Infravesical outflow obstruction of a duration of 3 days, 10 days and 6 weeks was induced in female rats by a standardized degree of urethral obstruction. A striking ability of the detrusor to respond to an acute obstruction with both smooth muscle cell hypertrophy and hyperplasia leading to an approximately 10-fold increase of the total muscle mass of the bladder wall after 6 weeks of obstruction was found. The maximum relative growth rate was greatest in the bladders subjected to obstruction for only 3 days, and this was also reflected by the concentrations of ornithine decarboxylase and the polyamines spermidine and spermine. The total amount of DNA in the detrusor was already significantly increased after 3 days, while a 9-fold increase was observed in the group subjected to obstruction for 6 weeks. At this time the smooth muscle cell nucleus volume also showed a considerable increase, and a comparison of the nucleus density and the DNA concentration suggested an increased mean DNA content per muscle cell nucleus. The concentration of RNA in the detrusor had already increased significantly after 3 days and also remained so after 10 days and 6 weeks of obstruction, a finding that coincided with the abundant appearance of nucleoli seen at electron microscopic investigation. The previously reported decreased ability to pressure production at small volumes in the rat urinary bladder subjected to an acute infravesical outflow obstruction might thus, at least in part, be due to changed contractile properties of the hypertrophic cells, and/or to an inefficient incorporation of the newly formed smooth muscle cells.