Your search keyword '"Alberca, Ilona"' showing total 2 results

1. Sprint performance and force application of tennis players during manual wheelchair propulsion with and without holding a tennis racket.

Author

Alberca, Ilona, Chénier, Félix, Astier, Marjolaine, Watelain, Éric, Vallier, Jean-Marc, Pradon, Didier, and Faupin, Arnaud

Subjects

*TENNIS rackets, *SPRINTING, *WHEELCHAIR sports, *TENNIS players, *TENNIS courts, *WHEELCHAIRS

Abstract

The objective of this exploratory research is to study the impact of holding a tennis racket while propelling a wheelchair on kinetic and temporal parameters in a field-based environment. 13 experienced wheelchair tennis players with disabilities (36.1 ± 8.2 years, 76.8 ± 15.3 kg, 174.8 ± 17.1 cm) classified between 30/8 and first series performed two 20 m sprints in a straight line, on a tennis court: one while holding a tennis racket and the second without a tennis racket. They used their own sports wheelchair. Potential participants were excluded if they had injuries or pain that impaired propulsion. Maximal total force, maximal propulsive moment, rate of rise, maximal power output, push and cycle times and maximal velocity were measured. Sprinting while holding a tennis racket increased the cycle time by 0,051 s and push time by 0,011s. Sprinting while holding a tennis racket decreased the maximal propulsive moment, maximal power output, rate of rise and maximal velocity during propulsion by 6.713 N/m, 151.108 W, 672.500 N/s and 0.429 m/s, respectively. Our results suggest that the biomechanical changes observed associated with racket propulsion are generally in a direction that would be beneficial for the risk of injury. But sprinting holding a racket seems to decrease players propulsion performance. Working on forward accelerations with a tennis racket would be a line of work for coaches. [ABSTRACT FROM AUTHOR]

Published

2022

2. Impact of dribbling on spatiotemporal and kinetic parameters in wheelchair basketball athletes.

Author

Chénier, Félix, Alberca, Ilona, Marquis, Etienne, Gagnon, Dany H., and Faupin, Arnaud

Subjects

*WHEELCHAIR sports, *TASK performance, *BASKETBALL, *DYNAMICS, *ATHLETIC ability, *BIOMECHANICS, *SPRINTING

Abstract

Wheelchair basketball is one of the most popular Paralympic sports. Dribbling a ball while propelling is a key feature of wheelchair basketball. Very few studies have investigated the biomechanical impact of dribbling. This study aims to analyze the impact of dribbling on the amplitude and symmetry of spatiotemporal and kinetic parameters of wheelchair propulsion. Ten experienced wheelchair basketball athletes (31.5 ± 10.6 years old; 7 men, 3 women) with various classifications performed eight 9-m sprints along a straight line on a basketball court: four sprints using classic synchronous propulsion, and four sprints while dribbling a ball down the court. Dribbling decreased velocity, mean propulsive moments and the force rate of rise, as well as increased push time, force rate of rise asymmetry and angular impulse asymmetry. All kinetic variables were asymmetric and higher on the dominant limb. The combination of reduced velocity and propulsive moments when dribbling indicates that wheelchair basketball athletes may deliberately preserve a safety margin of acceleration to adapt to uncontrolled ball rebounds. Dribbling was not associated with any factors associated with an increased risk of musculoskeletal disorders. • This study measured biomechanics of dribbling in wheelchair basketball. • Ten experienced athletes sprinted using classic and dribble propulsion. • Dribbling decreased velocity and propulsion moments, indicating a submaximal task. • Dribbling was not associated with any musculoskeletal disorder-related factors. [ABSTRACT FROM AUTHOR]

Published

2022