ESTIMATING ENERGY-EXPENDITURE FROM SPECIFIC ACTIVITY OF URINE UREA DURING LENGTHY SUBCUTANEOUS (NAHCO3)-C-14 INFUSION

Five healthy male subjects were continuously infused subcutaneously wi th [C-14]bicarbonate (12.3 mu Ci/day) using a mini pump for 5 days whi le in a whole body calorimeter. Energy expenditure was varied over a r ange of 1.35-1.75 times basal metabolic rate. Urine collections were o btained throughout the study and used to measure the specific activity of urea, from which CO2 production was estimated. It was assumed that the recovery of label in gaseous CO2 was 95% of that infused and that the specific activity of urea was 85% that of expired CO2. Continuous daily collections of calorimeter air revealed that 95.6 +/- 1.3% (SD) of infused label was recovered as gaseous CO2, with little daily vari ation. Another 1.5 +/- 0.4% was recovered as urinary urea. The estimat ed CO2 production, calculated from the specific activity of urea in 24 -h urine samples corrected for the small effects due to changes in the size and specific activity of the urea pool, was found to be 100 +/- 5% of the calorimeter estimate for 1-day periods (20.80 +/- 1.44 mol C O2/day) and 100 +/- 2% for 4-day periods. This study suggests that, in healthy subjects, the labeled [C-14]bicarbonate-urea method can provi de reasonable estimates of net CO2 production over the range examined.