Study on the activation of the biceps brachii compartments in normal subjects

Nejat, Nahal

08 1900

Les prothèses myoélectriques modernes peuvent être dotées de plusieurs degrés de liberté ce qui nécessite plusieurs signaux musculaires pour en exploiter pleinement les capacités. Pour obtenir plus de signaux, il nous a semblé prometteur d'expérimenter si les 6 compartiments du biceps brachial pouvaient être mis sous tension de façon volontaire et obtenir ainsi 6 signaux de contrôle au lieu d'un seul comme actuellement. Des expériences ont donc été réalisées avec 10 sujets normaux. Des matrices d'électrodes ont été placées en surface au-dessus du chef court et long du biceps pour recueillir les signaux électromyographiques (EMG) générés par le muscle lors de contractions effectuées alors que les sujets étaient soit assis, le coude droit fléchi ~ 100 ° ou debout avec le bras droit tendu à l'horizontale dans le plan coronal (sur le côté). Dans ces deux positions, la main était soit en supination, soit en position neutre, soit en pronation. L'amplitude des signaux captés au-dessus du chef court du muscle a été comparée à ceux obtenus à partir du chef long. Pour visualiser la forme du biceps sous les électrodes l'imagerie ultrasonore a été utilisée. En fonction de la tâche à accomplir, l'activité EMG a était plus importante soit dans un chef ou dans l'autre. Le fait de pouvoir activer préférentiellement l'un des 2 chefs du biceps, même si ce n'est pas encore de façon complètement indépendante, suggère que l'utilisation sélective des compartiments pourrait être une avenue possible pour faciliter le contrôle des prothèses myoélectriques du membre supérieur. / The latest myoelectric prostheses have several degrees of freedom and therefore require a large number of myoelectric signals to fully exploit their capabilities. Muscle compartments, which are intra-muscular subdivisions innervated by an individual muscle nerve branch, can be exploited to provide additional independent muscle control sites to operate such prostheses. This research presents a work to investigate the activation of the 6 biceps brachii compartments in healthy subjects to see if they have the ability to activate those compartments voluntarily. Therefore, electromyographic (EMG) signals were recorded from an array of seven and ten pairs of equally spaced surface electrodes positioned across the short and long head of the biceps of ten healthy subjects. The EMG signals are collected in two positions: 1) with the subject seated, right elbow flexed ~100°, and 2) with the subject standing with the right arm extended horizontally in the coronal plane (90°shoulder abduction). In both positions, the hand is either fully supinated, neutral, or fully pronated. The average root mean square value of the EMG signals obtained from the pairs of electrodes positioned over the short head are compared with the average obtained for the other pairs placed over the biceps long head. Ultrasound imaging also used to visualize the long and short heads of the biceps in flexed and extended arm while the hand was in different postures. Depending on the task to be accomplished, activity was larger in one head or in the other. Being able to activate either head of the biceps, while not yet completely independently, suggests that the selective use of compartments could be a possible avenue for controlling upper limb myoelectric prostheses.

Biceps brachial

BIceps brachii

Compartiment

compartment

Matrice d'électrodes

Electrode array

EMG de surface

Surface EMG

Écho

Ultrasound

Messung des reaktiven Anstiegs der Durchblutung des M. biceps brachii von Frauen mittels Farbduplexsonographie nach isometrischer Belastung / Measurement of the reactive increase in blood flow to the M. biceps brachii of women using color duplex sonography after isometric load.

Drohomirecka, Marzena

11 March 2010

No description available.

