Background Epidemiological studies have demonstrated a significant dose-response relationship between arsenic exposure and the cancers of the urinary organs, especially transitional cell carcinoma (TCC). However, there was still lack of concentrations data of metal and arsenic species in the biological samples of urinary cancer subjects. Hence, the goals of this study were set: (1) to explore the relationship of renal cell carcinoma and transitional cell carcinoma, respectively, with the distributions of metal levels in renal cortex, pelvis and ureter, and (2) to study the association of the occurrence of renal cell carcinoma and transitional cell carcinoma, respectively, with the metabolic methylation in human body. Material and Methods Study subjects In this study, 17 urinary cancer subjects were recruited from the Urological Department of the National Taiwan University Hospital, with TCC or RCC at different stages. All subjects were histologically diagnosed, and categorized into different tumors stages based on the 1997 TNM classification system. Questionnaire Questionnaire was applied to collect study subject’s personal information on risk factors of urinary cancer, such as age, body height, weight, exercise habits, smoking history, occupational exposure history, alcohol drinking, tea consumption, coffee consumption, dietary habit, use of herbal medicine and family disease history. Collection and preparation of samples We use the 50 ml centrifuge tube to collect the morning void urine from subject, and through the assistant of surgen to obtain the tissue samples after surgery.Tissue samples were decomposed in closed vessels using a microwave-assisted method. Inductively coupled plasma mass spectrometry was used to analyze the contents of As, Cd, Se, Mn and Sr in normal and tumor kidney tissue. The accuracy of the ICP-MS (7500C, Agilent Technologies, Japan) analysis was validated with NIST SRM 1577c bovine liver. Urine sample was filtered through a 0.45-μm membrane prior to being subjected to ICP-MS and HPLC-ICPMS analysis. Trace metals including As, Cd, Se, V, Cr, Mn, Ni, Cu, Pb and Sr in urine were determined with ICP-MS, while As3+, DMA, MMA and As5+ were determined by HPLC-ICP-MS. Accuracy was checked with the SERO trace elements reference in urine. Results & Discussions Urinary concentration of total arsenic and the DMA percentage in total arsenic concentration significantly increased as the concentration of urinary selenium increased. Besides, results of the present study suggested that women presented greater capability in arsenic methylation than men, and the methylation capability diminished as the age increasing. This study also presented differences in the concentrations distributions of the selected trace metals in urine at different cancer stages. These findings indicated that some trace metals might play important roles in the pathogenesis of urinary cancer. Moreover, the concentrations of As and Cd in normal cortex were higher than in normal pelvis and normal urinary track (p<0.05). The Cd concentration in normal tissue was found to be higher than those in tumor tissue, whereas As levels in tumor tissue was not found to be different than those in normal tissue. Conclusions, the metal accumulation in human body might affect the concentration distribution of arsenic species. Furthermore, there were different metal concentration distributions in different human urinary organs. Futher research should study the interaction between the trends of different metals and urinary cancer, moreover, to realize the association among metals, cancer stage, age, gender, and methylation capability. Besides, it needs to explore the metal distributions in normal and tumor tissues. It is also warranted to involve more participants to obtain statistically significant data in order to confirm the metal distribution.