Recent advances in tumor carbohydrate biochemistry have demonstrated antitumor effects of locally administered GM3 ganglioside on mouse MBT-2 tumor. When intravesical therapy in N-butyl-N(4-hydroxybutyl)nitrosamine (BBN)-induced rat bladder tumor is attempted, it is essential to identify the tumor, to classify its size before therapy and to monitor the effect of the therapy. To establish a more reliable experimental therapeutic system, we assessed the development of BBN-induced rat-bladder tumor by endoscopic observation. BBN-induced bladder tumors in rats were observed serially using a 4.2-F flexible fiberscope. The endoscopic findings were compared with the histopathological findings. Intravesical tumor growth varied greatly between individual rats. The smallest change detected by endoscopy was a small edematous lesion histologically proved to be papilloma. The largest nodular lesion was determined to be a papillary, transitional cell carcinoma. This noninvasive method makes the BBN rat experimental system more reliable by allowing confirmation of tumor formation and classification of the tumor volume prior to therapy.