Alterations at microsatellite DNA markers in cells exfoliated in urine have been correlated to the presence of bladder cancer. To check the feasibility of such noninvasive analysis to routinely diagnose bladder cancers, we have developed a highly sensitive method using fluorescent PCR to search for DNA microsatellite alterations in urine sediment compared with a blood paired sample. One hundred eighty-three patients were included in our study. This population comprised 103 bladder cancers (64 pTa stages), the complement representing controls and other benign or malignant diseases. Results of the analysis at 17 loci in a blinded study were compared with cystoscopy and/or pathology. The high reproducibility of this technique and the analysis of 26 control patients allowed us to determine for each microsatellite a cutoff characterizing a significant allelic imbalance. For bladder cancer detection, the overall sensitivity of the test was 84%. Using this procedure, we identified alterations in 81%, 84%, 91%, and 100% of pTa, pT1, pT2, and >pT2 stages, respectively. This corresponds to 79%, 82%, and 96% sensitivity for grades I, II, and III, respectively. Interestingly, for routine purposes, we observed an overall sensitivity of 80% (76% for pTa stages) when only the eight most rearranged microsatellites were considered. In conclusion, the noninvasive feature combined with the rapidity of this fluorescent and highly sensitive technique for the detection of early stages provides us with a useful help for the diagnosis of bladder cancer.