Your search keyword '"Sevrez V"' showing total 21 results

1. Hypoxia and fatigue impair rapid torque development of knee extensors in elite alpine skiers

Author

Alhammoud, M., Morel, B., Girard, O., Racinais, S., Sevrez, V., Germain, A., Chamu, T., Hautier, C., Alhammoud, M., Morel, B., Girard, O., Racinais, S., Sevrez, V., Germain, A., Chamu, T., and Hautier, C.

Abstract

This study examined the effects of acute hypoxia on maximal and explosive torque and fatigability in knee extensors of skiers. Twenty-two elite male alpine skiers performed 35 maximal, repeated isokinetic knee extensions at 180∘s-1 (total exercise duration 61.25 s) in normoxia (NOR, FiO2 0.21) and normobaric hypoxia (HYP, FiO2 0.13) in a randomized, single-blind design. Peak torque and rate of torque development (RTD) from 0 to 100 ms and associated Vastus Lateralis peak EMG activity and rate of EMG rise (RER) were determined for each contraction. Relative changes in deoxyhemoglobin concentration of the VL muscle were monitored by near-infrared spectroscopy. Peak torque and peak EMG activity did not differ between conditions and decreased similarly with fatigue (p < 0.001), with peak torque decreasing continuously but EMG activity decreasing significantly after 30 contractions only. Compared to NOR, RTD, and RER values were lower in HYP during the first 12 and 9 contractions, respectively (both p < 0.05). Deoxyhemoglobin concentration during the last five contractions was higher in HYP than NOR (p = 0.050) but the delta between maximal and minimal deoxyhemoglobin for each contraction was similar in HYP and NOR suggesting a similar muscle O2 utilization. Post-exercise heart rate (138 ± 24 bpm) and blood lactate concentration (5.8 ± 3.1 mmol.l-1) did not differ between conditions. Arterial oxygen saturation was significantly lower (84 ± 4 vs. 98 ± 1%, p < 0.001) and ratings of perceived exertion higher (6 ± 1 vs. 5 ± 1, p < 0.001) in HYP than NOR. In summary, hypoxia limits RTD via a decrease in neural drive in elite alpine skiers undertaking maximal repeated isokinetic knee extensions, but the effect of hypoxic exposure is negated as fatigue develops. Isokinetic testing protocols for elite alpine skiers should incorporate RTD and RER measurements as they display a higher sensitivity than peak torque and EMG activity.

Published

2018

2. Scapular kinematics during scaption in competitive swimmers

Author

Blache, Y., primary, Gillet, B., additional, Selin, J., additional, Sevrez, V., additional, and Rogowski, I., additional

Published

2018

3. Effect of object width on precision grip force and finger posture

Author

Domalain, M., Vigouroux, L., Danion, F., Sevrez, V., and Berton, E.

Subjects

Grip strength -- Measurement, Force and energy -- Measurement, Dimensions -- Usage, Architecture and design industries, Business

Published

2008

4. Mechanical and informational influences of the organisation of the giant circle on the high bar in gymnastics

Author

Reinoud Bootsma, Sevrez, V., Rao, G., Berton, E., Institut des Sciences du Mouvement Etienne Jules Marey (ISM), Centre National de la Recherche Scientifique (CNRS)-Aix Marseille Université (AMU), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), and Berton, Eric

Subjects

[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS

Abstract

International audience; no abstract

Published

2010

5. Isokinetic profile in female athletes with and without patellofemoral pain syndrome after anterior cruciate ligament reconstruction

Author

Le Guen, M., primary, Monnot, D., additional, Rogowski, I., additional, Vigne, G., additional, and Sevrez, V., additional

Published

2015

6. Methodological contribution to study the vibratory behaviour of tennis rackets following real forehand drive impact

Author

Creveaux, T., primary, Sevrez, V., additional, Coste, B., additional, and Rogowski, I., additional

Published

2014

7. Bilateral comparison of scapulothoracic kinematics during scaption in girl tennis players

Author

Racaud, V., primary, Gillet, B., additional, Mercier, Q., additional, Creveaux, T., additional, Sevrez, V., additional, and Rogowski, I., additional

Published

2014

8. Influence of racket on the variability of humerothoracic joint kinematics during tennis serve: a preliminary study

Author

Sevrez, V., primary, Creveaux, T., additional, Dumas, R., additional, Chèze, L., additional, Macé, P., additional, and Rogowski, I., additional

