Your search keyword '"Baudry S"' showing total 4 results

1. Influence of biceps brachii tendon mechanical properties on elbow flexor force steadiness in young and old males.

Author

Smart, R. R., Baudry, S., Fedorov, A., Kuzyk, S. L., and Jakobi, J. M.

Subjects

*ELBOW physiology, *BIOMECHANICS, *STATISTICAL correlation, *RANGE of motion of joints, *MUSCLE contraction, *MUSCLE strength, *PSYCHOLOGICAL stress, *TENDONS, *BICEPS brachii

Abstract

Elbow flexor force steadiness (FS) depends on strength and decreases with age. Achilles tendon mechanics effect standing balance and isometric plantarflexion FS. This study investigated the influence of distal biceps brachii (BB) tendon mechanics and elbow flexor strength on age‐related decline in FS. Nine young (23 ± 2 years) and nine old (77 ± 5 years) males performed submaximal isometric elbow flexion tasks at low (2.5%, 5%, 10% maximal voluntary contraction (MVC)) and high (20%, 40%, 60%, 80%MVC) forces in a neutral forearm position. Distal BB tendon elongation and cross‐sectional area (CSA) were recorded on ultrasound to calculate mechanics of strain, stress, and stiffness. Coefficient of variation (CV) of force was used to assess relationship of FS to tendon mechanics and strength. Young were 22% stronger and 41% steadier than old (P < .05). Tendon stiffness (170.1 ± 132.9 N/mm; 113.0 ± 55.1 N/mm) did not differ with age (P > .05). Young had 40% less strain compared to old at 5% MVC, but 42% greater strain at 60% and 80% MVC (P ≤ .05). Stress was ~18% greater in young at 10%, 20%, and 80% MVC (P ≤ .05). At low forces, CV of force was predicted by stress (r2 = 0.56) in young, and stress and MVC (r2 = 0.641) in old. At high forces for both age groups, CV of force was predicted by MVC and stress (r2 = 0.39‐0.43). Stress and strain is greater in young compared with old males. Because strength influences tendon mechanics and is also associated with FS, absolute strength is a large and modifiable contributor to age‐related decline in FS. [ABSTRACT FROM AUTHOR]

Published

2018

2. Age-related decline in rate of torque development during fast contractions is caused by lower neural activation and slower muscle contractile kinetics.

Author

Klass, M., Baudry, S., and Duchateau, J.

Subjects

*MUSCLE contraction, *CONTRACTILITY (Biology), *BIOMECHANICS, *PHYSIOLOGICAL aspects of aging, *MUSCLES

Abstract

The article reports on results of a study designed to determine if age-related decline in rate of torque development during fast contractions is caused by lower neural activation and slower muscle contractile kinetics. A description of the experimental set-up and measurement method is presented. The study concluded that reduce motor unit discharge frequency does not impair the dorsiflexion torque producing during a maximal voluntary contraction.

Published

2008

3. Contractile properties of single motor units in elderly.

Author

Klass, M., Baudry, S., and Duchateau, J.

Subjects

*MOTOR ability, *LEG, *AGING, *MUSCLES, *MUSCLE contraction, *CONTRACTILITY (Biology), *BIOMECHANICS

Abstract

The article examines the adaptations in motor unit (MU) and function in a lower limb muscle since age-related changes may vary specifically with the muscle group investigated. Ageing is usually associated with decreased motor control, muscle force and slowing of contractile properties. The method for recording single motor units is described. Changes in the characteristics of the MU population influence the ability to control force accurately.

Published

2005

4. DOUBLE AND TRIPLE LUTZ IN ARTISTIC ROLLER SKATING: KINEMATIC COMPARISON

Author

FANTOZZI, SILVIA, DI MICHELE, ROCCO, CIACCI, SIMONE, GIOVANARDI, ANDREA, MERNI, FRANCO, MEEUSEN R., DUCHATEAU J., ROELANDS B., KLASS M., DE GEUS B., BAUDRY S., TSOLAKIDIS E., Fantozzi S., Di Michele R., Ciacci S., Giovanardi A., and Merni F.

Subjects

ARTISTIC ROLLER SKATING, BIOMECHANICS, JUMPING PERFORMANCE

Abstract

Introduction Knowing the biomechanical key factors of each jump is fundamental for figure skating coaches in order to more effectively teach triple jumps to their athletes. Notwithstanding the number of studies on ice skating (King et al., 2004), no biomechanical jump analysis, to the knowledge of the present authors, performed on roller skating. The purpose of the present study was to compare some kinematic characteristics of double and triple Lutz jumps in roller skating. Methods 5 elite male skaters performing a series of double and triple Lutz were acquired using 10 infrared cameras (Smart-D, BTS, Milan, Italy, 250 Hz). For the trunk, the upper limbs and the foot segments, markers were attached directly on specific anatomical landmarks. For the thigh and the shank segments, the calibrated anatomical system technique was exploited (Cappozzo et al., 1995). The resultant velocity angle was also considered. Five key events were identified for each jump: toe-pick (instant in which the toe-pick impacted the ground), end of gliding (last contact of the left foot), take-off (last contact of the right foot), maximum height (top of the flight phase), and landing (instant of contact with the ground). Results The hip and the knee were flexed at the toe-pick, whereas the flexion was clearly lower at the take-off. On the contrary, the ankle at toe-pick was in the neutral position, and plantarflexed at the take-off, but differently depending on the skater. The skaters’ horizontal velocities at take-off for the triple Lutz (mean: 2.69 m/s) were lower than those for the double one (mean: 3.17 m/s). Vertical velocities at take-off showed slightly higher values for the triple (mean: 2.90 m/s) compared to the double (mean: 2.72 m/s) Lutz. The average resultant velocity angle in the 5 athletes was 40° in the double and 47° in the triple Lutz, at the take-off. The greatest difference between the double and triple jumps was the rotational velocity during the flight estimated from the rotation of the pelvis segment. The pelvis rotation velocity was higher in the triple Lutz already during the toe pick (means: 0.84 rev/s for double and 1.75 rev/s for triple one). Jumping height and flight time were higher for the triple jump for three skaters. Discussion For the first time a biomechanical comparison between the double and the triple Lutz in roller skating was performed. Some of these findings were already roughly known to coaches and skaters, but only in the present study some specific descriptors of the jump were characterized and quantified. References King D, Smith S, Higginson B, Muncasy B, Scheirman G. (2004). Sports Biomechanics, 3, 109-123. Cappozzo A, Catani F, Della Croce U, Leardini A. (1995). Clinical Biomechanics, 10, 171-178.

Published

2012