610 Medizin, Gesundheit

MED 500

Medicine

Farbduplexsonographie

M. biceps brachii

Reaktive Hyperämie

Isometrische Kontraktion

MVC

Color duplex sonography

M. biceps brachii

Reactive hyperemia

Isometric contraction

MVC

44.70 Sportmedizin

Study on the activation of the biceps brachii compartments in normal subjects

Nejat, Nahal

08 1900

Les prothèses myoélectriques modernes peuvent être dotées de plusieurs degrés de liberté ce qui nécessite plusieurs signaux musculaires pour en exploiter pleinement les capacités. Pour obtenir plus de signaux, il nous a semblé prometteur d'expérimenter si les 6 compartiments du biceps brachial pouvaient être mis sous tension de façon volontaire et obtenir ainsi 6 signaux de contrôle au lieu d'un seul comme actuellement. Des expériences ont donc été réalisées avec 10 sujets normaux. Des matrices d'électrodes ont été placées en surface au-dessus du chef court et long du biceps pour recueillir les signaux électromyographiques (EMG) générés par le muscle lors de contractions effectuées alors que les sujets étaient soit assis, le coude droit fléchi ~ 100 ° ou debout avec le bras droit tendu à l'horizontale dans le plan coronal (sur le côté). Dans ces deux positions, la main était soit en supination, soit en position neutre, soit en pronation. L'amplitude des signaux captés au-dessus du chef court du muscle a été comparée à ceux obtenus à partir du chef long. Pour visualiser la forme du biceps sous les électrodes l'imagerie ultrasonore a été utilisée. En fonction de la tâche à accomplir, l'activité EMG a était plus importante soit dans un chef ou dans l'autre. Le fait de pouvoir activer préférentiellement l'un des 2 chefs du biceps, même si ce n'est pas encore de façon complètement indépendante, suggère que l'utilisation sélective des compartiments pourrait être une avenue possible pour faciliter le contrôle des prothèses myoélectriques du membre supérieur. / The latest myoelectric prostheses have several degrees of freedom and therefore require a large number of myoelectric signals to fully exploit their capabilities. Muscle compartments, which are intra-muscular subdivisions innervated by an individual muscle nerve branch, can be exploited to provide additional independent muscle control sites to operate such prostheses. This research presents a work to investigate the activation of the 6 biceps brachii compartments in healthy subjects to see if they have the ability to activate those compartments voluntarily. Therefore, electromyographic (EMG) signals were recorded from an array of seven and ten pairs of equally spaced surface electrodes positioned across the short and long head of the biceps of ten healthy subjects. The EMG signals are collected in two positions: 1) with the subject seated, right elbow flexed ~100°, and 2) with the subject standing with the right arm extended horizontally in the coronal plane (90°shoulder abduction). In both positions, the hand is either fully supinated, neutral, or fully pronated. The average root mean square value of the EMG signals obtained from the pairs of electrodes positioned over the short head are compared with the average obtained for the other pairs placed over the biceps long head. Ultrasound imaging also used to visualize the long and short heads of the biceps in flexed and extended arm while the hand was in different postures. Depending on the task to be accomplished, activity was larger in one head or in the other. Being able to activate either head of the biceps, while not yet completely independently, suggests that the selective use of compartments could be a possible avenue for controlling upper limb myoelectric prostheses.

Biceps brachial

BIceps brachii

Compartiment

compartment

Matrice d'électrodes

Electrode array

EMG de surface

Surface EMG

Écho

Ultrasound

Human muscle spindles : complex morphology and structural organisation

Liu, Jing-Xia

January 2004

Muscle spindles are skeletal muscle mechanoreceptors that mediate the stretch reflex and provide axial and limb position information to the central nervous system. They have been proposed to play a major role in the pathophysiology of muscle pain. Knowledge about the normal human muscle spindles is needed in order to understand their role in muscle disease or dysfunction. The aim of this study was to investigate the fiber content and MyHC composition of the muscle spindles in the human biceps brachii (BB) and deep muscles of the neck (DN); to determine whether there are age-related changes in human muscle spindles with respect to structure and MyHC composition; to investigate the distribution of SERCA isoforms and to evaluate whether there is a coordinated expression of SERCA and MyHC isoforms in intrafusal fibers. The myosin heavy chain (MyHC) content correlates to contraction velocity and force and the sarcoplasmic reticulum Ca2+ ATPase (SERCA) is a major determinant of muscle fiber relaxation velocity. Muscle specimens obtained from young and old subjects were serially sectioned and the pattern of distribution of different proteins along the length of the intrafusal fibers was revealed by immunocytochemistry. The MyHC content of single muscle spindles was assessed with SDS-PAGE and immunoblots. There were clear differences between BB and DN with regard to the morphology and MyHC composition of muscle spindles. Virtually each muscle spindle in the BB, but not in the DN, had a unique allotment of numbers of bag1, bag2 and chain fibers. In DN, a number of muscle spindles lacked either bag1 or bag2 fibers. Four major MyHC isoforms (MyHCI, IIa, α-cardiac and intrafusal) were detected by SDS-PAGE. In both BB and DN, immunocytochemistry revealed co-expression of several MyHC isoforms in each intrafusal fiber and regional heterogeneity. Both nuclear bag1 and bag2 fibers contained slow tonic MyHC uniformly and MyHCI, α-cardiac, embryonic and fetal with regional variations. Nuclear chain fibers contained MyHCIIa, embryonic and fetal and in the BB also MyHCIIx. The total number of intrafusal fibers per spindle decreased significantly with aging, due to a significant reduction in the number of nuclear chain fibers. The patterns of MyHC expression were also affected by aging. The bag1 fibers predominantly contained both SERCA isoforms in the encapsulated region. The bag2 fibers were more heterogeneous in their SERCA composition and 16-27% of them lacked both isoforms. Chain fibers contained SERCA1. There was a poor correlation between the MyHC and SERCA isoforms in nuclear bag fibers, whereas a strong correlation existed between MyHCIIa and SERCA1 in the nuclear chain fibers. Human muscle spindles, each being unique, proved to be more complex than anticipated. The clear differences shown between the BB and DN muscle spindles suggest functional specialization in the control of movement among different human muscles. Aging apparently had profound effects on intrafusal fiber content and MyHC composition. The age-related changes in muscle spindle phenotype may reflect deterioration in sensory and motor innervation and are likely to have a detrimental impact on motor control in the elderly.