Published

2014

9. Influence of hand-held racket on scapulothoracic kinematics during humeral elevation in the scapular plane in young tennis players: a preliminary study

Author

Sevrez, V., primary, Dolange, G., additional, Pinloche, L., additional, Dumas, R., additional, Creveaux, T., additional, and Rogowski, I., additional

Published

2013

10. Effect of additional loads on torques during giant swing on the high bar

Author

Sevrez, V., primary, VIgouroux, L., additional, Rao, G., additional, Bootsma, R. J., additional, and Berton, E., additional

Published

2007

11. Mechanical and informational influences of the organisation of the giant circle on the high bar in gymnastics.

Author

BOOTSMA, R. J., SEVREZ, V., RAO, G., and BERTON, E.

Abstract

The article discusses a study conducted on the mechanical and informational influences upon a gymnast attempting to perform a gymnastic move known as the giant circle on the high bar. The author uses a pendulum as a modeling analogy and examines mechanical aspects such as loading, energy, and motion to analyze this topic.

Published

2010

12. Hypoxia and Fatigue Impair Rapid Torque Development of Knee Extensors in Elite Alpine Skiers.

Author

Alhammoud M, Morel B, Girard O, Racinais S, Sevrez V, Germain A, Chamu T, and Hautier C

Abstract

This study examined the effects of acute hypoxia on maximal and explosive torque and fatigability in knee extensors of skiers. Twenty-two elite male alpine skiers performed 35 maximal, repeated isokinetic knee extensions at 180°s -1 (total exercise duration 61.25 s) in normoxia (NOR, FiO 2 0.21) and normobaric hypoxia (HYP, FiO 2 0.13) in a randomized, single-blind design. Peak torque and rate of torque development (RTD) from 0 to 100 ms and associated Vastus Lateralis peak EMG activity and rate of EMG rise (RER) were determined for each contraction. Relative changes in deoxyhemoglobin concentration of the VL muscle were monitored by near-infrared spectroscopy. Peak torque and peak EMG activity did not differ between conditions and decreased similarly with fatigue ( p < 0.001), with peak torque decreasing continuously but EMG activity decreasing significantly after 30 contractions only. Compared to NOR, RTD, and RER values were lower in HYP during the first 12 and 9 contractions, respectively (both p < 0.05). Deoxyhemoglobin concentration during the last five contractions was higher in HYP than NOR ( p = 0.050) but the delta between maximal and minimal deoxyhemoglobin for each contraction was similar in HYP and NOR suggesting a similar muscle O 2 utilization. Post-exercise heart rate (138 ± 24 bpm) and blood lactate concentration (5.8 ± 3.1 mmol.l -1 ) did not differ between conditions. Arterial oxygen saturation was significantly lower (84 ± 4 vs. 98 ± 1%, p < 0.001) and ratings of perceived exertion higher (6 ± 1 vs. 5 ± 1, p < 0.001) in HYP than NOR. In summary, hypoxia limits RTD via a decrease in neural drive in elite alpine skiers undertaking maximal repeated isokinetic knee extensions, but the effect of hypoxic exposure is negated as fatigue develops. Isokinetic testing protocols for elite alpine skiers should incorporate RTD and RER measurements as they display a higher sensitivity than peak torque and EMG activity.

Published

2018

13. Rotation sequence to report humerothoracic kinematics during 3D motion involving large horizontal component: application to the tennis forehand drive.

Author

Creveaux T, Sevrez V, Dumas R, Chèze L, and Rogowski I

Subjects

Adult, Biomechanical Phenomena, Humans, Imaging, Three-Dimensional, Male, Movement, Range of Motion, Articular, Rotation, Time and Motion Studies, Humerus physiology, Shoulder Joint physiology, Tennis physiology, Thorax physiology

Abstract

The aim of this study was to examine the respective aptitudes of three rotation sequences (Y t X f 'Y h '', Z t X f 'Y h '', and X t Z f 'Y h '') to effectively describe the orientation of the humerus relative to the thorax during a movement involving a large horizontal abduction/adduction component: the tennis forehand drive. An optoelectronic system was used to record the movements of eight elite male players, each performing ten forehand drives. The occurrences of gimbal lock, phase angle discontinuity and incoherency in the time course of the three angles defining humerothoracic rotation were examined for each rotation sequence. Our results demonstrated that no single sequence effectively describes humerothoracic motion without discontinuities throughout the forehand motion. The humerothoracic joint angles can nevertheless be described without singularities when considering the backswing/forward-swing and the follow-through phases separately. Our findings stress that the sequence choice may have implications for the report and interpretation of 3D joint kinematics during large shoulder range of motion. Consequently, the use of Euler/Cardan angles to represent 3D orientation of the humerothoracic joint in sport tasks requires the evaluation of the rotation sequence regarding singularity occurrence before analysing the kinematic data, especially when the task involves a large shoulder range of motion in the horizontal plane.

