LAUSR

OBJECTIVE The present study aimed to assess if changes in speed and stroke parameters, as measured by an inertial sensor during a maximal effort swimming test, could provide an effective detection of anaerobic capacity in elite swimmers. Approach. Fourteen elite swimmers performed a 75m maximal swimming test. Changes in speed and stroke parameters, estimated by a body-worn inertial sensor, were analysed to provide insight into stroke mechanics during swimming. Their relationships with the output of the Wingate Anaerobic Test were analysed. Best times in competition were also considered to assess swimmer's performance. Main results. Mean power measured using the Wingate cycle ergometer test highly correlated with mean speed attained by the swimmers during the proposed 75m swimming test (R range: .700-.809, p<.05). Mean power in the Wingate Anaerobic Test and mean speed in the 75m swimming test highly correlated with best times attained by the swimmers (R range: .736-.855, p<.01; R range: .659-.952, p<.05, for Wingate and 75m swimming test respectively). Moreover, stroke variables were investigated: in this regard, a significant decrease in stroke rate and swimming speed and a significant increase in stroke length were observed between the first and the third lap (p<.01). Significance. The present in-water free swimming test provided insight into specific physiological/mechanical aspects of elite swimmers. The correlation of the swimming and the Wingate tests with swimmer's performance in competition confirms that they both reflect the skills and anaerobic qualities the swimmer uses in the race. The wearable inertial sensor could represent a feasible solution to evaluate strokes parameters allowing a timely follow-up of variations in swimming biomechanics along the course of the test and the identification of differences in biomechanical strategy between swimmers. This analysis is of interest for swimmers and coaches to characterise swimmer's technique weakness/strength, and to plan individual race pacing strategy.