Prediction of Performance in a Short Trail Running Race: The Role of Body Composition.

The aim of the present study was to examine the role of the classical physiological model of endurance running performance - maximal oxygen uptake (VOmax), %VOmax at ventilatory thresholds (VT), work economy, lactate levels, and body composition on the prediction of short trail running performance. Eleven male trail runners (age 36.1 ± 6.5 years, sport experience 6.6 ± 3.8 years, and mean ± standard deviation) were examined for fat mass and skeletal muscle mass, and performed a graded exercise test to measure VOmax, vVOmax, and VT. Also, they participated in a short 27 km trail run with a positive elevation of +1750 m. Age, years of training and skeletal muscle mass did not correlate with race time ( > 0.05), and fat mass and body mass index (BMI) showed significant correlations with race time ( < 0.05). Heart rate, velocity and VT1 and VT2 were not associated with race time ( > 0.05). Only vVOmax ( = 0.005) and VOmax ( = 0.007) is correlated to race time. Multiple regression models for VOmax accounted for 57% of the total variance. The vVOmax model variable accounted for 60% and the fat mass model for 59.5%. Finally, the combined VOmax and fat mass model explained 83.9% of the total variance ( < 0.05 in all models). The equation for this model is "race time (min) = 203.9956-1.9001 × VOmax + 10.2816 × Fat mass%" ( = 0.839, SEE = 11.1 min, and = 0.0007). The classical variable VOmax together with fat mass percent are two strong predictors for short trail running performance.