human

muscle spindle

intrafusal fiber

aging

biceps brachii

deep muscles of the neck

MyHC

mATPase

SERCA

Aportaciones al conocimiento electromiográfico y dinamométrico de la flexo/extensión de codo

García Vidal, José Antonio

31 May 2013

El objetivo general del trabajo fue realizar aportaciones al conocimiento dinamométrico y electromiográfico de la articulación del codo. Para ello se analizó la fuerza isométrica máxima y su variabilidad inter e intraobservador, así como el comportamiento electromiográfico de bíceps y tríceps en diferentes ejercicios dinámicos sobre una población de 23 sujetos sanos. Se determinó también la influencia del género y de la dominancia. Los resultados de las mediciones dinamométricas mostraron valores más altos de fuerza isométrica en los varones, observándose una alta correlación con la talla y el peso corporal. Un CCI>0.71 en todas las mediciones demostró la fiabilidad y reproductibilidad de este método a 90º de flexión. No se encontraron diferencias en cuanto a la lateralidad. La actividad EMGs aumentó con la carga e intensidad del ejercicio dinámico, principalmente en el bíceps. Se demostró la gran influencia del sexo y la dominancia sobre los resultados. / The aim of this study was to make contributions to the knowledge of isometric dynamometry and surface electromyography of the elbow joint. We analyzed the maximal isometric force and inter-intraobserver variability also the electromyographic behavior of biceps and triceps brachii in different dynamic exercises on a population of 23 healthy people. We determined the influence of gender and dominance too. Dynamometric measurements showed higher values of isometric strength in men, showing a high correlation with height and body weight. An ICC>0.71 for all measurements demonstrated the reliability and reproducibility of this method at 90º of elbow flexion. There were no differences between dominant and nondominant side. The sEMG activity increased with the load and intensity of dynamic exercise mainly in the biceps brachii. It showed the great influence of sex and dominance on the results.

EMGs

contracción isométrica

diferencias de género

bíceps braquial

isometric contraction

gender differences

biceps brachii

Fisioterapia

616.7

Torque articular e ativação dos musculos biceps femoral e semi-tendineo durante movimentos isocineticos de flexão do joelho em atletas de futebol / Articular torque and activation of biceps femoris and semitendinosus muscles during isokinetics movements of knee flexion in soccer's athete

