PRACTICAL LIMITATIONS OF THE DELTATRAC INDIRECT CALORIMETER

Indirect calorimetry is used to assess energy requirements. The Deltat rac Metabolic Monitor is a relatively inexpensive indirect calorimeter which uses a 'fixed' flow of ambient air to collect expired air. Only oxygen and carbon dioxide concentrations are measured and the 'fixed flow' is assumed in the calculation of oxygen consumption (VO2) and ca rbon dioxide production (VO2). Using inert gas dilution we have studie d the effect on VO2, and on the variability in VO2, of changing and le ngthening the 1.77 m length of 35 mm tubing supplied with the instrume nt to collect expired air, and of using a mask to collect expired air instead of the manufacturer's hood. One would anticipate that changing the tubing could cause a change in resistance to gas flow and thus af fect the true flow rate. This would alter the gas concentrations seen by the analysers, but the 'fixed flow' would still be assumed so the r esults would be in error. Adding extra lengths of manufacturers tubing caused an apparent rise in VO2 of 0.36%/m of tubing added, and using 22 mm tubing instead of the manufacturer's 35 mm tubing increased VO2 by 0.42% for each 10 cm of tubing added. Using the mask to collect exp ired air instead of the canopy VO2 was higher, possibly due to the ene rgy cost of holding the mask, and was more variable, probably because of poorer mixing of the expired air. To measure VO2 using a mask with the same precision as a 10 min measurement made with the hood would en tail measuring VO2 for 14.5 min. The methods used to collect expired a ir (mask or canopy, length and type of tubing) when measuring metaboli c rate with the Deltatrac do affect the results obtained but these eff ects are small and predictable.