Published

2018

14. Adaptive Alterations in Shoulder Range of Motion and Strength in Young Tennis Players.

Author

Gillet B, Begon M, Sevrez V, Berger-Vachon C, and Rogowski I

Subjects

Adaptation, Physiological, Adolescent, Child, Cross-Sectional Studies, Humans, Male, Movement, Muscle, Skeletal physiology, Rotation, Muscle Strength physiology, Range of Motion, Articular physiology, Shoulder Joint physiology, Tennis physiology

Abstract

Context: Playing tennis requires unilateral and intensive movement of the upper limb, which may lead to functional adaptations of the shoulder and an increased injury risk. Identifying which athletes will be future elite tennis players starts at 5 to 6 years of age. Therefore, highly skilled players practice intensively in their childhood. However, whether these functional changes occur during the prepubertal years has not been established., Objectives: To assess changes in glenohumeral-joint-rotation range of motion and strength of the shoulder-complex muscles in prepubertal elite tennis players., Design: Cross-sectional study., Setting: Tennis training sports facilities., Patients or Other Participants: Sixty-seven male tennis players (age range = 7-13 years) selected by a regional tennis center of excellence were divided into 3 biological age groups relative to their predicted age at peak height velocity: greater than 4 (n = 26; age = 8.7 ± 0.7 years, height = 132.4 ± 12.9 cm, mass = 27.8 ± 3.8 kg), 3 to 4 (n = 21; age = 10.3 ± 0.6 years, height = 144.9 ± 5.7 cm, mass = 34.7 ± 4.0 kg), and 2 (n = 20; age = 12.8 ± 1.4 years, height = 158.5 ± 8.7 cm, mass = 43.0 ± 8.2 kg) years before their age at peak height velocity., Main Outcome Measures(s): We measured the internal- and external-rotation ranges of motion of the glenohumeral joint using a goniometer and calculated the total arc of motion. Maximal isometric strength of 8 shoulder muscles was measured using a handheld dynamometer. Strength values were normalized to body weight and used to calculate 4 agonist-to-antagonist strength ratios., Results: The total arc of motion of the glenohumeral joint decreased gradually with biological age (P ≤ .01) due to the decrease in internal-rotation range of motion (P < .001). Absolute strength increased gradually with biological age (P < .001), but the relative strengths and ratios remained similar., Conclusions: Functional adaptations of the shoulder seen in adolescent and adult tennis players were observed in healthy prepubertal players. This knowledge could help clinicians and coaches more effectively monitor shoulder adaptations to tennis practice during the prepubertal years.

Published

2017

15. Neuro-mechanical adjustments to shod versus barefoot treadmill runs in the acute and delayed stretch-shortening cycle recovery phases.

Author

Morio C, Sevrez V, Chavet P, Berton E, and Nicol C

Subjects

Adult, Biomechanical Phenomena, Electromyography, Humans, Male, Muscle, Skeletal innervation, Physical Endurance physiology, Gait physiology, Lower Extremity physiology, Muscle Fatigue physiology, Running physiology, Shoes

Abstract

In habitually shod recreational runners, we studied the combined influence of footwear and stretch-shortening cycle (SSC) fatigue on treadmill running pattern, paying special attention to neuro-mechanical adjustments in the acute and 2-day delayed recovery periods. The SSC exercise consisted of a series of 25 sub-maximal rebounds on a sledge apparatus repeated until exhaustion. The acute and delayed functional fatigue effects were quantified in a maximal drop jump test. The neuro-mechanical adjustments to fatigue were examined during two submaximal treadmill run tests of 3 min performed either barefoot or with shoes on. Surface electromyographic (EMG) activities, tibial accelerations and kinematics of the right lower limb were recorded during the first and last 15 s of each run. The main result was that neuro-mechanical differences between the shod and barefoot running patterns, classically reported in the absence of fatigue, persisted in the fatigued state. However, in the delayed recovery phase, rearfoot eversion was found to significantly increase in the shod condition. This specific footwear effect is considered as a potential risk factor of overuse injuries in longer runs. Therefore, specific care should be addressed in the delayed recovery phase of SSC fatigue and the use of motion control shoes could be of interest.