Rodrigues, Carlos Eduardo Bassi

21 December 2005

Orientador: Antonio Carlos de Moraes / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Educação Fisica / Made available in DSpace on 2018-08-06T00:40:44Z (GMT). No. of bitstreams: 1 Rodrigues_CarlosEduardoBassi_M.pdf: 2031180 bytes, checksum: f6f3b959e94c9e434232c8d18c9436d2 (MD5) Previous issue date: 2005 / Resumo: Os estudos envolvendo a eletromiografia associada ao dinamômetro isocinético tem sido fundamental para o conhecimento da participação dos músculos e quantificação do torque relacionado à articulação do joelho em atletas que praticam a modalidade futebol em nível competitivo. Esta modalidade é caracterizada por movimentos explosivos e dinâmicos que exigem força rápida e resistência muscular. Estas características estão intimamente relacionadas com a função desempenhada pelos Ísquiotibiais, o que nos leva a acreditar na importância do conhecimento deste grupo muscular em relação à modalidade esportiva. O presente estudo objetivou analisar o comportamento dos sinais EMG dos músculos Bíceps Femoral (cabeça longa) e Semitendíneo e o torque articular do joelho, durante a realização de movimentos no dinamômetro isocinético. Participaram do estudo 14 atletas de futebol da categoria Juniores (18-20 anos) da Associação Atlética Ponte Preta. Os mesmos foram submetidos a um protocolo de cinco repetições de flexão (ação concêntrica e excêntrica) do joelho esquerdo em 3 velocidades (60, 180 e 300 graus/segundo), as quais foram previamente sorteadas. Entre a realização de cada velocidade houve um período de 3 minutos para repouso. A atividade eletromiográfica (EMG) foi coletada utilizando-se eletrodos de superfície e os dados foram expressos em RMS. Com relação ao RMS houve alteração entre os músculos em algumas repetições na fase concêntrica a 60°/s e de forma geral os valores expresso RMS não se alteraram com a variação da velocidade de execução bem como do tipo de contração realizada. Com relação ao torque, os maiores valores foram obtidos na velocidade de 60°/s durante a fase concêntrica. Na fase excêntrica, não houve alteração do torque com modificação da velocidade de execução. Além disso, independentemente da velocidade ou repetição considerada, os valores de torque foram maiores durante a fase excêntrica. A relação RMS/Torque não foi linear nestas condições de avaliação, pois enquanto os valores de torque variaram entre as velocidades e entre os dois tipos de contração, o RMS manteve-se praticamente estável / Abstract: Studies involving electromyography associated with isokinetic dynamometer are important do identify muscles participation and torque quantification related with knees articulation in competitive soccer¿s athlete. Explosive and dynamic movements that demand muscular resistance and explosive strength characterize soccer. These characteristics are related with the role played by isquiotibial muscle, which take us to understand the importance of studding these muscular groups in. This study aimed to analyze the electromyography data of the Biceps Femoris and Semitendinosus muscles and the knee¿s torque during the movements in the isokinetic dynamometer. To participate of the study 14 athletes soccer¿s players wore selected from the Junior¿s category (18-20 years old) of the Ponte Preta Athletic Association. They executed a protocol of 5 repetitions of flexion (concentric and eccentric action) of the left knee in three velocities (60, 80 and 120 degrees/seconds) randomly. There was a 3 minutes rest between the executions. The electromyography data was collected with surface electrodes and data expressed with RMS. The RMS data had some variation between the two muscles in some repetitions of the concentric phase at 60º/s and generally the RMS data had no variation in the three velocities or in the two different muscle¿s contraction. For the torque, the highest data was from the 60º/s velocity in concentric contraction. For the eccentric contraction there was no torque¿s variation in the different velocities. Moreover, independent of velocities or repetitions eccentric phase had higher data for the torque. The relation RMS/torque was not constant because torque data changed during different velocities and different contraction and RMS kept almost stabled. / Mestrado / Mestre em Educação Física

Futebol

Atletas

Músculos

Movimento humano

Joelho

Eletromiografia

Biceps femoris

Semitendinosus

Electromiography

Isokinetic

Soccer

Investigação das propriedades do sinal eletromiográfico do músculo bíceps braquial em diferentes níveis de força isométrica voluntària

