With the aim of developing a model mimicking the relapse of patients transplanted with leukemia-contaminated grafts, myelomonocytic leukemia WEHI-3B D+ cells were first transduced with a retroviral vector encoding the low-affinity human nerve growth factor receptor (NGFr). Clones with a stable and homogeneous expression of the transgene and with a similar in vitro behavior to the parental cell line were selected for further experiments. The analysis of bone marrow (BM) contaminated with WEHI-3B/NGFr cells revealed a linear correlation (r2 = 0.999) between the actual values of BM contamination and the experimental data determined by flow cytometry. Balb/c mice were myeloablated and transplanted with syngenic BM contaminated with graded numbers of leukemic cells; dose-dependent survival curves were obtained, regardless of whether parental or WEHI-3B/NGFr cells were infused. The leukemia dissemination in recipients transplanted with WEHI-3B/NGFr contaminated grafts was easily determined by means of simple flow cytometry analysis of the NGFr marker. A leukemia dose-dependent increase in the number of PB leukocytes was observed in transplanted recipients at 20 days post-transplantation with no changes in myelomonocytic cells. As deduced from our observations, the transplantation of syngenic BM contaminated with WEHI-3B/NGFr cells constitutes an improved model of autograft-mediated leukemia relapse and a good tool for studies of leukemia cell purging.