The aims of the present study were to compare genetic aberrations in primary sarcomas and their pulmonary metastases and to explore the pathways associated with disease spreading. The primary tumor and its subsequent pulmonary metastasis of 22 patients were analyzed by comparative genomic hybridization. All samples were obtained before the initiation of chemo-or radiotherapy. The mean total number of aberrations per tumor was 7.6 (range, 0-17) in primary tumors and 7.5 (range, 0-19) in metastases. The mean numbers of high-level amplifications per tumor were similar (0.32 in primary tumors and 0.36 in metastases). The frequencies of the most common aberrations were relatively similar in primary tumors and metastases: the most frequent gain affected 1q (minimal common regions 1q21-q23 in 36% of primary tumors and 1q21 in 45% of metastases). The most frequent losses were detected at 9p (9p22-pter in 32% of primary tumors and 9p21-pter in 32% of metastases), 10p (10p11.2-p12 in 41% of primary tumors and 10p11.2-pter in 32% of metastases), 11q (11q23-qter in 36% of primary tumors and 32% of metastases), and 13q (13q14-q21 in 45% of primary tumors and 50% of metastases). No aberrations specific to metastases were detected. An increase in the total number of changes during progression was a predominant feature in a majority of these paired samples. Also, the number of differences in the genetic profile outnumbered common changes in a majority of the samples. However, despite the heterogeneous and numerous changes, all pairs with aberrations in both specimens had some shared alterations in both samples.