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Apport de l’électromyographie de surface en tennis : proposition d’une nouvelle méthode de normalisation des muscles du membre supérieur : influence de la vitesse et de la fatigue sur l’activité musculaire du membre supérieur en tennis / Contribution of surface electromyography in tennis : proposal for a new method of normalization of upper limb muscles : influence of velocity and fatigue on muscle activity of the upper limb in tennisRota, Samuel 22 April 2013 (has links)
L'objet principal de cette thèse est l'étude de l'activité musculaire du membre supérieur par le biais de l'électromyographie de surface (EMG) lors d'une activité dynamique. Une première étude a montré que sept muscles sur neuf peuvent être normalisés à partir de deux tâches maximales dynamiques, tandis que deux autres muscles doivent l'être avec la méthode traditionnelle isométrique. Cette procédure contribue à l'amélioration de la fiabilité de l'étude du membre supérieur tout en réduisant le temps de normalisation. D'autre part, l'étude de la relation entre activité EMG et vitesse de frappe en coup droit a permis de mettre en lumière les modifications d'amplitude EMG et des paramètres temporels d'activation de certains muscles du membre supérieur en réponse à l'augmentation de la vitesse de balle. Par ailleurs, une troisième étude a démontré que la fatigue générée par un exercice intense de tennis entraîne une baisse du niveau d'activation du grand pectoral et des muscles de l'avant-bras lors des frappes, sans toutefois entraîner de changement au niveau du timing d'activation. Cette diminution de l'activité EMG pourrait expliquer la dégradation de la performance relevée lors de cette expérience. Toutefois, des stratégies de protection de l'organisme et/ou de gestion du conflit vitesse-précision sont à envisager et ouvrent la voie à de futures études / The main purpose of this thesis is the study of upper limb muscle activity through surface electromyography (EMG) during a dynamic activity. An initial study showed that seven out of nine muscles can be normalized from two maximum dynamic tasks, while two other muscles require the traditional isometric method. This procedure helps to improve the reliability of the upper limb EMG while reducing the time of standardization. On the other hand, the study of the relationship between EMG and stroke velocity in forehand drive in tennis emphasized the changes in EMG amplitude and activation timing of some muscles in response to the increase of the ball velocity. Otherwise, a third study showed that fatigue generated by intense exercise tennis results in a decrease in activation level of the pectoralis major and the forearm muscles during strokes, without any change in activation timing. This decrease in EMG activity could explain the performance degradation observed during this experiment. However, strategies of organism protection and/or gestion of the speed-accuracy trade-off should be considered and may need future studies
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Neural contributions to maximal muscle performanceBuckthorpe, Matthew January 2014 (has links)
Neural activation is thought to be essential for the expression of maximal muscle performance, but the exact contribution of neural mechanisms such as the level of agonist, antagonist and stabiliser muscle activation to muscle strength is not fully understood. Explosive neuromuscular performance, including the ability to initiate (the electromechanical delay, EMD) and develop force rapidly (termed, rate of force development, RFD) are considered essential for the performance of explosive sporting tasks and joint stabilisation and thus injury avoidance. The thesis aimed to improve our understanding of the contribution of neural factors to muscle performance, with a specific focus on explosive neuromuscular performance. The work in this thesis utilised a range of approaches to achieve this aim. Initially, the association between muscle activation and rate of force development and EMD was established. Comparison of unilateral and bilateral actions was then undertaken. Finally interventions with the aim to both negatively affect and improve muscle strength, which included fatigue and resistance training (RT), respectively was undertaken and the neural contributions to changes in performance established. Agonist activation during the early phase of voluntary force production was shown to be an important determinant of voluntary EMD, explaining 41% of its inter-individual variability. Agonist activation was an important determinant of early, but not late phase RFD. Use of bilateral actions resulted in a reduction in explosive strength, which was thought to be due to differences in postural stability between unilateral and bilateral strength tasks. The level of stabiliser activation was strongly related to the level of agonist activation during the early phase of explosive force development and had a high association with explosive force production. Task-specific adaptations following isoinertial RT, specifically, the greater increase in isoinertial lifting strength than maximal isometric strength were due to training-specific changes in the level of agonist activation. High-intensity fatigue achieved a more substantial decline in explosive than maximal isometric strength, and this was postulated to be due to neural mechanisms, specifically decreased agonist activation. This work provides an in depth analysis of the neural contributions to maximal muscle performance.
