NSAIDs attenuate the natriuretic response to loop diuretics. Their effect on the action of distal tubular diuretics is poorly explored. Accordingly, the pharmacokinetics and pharmacodynamics of metolazone [M], a distal tubular diuretic, with and without indomethacin [M+I] or sulindac [M+S] were examined in six healthy volunteers. Urine samples were obtained over 36 hours post-metolazone dosing for the determination of sodium, potassium and metolazone concentration. Though cumulative M excretion 750 +/- 247 [mucg/36 h] [M]; 749 +/- 239 [M+I]; 848 +/- 443 [M+S] was comparable between treatment groups, total sodium [Na+] excretion was significantly depressed in the presence of S or I, 685 +/- 114 [mEq/36 h] [M]; 454 +/- 90 [M+I] (p < or = 0.05); 553 +/- 123 [M+S] (p < or = 0.05). Peak Na+ excretion [muEq/min] was significantly decreased by I only and time to peak Na+ excretion did not differ amongst treatment groups. Total potassium [K+] excretion 160 +/- 39 [mEq/36 h] [M]; 111 +/- 53 [M+I] (p < or = 0.05); 135 +/- 31 [M+S] significantly decreased with I. This phenomenon was most evident between 12 and 36 hours. The administration of I or S with M significantly blunted sodium excretion on a purely pharmacodynamic basis while the decline in urinary potassium excretion upon addition of I to M related probably to an attenuation of braking phenomenon induced kaliuresis. These findings likely reflect NSAID-induced sodium reabsorption at loci prior to the site of action of metolazone.