Alvim, Felipe Costa

30 March 2012

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-05-31T14:03:18Z No. of bitstreams: 1 felipecostaalvim.pdf: 1024726 bytes, checksum: 960e31300fb235185572e16e58bf4a19 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-07-02T12:42:12Z (GMT) No. of bitstreams: 1 felipecostaalvim.pdf: 1024726 bytes, checksum: 960e31300fb235185572e16e58bf4a19 (MD5) / Made available in DSpace on 2016-07-02T12:42:12Z (GMT). No. of bitstreams: 1 felipecostaalvim.pdf: 1024726 bytes, checksum: 960e31300fb235185572e16e58bf4a19 (MD5) Previous issue date: 2012-03-30 / FAPEMIG - Fundação de Amparo à Pesquisa do Estado de Minas Gerais / Introdução: O sistema nervoso central (SNC) utiliza o recrutamento de unidades motoras e a modulação da frequência de ativação dessas unidades para controlar a força voluntária exercida por um músculo. A eletromiografia de superfície (sEMG) pode ser utilizada para captar o sinal elétrico resultante do somatório dos potenciais de ação das fibras musculares recrutadas durante o processo de produção de força. A análise da variável root mean square (RMS) e da frequência mediana (Fm) tem sido utilizada para extrair informações a respeito dos mecanismos de controle da força utilizados pelo SNC. Objetivos: Investigar as propriedades do sinal eletromiográfico de indivíduos adultos através das variáveis RMS, Fm e da análise da distribuição da potência por faixas de frequência em contrações isométricas para os níveis de força iguais a 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80% e 90% da contração isométrica voluntária máxima (CIVM). Metodogia: Os sinais eletromiográficos foram obtidos a partir da contração isométrica voluntária do bíceps braquial de vinte voluntários jovens saudáveis bilateralmente nos níveis submáximos de força. Um algoritmo foi elaborado visando identificar o trecho ideal do sinal eletromiográfico a ser analisado. As variáveis RMS, Fm e a densidade de potências por faixa de 5 Hz e 10 Hz foram calculadas. Resultados e discussão: A variável RMS apresentou aumento linear com o incremento da força, conforme esperado. A variável Fm apresentou aumento entre 10% e 30% da CIVM e diminuiu para níveis de força superiores. Esse comportamento pode estar relacionado ao protocolo experimental conforme indicado na literatura. A análise da densidade de potência por faixa mostrou uma concentração da densidade de potência na faixa entre 40 e 50 Hz em 10% da CIVM. Essa concentração de potência diminuiu progressivamente em 20% e 30% do nível de força e voltou a ocorrer, na mesma faixa de frequência, em 40% da CIVM. Esse comportamento pode estar relacionado ao acréscimo de fibras de contração dos tipos IIa e IIb ao processo produção de força. Entre 40 e 90% da CIVM a concentração de potência na faixa entre 40 e 50 Hz diminui. Conclusões: As variáveis extraídas do sinal eletromiográfico apresentaram comportamento compatível com o descrito na literatura em protocolos contendo contrações em diversos níveis submáximos da CIVM. Suas variações podem estar relacionadas a diferenças no protocolo experimental. A análise da densidade de potência por faixa de frequências pode trazer informações adicionais estando relacionadas ao processo de recrutamento e ativação das unidades motoras durante o incremento de força. / Introduction: Central nervous system (CNS) uses the motor unit recruitment and the rate coding of the recruited units to control the voluntary force exerted by a muscle. Surface electromyography (sEMG) can be used to capture the electrical signal resulting from the summation of the action potentials of the muscle fibers recruited during the force production. The analysis of the variable root mean square (RMS) and median frequency (Fm) has been used to extract information about the control mechanisms of force used by the CNS. Objectives: To investigate the properties of the electromyographic signal through RMS and Fm variables and analyze the power density distribution in frequency bands in isometric force levels equal to 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80% and 90% of maximal voluntary isometric contraction (MIVC). Methods: The signals were obtained bilaterally from the isometric contraction of the biceps brachii muscle of twenty young healthy volunteers in submaximals force levels. An algorithm was developed to identify the ideal section of the electromyographic signal to be analyzed. The variable RMS, Fm and power density distribution in frequency bands of 5 Hz and 10 Hz were calculated. Results and discussion: The variable RMS increased linearly with increasing force, as expected. The variable Fm had increased between 10% and 30% MVIC and than decreased toward high force levels. This behavior can be related to the experimental protocol as described in the literature. The analysis of the power density distribution in frequency bands showed a concentration of power density in the range between 40 Hz and 50 Hz in 10% MIVC. This power density concentration progressively reduced in 20% to 30% of the MIVC and occurs again on the same frequency range in 40% MVIC. This behavior may be related to increased fibers type IIa and IIb to the force production process. From 40% to 90% of the MIVC the concentration in power density in range between 40 Hz and 50 Hz decreases. Conclusions: The variables extracted from the EMG signal showed behavior compatible with the protocols described in the literature containing submaximal contractions at different levels of MIVC. Their variations may be related to differences in experimental protocol. The analysis of power density distribution in frequency bands can provide additional information being related to the recruitment and rate coding of motor units during the increase in voluntary force.

