A group-selective method for the determination of total N-nitroso compounds (NOC) has been adapted for analysing human urine samples. Nitrate was first removed from urine by an anion-exchange procedure that prevented the significant loss of various added reference NOC and unidentified urinary NOC. The total NOC were then determined by injecting the urine sample (nitrate content less than 1 mmol l-1) or anion-exchange eluate into refluxing ethyl acetate containing either acetic acid for determining heat and acetic acid labile thermal energy analyser responsive compounds (TAC) or into hydrogen bromide for the determination of TAC and NOC. The nitrogen monoxide levels released were measured using thermal energy analysis with chemiluminescence detection, and the differnce between the two determinations represented the concentrations of NOC. The optimum conditions for preventing artefactual nitrosation in urine samples by the addition of sodium hydroxide or sulphamic acid without decomposition of NOC were determined. The influence of time and storage conditions on NOC stability was investigated. Fifteen urine samples collected from volunteers dosed with proline were analysed for total NOC and N-nitrosamino acids revealing a preponderance of unknown NOC. The determination of total NOC in human urine using this group-selective method offers a new approach to the estimation of human exposure to NOC and to isolate hitherto unknown NOC and their metabolites.