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Koordinační změny ve vybrané odlehlé části pohybové soustavy při chůzi v ploché obuvi a na vysokých podpatcích / The coordination changes in the selected remote part of the motion system when walking in flat shoes and high heels shoesČuj, Jakub January 2021 (has links)
Title: Coordination changes in a selected remote part of the locomotor system when walking in straight shoes and high heels. Objective: The aim of the dissertation is to find out how walking on a high heel affects the coordination changes and timing of the beginning of muscle activation in a selected part of the musculoskeletal system in comparison with walking in shoes with straight soles. Methods: This research work has an empirical, comparative intra-individual character. Comparative analysis of coordination characteristics of the locomotor system with the experimental character of obtaining quantitative data. We used a portable electromyograph BIOMONITOR ME6000 (Mega Electronics Ltd., Finland) to monitor changes in the timing of muscle coordination during walking in flat-soled and high-heeled shoes on flat terrain and on a treadmill. We recorded the synchronized video on a Sony HDR-SR12 digital video camera (SONY Co., Japan). Motor units and their electrical potential were sensed by self-adhesive homologated hydrogels electrodes MEDICO LEAD-LOK (Medico Electrodes Int., India, ISO 13485: 2003). The research group consisted of 30 healthy women (age 25 ± 5 years, weight 57 ± 7 kg, height 16 ± 5 cm, BMI 21 ± 3), all respondents are occasional wearers of high-heeled shoes. Results: We confirmed the...
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Die ontwerp en toepassingswaarde van posisie spesifieke evalueringskriteria en norme in netbal vir senior netbalspelers (Afrikaans)Jordaan, Elsje 13 December 2007 (has links)
Globally, sport plays a significant role and forms part of every modern person’s life, irrespective of race, age, gender or ethnic group. Researchers on this topic increasingly focus on the early identification of talent and the development of the talent to ensure optimal performance. One of the most critical trademarks of human development is die correlation between age and physical ability. The primary reason why people participate in sport is to improve their level of participation and performance. Therefore every effort should be made to obtain a more scientific approach towards optimal sports performance, seeing that it is scientifically proven that it improves the effectiveness of a specific sport with regards to the selection and preparation of individuals and teams. In present time South African sport is still facing the challenge to successfully integrate previously disadvantaged communities and to select teams purely on merit. The use of scientific evaluation criteria in the selection process of teams can make a definite contribution to help solidify the selection principle of merit only. This is due to the fact that scientifically, assessed physical performance can not merely be ignored or overruled in the selection of teams. The primary objective of this study was first of all to establish whether different norms will be needed for different playing positions in netball and if the assessments that are currently used are able to accurately predict the highest level that players will be able to play at. In the second instance, the objective of this study was to try and determine which components should be part of a set of netball specific evaluation criteria. To accomplish this objective research was done to find many different test protocol and to find literature that would verify the protocol. A third objective was to identify the positional qualities that netball players have to comply to, based on the selected evaluation criteria, and to select the best tests to be used for talent identification. In other words what the minimum test requirements would be to accomplish maximum data gathering. The developed protocol consisted of three (3) motor tests, four (4) physical tests and three (3) kinanthropometrical tests. The research group used in this study consisted of 304 senior netball players i.e. players older than 19 years of age. These players were categorized into three groups, namely players competing at club, national and international level. With the presentation of the statistical analysis, percentile ranks were developed and a 100 research candidates per positional group was used; i.e. 300 netball players in total. Furthermore an ANOVA was used to determine whether there were significant differences between the three positional groups. An analysis was done to determine if the evaluation criteria could discriminate between players from different positional groups. The analysis was merely used as a classification method and did not serve to evaluate die significance of differences. The results delivered position-specific norms. A function for predicting the identification of talented and less talented players was also developed. Although the study showed certain limitations, the research can be utilized to further develop scientific talent identification criteria for netball and this will be to the advantage of sports scientists and coaches involved with netball. / Thesis (DPhil (Human Movement Science))--University of Pretoria, 2008. / Biokinetics, Sport and Leisure Sciences / DPhil / unrestricted
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Effects of overground walking with a robotic exoskeleton on lower limb muscle synergiesEscalona Castillo, Manuel Jose 11 1900 (has links)
