Evaluation of the Oxycon Mobile metabolic system against the Douglas bag method

The aim of this study was to evaluate two versions of the Oxycon Mobile portable metabolic system (OMPS1 and OMPS2) in a wide range of oxygen uptake, using the Douglas bag method (DBM) as criterion method. The metabolic variables (V) over dotO(2), (V) over dotCO(2), respiratory exchange ratio and (V) over dot(E) were measured during submaximal and maximal cycle ergometer exercise with sedentary, moderately trained individuals and athletes as participants. Test-retest reliability was investigated using the OMPS1. The coefficients of variation varied between 2 and 7% for the metabolic parameters measured at different work rates and resembled those obtained with the DBM. With the OMPS1, systematic errors were found in the determination of (V) over dotO(2) and (V) over dotCO(2). At submaximal work rates (V) over dotO(2) was 6-14% and (V) over dotCO(2) 5-9% higher than with the DBM. At (V) over dotO(2max) both (V) over dotO(2) and (V) over dotCO(2) were slightly lower as compared to DBM (-4.1 and -2.8% respectively). With OMPS2, (V) over dotO(2) was determined accurately within a wide measurement range (about 1-5.5 L min(-1)), while (V) over dotCO(2) was overestimated 3- 7%). (V) over dot(E) was accurate at submaximal work rates with both OMPS1 and OMPS2, whereas underestimations (4- 8%) were noted at (V) over dotO(2max). The present study is the first to demonstrate that a wide range of (V) over dotO(2) can be measured accurately with the Oxycon Mobile portable metabolic system (second generation). Future investigations are suggested to clarify reasons for the small errors noted for (V) over dot(E) and (V) over dotCO(2) versus the Douglas bag measurements, and also to gain knowledge of the performance of the device under applied and non-laboratory conditions.