral blood or bone marrow progenitor cell collections is based on the observation that contaminating tumor cells can be depleted approximately 3 to 6 logs. This procedure may be limited because of lack of sufficient numbers of progenitor cells in the leukapheresis concentrates. The use of frozen/thawed peripheral blood mononuclear cell (PBMC) samples makes it possible to pool two or even more stem cell harvests collected at different time points to increase the total number of CD34+ progenitor cells. We report in this work the feasibility of frozen/thawed peripheral blood CD34+ positive cell selection, using the large-scale (Ceprate SC) and the lab-scale avidin-biotin immunoadsorption system (Ceprate LC). This procedure consists of a washing step and a positive selection step. Our results show that frozen/thawed CD34+ cells were obtained with a purity of 86.68 +/- 3.62%, a viability of 97.94 +/- 0.97% and a recovery of 91.85 +/- 10.84% (range 80 to 112%). The CFU-GM assays were performed in a methylcellulose based medium; 89.13 +/- 19.63 colonies were obtained for 10(3) cells plated. Two patients were grafted with peripheral blood CD34+ cells selected after freezing. Our clinical data show that these cells are capable of rapidly reconstituting hematopoiesis after high-dose chemotherapy.