A major problem in the management of bladder cancer is the high risk for recurrence of bladder tumors after transurethral resection. This has generally been attributed to the attachment and subsequent expansion of exfoliated tumor cells to the traumatized bladder wall. An in vitro cocultivation model was used to study the implantation and growth of human tumor cells in traumatized murine urothelium. Furthermore, we investigated in a time-course experiment whether stimulation of the regenerative activity of the normal urothelium by a growth factor could affect implantation and subsequent growth of bladder tumor cells. After inoculation on injured confluent cultures of murine urothelium, human T24 and SD bladder carcinoma cells preferentially attached to the denuded areas. SD cells expanded into the normal urothelium as a sharply demarcated tumor, while T24 cells infiltrated as single cells. Treatment of the primary urothelium with epidermal growth factor (EGF) stimulated the proliferation of the primary urothelium and reduced the implantation and growth of T24 considerably. EGF reduced the implantation of the SD tumor cells but could not prevent the further expansion at the expense of surrounding normal urothelium. Since EGF had no effect on migration or proliferation of SD or T24 cells, its modulation of expansive growth is most probably due to an increase in the regeneration of normal urothelium. This study suggests that recurrence of transitional cell carcinomas might in some instances be inhibited by stimulation of the regeneration of traumatized urothelium. The reported in vitro cocultivation model may be useful for studying additional factors involved in intraepithelial expansion of carcinoma cells.