Les exosquelettes robotisés de marche (ERM) représentent une intervention prometteuse dans le domaine de la réadaptation locomotrice. Sur le plan clinique, les ERM facilitent la mise en application de principes de neuroplasticité. Jusqu'à présent, la majorité des études analysant les effets de l’ERM a été menée avec des ERM fournissant une assistance robotique complète le long d’une trajectoire de mouvements prédéfinie des membres inférieurs (MI) de façon à reproduire la marche de façon quasi parfaite à très basse vitesse. La nouvelle génération d’ERM, maintenant disponible sur le marché, propose de nouveaux modes de contrôles qui permettent, entre autres, une liberté de mouvement accrue aux MIs (c.-à-d. trajectoire non imposée) et une possibilité d’offrir une assistance ou résistance aux mouvements de différentes intensités surtout pendant la phase d’oscillation du cycle de marche. Cependant, les effets de ces modes de contrôles sur la coordination musculaire des MI pendant la marche au sol avec l’ERM, caractérisé via l’extraction de synergies musculaires (SM), restent méconnus. Cette thèse mesure et compare les caractéristiques des SM (c.-à-d. nombre, profils d’activation, composition musculaire et contribution relative des muscles) pendant la la marche au sol sans ou avec un ERM paramétré avec six différents modes de contrôle chez des individus en bonne santé (articles #1 et #2) et d’autres ayant une lésion médullaire incomplète (LMI) (article #3). Les signaux électromyographiques (EMG) des différents muscles clés des MI, enregistrés lors de la marche, ont été utilisés afin d’extraire les SM avec un algorithme de factorisation matricielle non négative. La similarité des cosinus et les coefficients de corrélation ont caractérisé les similitudes entre les caractéristiques des SM. Les résultats montrent que: 1) les profils d'activation temporelle et le nombre de SM sont modifiés en fonction de la vitesse de marche avec, entre autres une augmentation de la vitesse de marche entrainant une fusion de SM, chez les individus en bonne santé marchant sans ERM ; 2) lorsque ces derniers marchent avec un ERM, les différents modes de contrôle testés ne dupliquent pas adéquatement les SM retrouvées lors de la marche sans ERM. En fait, uniquement le mode de contrôle libérant la contrainte de trajectoire de mouvements des MIs dans le plan sagittal lors de la phase d’oscillation reproduit les principales caractéristiques des SM retrouvées pendant la marche sans ERM ; 3) le nombre et la composition musculaire des SM sont modifiés pendant la marche sans ERM chez les personnes ayant une LMI. Cependant, parmi tous les modes de contrôle étudiés, seul le mode de contrôle libérant le contrôle de la trajectoire de mouvements des MI et assistant l’oscillation du MIs (c.-à-d. HASSIST) permets l’extraction de SM similaire à celles observées chez des individus en santé lors d'une marche sans ERM. Dans l’ensemble, cette thèse a mis en évidence le fait que différentes demandes biomécaniques liées à la marche (c.-à-d. vitesse de marche, modes de contrôle de l’ERM) modifient le nombre et les caractéristiques de SM chez les personnes en santé. Cette thèse a également confirmé que la coordination musculaire, mise en évidence via l’analyse de SM, est altérée chez les personnes ayant une LMI et a tendance à se normaliser lors de la marche avec l’ERM paramétré dans le mode de HASSIST. Les nouvelles preuves appuieront les professionnels de la réadaptation dans le processus de prise de décision concernant la sélection du mode de contrôle des MIs lors de l’entrainement locomoteur utilisant avec un ERM. / Wearable robotic exoskeletons (WRE) represent a promising rehabilitation intervention for locomotor rehabilitation training that aligns with activity-based neuroplasticity principles in terms of optimal sensory input, massed repetition, and proper kinematics. Thus far, most studies that investigated the effects of WRE have used WRE that provide full robotic assistance and fixed trajectory guidance to the lower extremity (L/E) to generate close-to-normal walking kinematics, usually at very slow speeds. Based on clinicians’ feedback, current commercially-available WRE have additional control options to be able to integrate these devices into the recovery process of individuals who have maintained some ability to walk after an injury to the central nervous system. In this context, WRE now offer additional degrees of movements for the L/E to move freely and different strategies to assist or resist movement, particularly during the gait cycle’s swing phase. However, the extent that these additional WRE control options affect L/E neuromuscular control during walking, typically characterized using muscle synergies (MSs), remains unknown. This thesis measures and compares MSs characteristics (i.e., number, temporal activation profile, and muscles contributing to a specific synergy [weightings]) during typical overground walking, with and without a WRE, in six different control modes, in abled-bodied individuals (Articles #1 and #2) and individuals with incomplete spinal cord injury (iSCI; Article #3). Surface EMG of key L/E muscles were recorded while walking and used to extract MSs using a non-negative matrix factorization algorithm. Cosine similarity and correlation coefficients characterized, grouped, and indicated similarities between MS characteristics. Results demonstrated that: 1) the number of MSs and MS temporal activation profiles in able-bodied individuals walking without WRE are modified by walking speed and that, as speed increased, specific MSs were fused or merged compared to MSs at slow speeds; 2) In able-bodied individuals walking with WRE, few WRE control modes maintained the typical MSs characteristics that were found during overground walking without WRE. Moreover, freeing the L/E swing trajectory imposed by the WRE best reproduced those MSs characteristics during overground walking without the WRE; and 3) After an iSCI, alterations to the number and the composition of MSs were observed during walking without WRE. However, of all WRE control modes that were investigated, only HASSIST (i.e., freeing WRE control over L/E swing trajectory while assisting the user’s self-selected trajectory) reproduced the number and composition of MSs found in abled-bodied individuals during overground walking without WRE. Altogether, the results of this thesis demonstrated that different walking-related biomechanical demands (i.e., walking speed) and most of the WRE control modes can alter some MSs, and their characteristics, in able-bodied individuals. This research also confirmed that impaired muscle coordination, assessed via MSs, can adapt when walking with a WRE set with specific control options (e.g., HASSIST). These MS adaptations mimicked typical MS characteristics extracted during overground walking. The evidence generated by this thesis will support the decision-making process when selecting specific L/E control options during WRE walking, allowing rehabilitation professionals to refine WRE locomotor training protocols.
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