ASSESSMENT OF CARDIORESPIRATORY EXERCISE FUNCTION IN OBESE CHILDREN AND ADOLESCENTS BY BODY MASS-INDEPENDENT PARAMETERS

The parameters used to assess aerobic exercise function by gas exchang e are usually adjusted for body mass and are expressed as millilitres per minute per kilogram. In the case of obese children this could lead to overcorrection with an underestimation of their exercise capacity. The purpose of the present study was to assess cardiorespiratory exer cise function in obese subjects using body mass-independent parameters . As both carbon dioxide output (VCO2) and oxygen uptake (VO2) are usu ally corrected for body mass, the slope of VCO2 versus VO2 can be cons idered to be independent of body mass, This slope was calculated below the ventilatory threshold (S1) and above the ventilatory threshold (S 3). Exercise tests were performed on a treadmill and respiratory gas e xchange was measured breath-by-breath. A group of 29 obese children [m ean age 11 (SD 2.5) pears] were compared to 16 normal controls of the same age range [mean age 10.8 (SD 2.2); P > 0.05]. The patients were o verweight by 36(SD 17.9)% and had a body mass index of 25.0 (SD 3.8). The results showed that S3 in the obese subjects was significantly ste eper compared to the normal controls [1.30 (SD 0.20) vs 1.10 (SD 0.20) ; P < 0.05]. The steepest values for S3 were found in the subjects wit h the highest degree of obesity. This method has some limitations, sin ce in a large proportion of the patients (48%) no ventilatory threshol d could be detected, which is prerequisite for calculation of these sl opes. The latter was already suppressed at the onset of exercise in 21 % of the sample or could not be detected because of breathing irregula rity in 27%. It is suggested from this study that cardiorespiratory ex ercise function in obese children is reduced, especially when assessed by parameters of aerobic exercise which cancel the confounding effect of body mass.