Published

2016

16. Tennis Racket Vibrations and Shock Transmission to the Wrist during Forehand Drive.

Author

Rogowski I, Creveaux T, Triquigneaux S, Macé P, Gauthier F, and Sevrez V

Subjects

Equipment Design, Female, Forearm physiology, Humans, Male, Vibration, Wrist physiology, Young Adult, Tennis, Wrist Joint physiology

Abstract

This study aimed to investigate the effects of two different racket models and two different forehand drive velocities on the three-dimensional vibration behavior of the racket and shock transmission to the player's wrist under real playing conditions. Nine tennis players performed a series of crosscourt flat forehand drives at two velocities, using a lightly and a highly vibrant racket. Two accelerometers were fixed on the racket frame and the player's wrist. The analysis of vibration signals in both time and frequency domains showed no interaction effect of velocity and racket conditions either on the racket vibration behavior or on shock transmission. An increase in playing velocity enlarged the amount of vibrations at the racket and wrist, but weakly altered their frequency content. As compared to a racket perceived as highly vibrating, a racket perceived as lightly vibrating damped longer in the out-of-plane axis of the racket and shorter on the other axis of the racket and on the wrist, and displayed a lower amount of energy in the high frequency of the vibration signal at the racket and wrist. These findings indicated that the playing velocity must be controlled when investigating the vibration loads due to the racket under real playing conditions. Similarly, a reduced perception of vibration by the tennis player would be linked to decreased amplitude of the racket vibration signal, which may concentrate the signal energy in the low frequencies.

Published

2015

17. How Does the Scapula Move during the Tennis Serve?

Author

Rogowski I, Creveaux T, Sevrez V, Chèze L, and Dumas R

Subjects

Adult, Biomechanical Phenomena physiology, Humans, Male, Upper Extremity physiology, Movement physiology, Scapula physiology, Tennis physiology

Abstract

Purpose: This study aimed to describe the scapulothoracic kinematics during the tennis serve in highly skilled tennis players., Methods: Thirteen male competitive players performed flat first serves while eight high-speed cameras recorded the three-dimensional trajectories of the 15 markers located on bony landmarks. The scapular position through the tennis serve was determined using the acromial marker cluster method., Results: The results revealed that, during the cocking phase, the scapula externally rotated and posteriorly tilted to attain the maximal humeral external rotation. During the acceleration phase, the scapula upwardly rotated and anteriorly tilted to reach maximal racket head height. During the follow-through phase, the scapula internally and downwardly rotated, and posteriorly tilted, while the upper limb lowered and crossed the player's body., Conclusions: The findings of this study provide new knowledge on the asymptomatic scapular motion during the tennis serve, which may help clinicians and coaches to understand the overhead sport motion mechanics and to better prevent and rehabilitate overhead shoulder injuries.

Published

2015

18. On the Role of Proprioception in Making Free Throws in Basketball.

Author

Sevrez V and Bourdin C

Subjects

Biomechanical Phenomena, Female, Humans, Male, Movement, Task Performance and Analysis, Young Adult, Basketball physiology, Elbow Joint physiology, Motor Skills physiology, Proprioception physiology, Wrist Joint physiology

Abstract

Purpose: The aim of this article was to investigate the role that proprioception of the upper limb plays in making basketball free throws., Method: We designed an experiment to directly correlate the performance of basketball players in a free-throw task and an elbow- and wrist-joint position sense task., Results: We found a moderately high correlation between the free-throw success rate and wrist-joint position sense and a moderate correlation between the free-throw success rate and elbow-joint position sense. In both cases, the most successful shooters also had the best proprioceptive results., Conclusions: The results indicate that free-throw success is, at least partly, determined by players' ability to sense the position of the distal joints of their throwing upper limb. From a motor-control point of view, this suggests that basketball players may organize the compensatory behavior between the joints of their free-throwing arm on the basis of proprioception. From a practical point of view, it points toward new training techniques to enhance free-throwing efficiency.

