High resolution 1H nuclear magnetic resonance (NMR) spectroscopic analysis of biofluids is a recently established tool for evaluating inherited and acquired errors in metabolic control. In the present study 1H NMR analysis of urine was used to monitor efficacy of BRL 49653, a potent and selective antihyperglycaemic agent, following oral administration for up to 36 weeks to the genetically diabetic C57BL/KsJ db/db mouse. The effects of BRL 49653 on carbohydrate and fatty acid metabolism were monitored by determination of changes in concentrations of low molecular weight urinary metabolites. A qualitative comparison of the NMR spectra of urine from untreated diabetic mice with those of lean littermates and literature examples revealed several abnormalities, the majority of which could be explained in terms of the non-insulin dependent diabetes syndrome exhibited by these animals. Quantitatively the most prominent was the extreme glycosuria of both young (8-12 weeks; 0.9 g glucose kg-1 h-1) and older (42 weeks; 2 g glucose kg-1 h-1) diabetic mice. This was accompanied by the excretion of a number of unassigned sugar derivatives and by ketone bodies. Administration of BRL 49653 (3 mumol kg-1) to db/db mice for 24 days reduced blood glucose concentrations to values comparable with non-diabetic lean littermates and reduced glycosuria by > 90%. BRL 49653 significantly reduced excretion of unassigned sugars, acetate, lactate, and the ketone bodies, acetoacetate, 3-D-hydroxybutyrate and acetone. The anti-diabetic efficacy of BRL 49653, assessed from the pattern of urinary metabolites, was maintained over a 36-week treatment period. These results demonstrate the value of 1H NMR to evaluate non-invasively the efficacy of novel therapeutic agents.