Although recent molecular investigations have identified a number of genetic alterations that are associated with the development of pituitary adenomas, the exact pathogenesis mechanism of these tumors remains largely unknown. In this study, we used a genome-wide survey to detect specific genetic changes within the genome of pituitary adenomas. A series of 10 growth hormone-secreting adenomas were analyzed for their genetic imbalances on all 22 autosomes by comparative genomic hybridization (CGH). Chromosomal imbalances were detected in 8 GH-secreting adenomas, whereas 2 tumors had no detectable genetic abnormalities. Chromosome gains were more frequent than losses. Overrepresentation of whole or parts of chromosomes were detected in 5/10 (50%) in 19, 3/10 (30%) in each of 5, 9, and 22q, 2/10 (20%) in 17p12-q21, whereas DNA loss were 3/10 (30%) in 13q and 2/10 (20%) in 18. No detectable gain or loss of genetic material was observed in chromosomes 7, 8, 10, 12, 15, and 20. The findings of overrepresentation of chromosomes 5q, 9p, 17q and DNA loss of chromosome 18 were consistent with those detected in nonfunctioning adenomas (Daniely M, Aviram A, Adams EF, et al:J Clin Endocrinol Metab 83:1801-1805, 1998) suggesting that the development of pituitary tumors, at least in somatotroph and nonfunctioning adenomas, may share common pathway. Frequent amplifications in chromosomes 19 and 22q imply that candidate genes residing in these chromosomal regions may be involved in the pathogenesis of GH-secreting adenomas.