Published

2015

19. Aging of running shoes and its effect on mechanical and biomechanical variables: implications for runners.

Author

Chambon N, Sevrez V, Ly QH, Guéguen N, Berton E, and Rao G

Subjects

Acceleration, Adult, Athletic Injuries, Biomechanical Phenomena, Elasticity, Heel, Humans, Joints physiology, Lower Extremity physiology, Male, Models, Biological, Movement, Sports Equipment, Tibia, Viscosity, Young Adult, Equipment Design, Leg physiology, Manufactured Materials, Quadriceps Muscle physiology, Running physiology, Shoes, Stress, Mechanical

Abstract

This study investigates the effect of running shoes' aging on mechanical and biomechanical parameters as a function of midsole materials (viscous, intermediate, elastic) and ground inclination. To this aim, heel area of the shoe (under calcaneal tuberosity) was first mechanically aged at realistic frequency and impact magnitudes based on a 660 km training plan. Stiffness (ST) and viscosity were then measured on both aged and matching new shoes, and repercussions on biomechanical variables (joint kinematics, muscular pre-activation, vertical ground reaction force and tibial acceleration) were assessed during a leg-extended stepping-down task designed to mimic the characteristics of running impacts. Shoes' aging led to increased ST (means: from 127 to 154 N ∙ mm(-1)) and decreased energy dissipation (viscosity) (means: from 2.19 to 1.88 J). The effects induced by mechanical changes on body kinematics were very small. However, they led with the elastic shoe to increased vastus lateralis pre-activation, tibial acceleration peak (means: from 4.5 g to 5.2 g) and rate. Among the three shoes tested, the shoe with intermediate midsole foam provided the best compromise between viscosity and elasticity. The optimum balance remains to be found for the design of shoes regarding at once cushioning, durability and injury prevention.

Published

2014

20. On the organizing role of nonmuscular forces during performance of a giant circle in gymnastics.

Author

Sevrez V, Rao G, Berton E, and Bootsma RJ

Subjects

Adolescent, Biomechanical Phenomena physiology, Computer Simulation, Gravitation, Humans, Male, Task Performance and Analysis, Weight-Bearing physiology, Young Adult, Gymnastics physiology, Hip Joint physiology, Postural Balance physiology, Shoulder Joint physiology, Torque

Abstract

Five elite gymnasts performed giant circles on the high bar under different conditions of loading (without and with 6-kg loads attached to the shoulders, waist or ankles). Comparing the gymnasts' kinematic pattern of movement with that of a triple-pendulum moving under the sole influence of nonmuscular forces revealed qualitative similarities, including the adoption of an arched position during the downswing and a piked position during the upswing. The structuring role of nonmuscular forces in the organization of movement was further reinforced by the results of an inverse dynamics analysis, assessing the contributions of gravitational, inertial and muscular components to the net joint torques. Adding loads at the level of the shoulders, waist or ankles systematically influenced movement kinematics and net joint torques. However, with the loads attached at the level of the shoulders or waist, the load-induced changes in gravitational and inertial torques provided the required increase in net joint torque, thereby allowing the muscular torques to remain unchanged. With the loads attached at the level of the ankles, this was no longer the case and the gymnasts increased the muscular torques at the shoulder and hip joints. Together, these results demonstrate that expert gymnasts skillfully exploit the operative nonmuscular forces, employing muscle force only in the capacity of complementary forces needed to perform the task.

Published

2012

21. Regulation of pendulum length as a control mechanism in performing the backward giant circle in gymnastics.

Author

Sevrez V, Berton E, Rao G, and Bootsma RJ

Subjects

Adolescent, Adult, Child, Female, Humans, Joints, Range of Motion, Articular, Spatial Behavior, Time Perception, Gymnastics

Abstract

Seven female elite gymnasts performed backward giant circles on the high bar under different conditions of loading. The magnitude (2 or 4 kg) and location (shoulders, waist, and ankles) of load systematically influenced the overall swing duration as well as the relative timing of movements at the joints. An analysis of the mechanical constraints operating suggested that the gymnast should be considered as a pendulum of variable length. Increasing and decreasing pendulum length at appropriate phases of the swing effectively allows energy to be injected into the system, thereby compensating the energy lost to friction. A sharp negative peak in the relative rate of change of pendulum length, characteristic of the upward swing phase of all gymnasts, was found to invariably occur at a particular value of the first-order time-to-closure of the body orientation gap with respect to the vertical. The presence of this invariant suggested that the gymnasts organize their behavior on the basis of such a first-order temporal relation.

Published

2009