CNPQ::CIENCIAS DA SAUDE::EDUCACAO FISICA

Força

Eletromiografia

Bíceps braquial

Force

Electromyography

Biceps brachii

Účinek aplikace kinesiotapu na svalovou aktivitu dlouhé hlavy bicepsu u hráčů baseballu / The Effect of Kinesio Tape on the Muscle Activation of the Long Head of the Biceps in Baseball Players

Truesdale, Joseph

January 2021

Thesis Title: The Effect of Kinesio Tape (KT) on the Muscle Activation of the Long Head of the Biceps in Baseball Players. Objective: KT is one of several treatment techniques in injury prevention and treatment for high demand movements, such as overhead throwing. The baseball throwing motion, or the overhead throwing motion, places tremendous stress on the shoulder where coordination of its subsequent musculature, such as the long head of the biceps, are crucial. As a result, injuries do occur. However, the acute effect of KT on the muscular activity of the LHB is not well known. The aim of this thesis is to verify that the application of KT to the skin located superficially to the Long Head of the Biceps increases its activity in the baseball throwing motion. Methods: The research sample included 21 active Czech Extraliga baseball players (21 male, aged 25.3 ±5.9 years, height 183.2 ±6.9 cm, weight 83.8 ±11.1 kg, years baseball of participation 17.1 ±6.5 years), which reported no current or recent shoulder pain or injury. The surface Electromyograph (sEMG) of the muscle activity from each subject was collected using a Bittium Biomonitor transmitter and receiver, model ME6000 (Bittium Inc. Oulu, Finland). There was recorded Maximum Voluntary Isometric Contraction (MVIC) activity of the Long Head...

A Whole Genome Scanning for QTL Affecting Leg Weakness and Its Related Traits in a White Duroc × Erhualian Resource Population / Genomweite QTL Typisierung für Fundamentqualität beim Schwein in einer Weiße Duroc x Erhualian Kreuzungspopulation

Guo, Yuanmei

19 January 2009

No description available.

630 Landwirtschaft

Veterinärmedizin

Agricultural Sciences

Musculus biceps brachii

Lahmheit

Knochendichte

Kopplungskarten

Schein

QTL

biceps brachii muscle

Leg weakness

Limb bone

Linkage map

Pig

QTL

42.64

YNU 400: Schwein {Tiermedizin}

Biceps brachii synergy and its contribution to target reaching tasks within a virtual cube

He, Liang

07 1900

Ces dernières années, des travaux importants ont été observés dans le développement du contrôle prothétique afin d'aider les personnes amputées du membre supérieur à améliorer leur qualité de vie au quotidien. Certaines prothèses myoélectriques modernes des membres supérieurs disponibles dans le commerce ont de nombreux degrés de liberté et nécessitent de nombreux signaux de contrôle pour réaliser plusieurs tâches fréquemment utilisées dans la vie quotidienne. Pour obtenir plusieurs signaux de contrôle, de nombreux muscles sont requis mais pour les personnes ayant subi une amputation du membre supérieur, le nombre de muscles disponibles est plus ou moins réduit selon le niveau de l’amputation. Pour accroître le nombre de signaux de contrôle, nous nous sommes intéressés au biceps brachial, vu qu’anatomiquement il est formé de 2 chefs et que de la présence de compartiments a été observée sur sa face interne. Physiologiquement, il a été trouvé que les unités motrices du biceps sont activées à différents endroits du muscle lors de la production de diverses tâches fonctionnelles. De plus, il semblerait que le système nerveux central puisse se servir de la synergie musculaire pour arriver à facilement produire plusieurs mouvements. Dans un premier temps on a donc identifié que la synergie musculaire était présente chez le biceps de sujets normaux et on a montré que les caractéristiques de cette synergie permettaient d’identifier la posture statique de la main lorsque les signaux du biceps avaient été enregistrés. Dans un deuxième temps, on a réussi à démontrer qu’il était possible, dans un cube présenté sur écran, à contrôler la position d’une sphère en vue d’atteindre diverses cibles en utilisant la synergie musculaire du biceps. Les techniques de classification utilisées pourraient servir à faciliter le contrôle des prothèses myoélectriques. / In recent years, important work has been done in the development of prosthetic control to help upper limb amputees improve their quality of life on a daily basis. Some modern commercially available upper limb myoelectric prostheses have many degrees of freedom and require many control signals to perform several tasks commonly used in everyday life. To obtain several control signals, many muscles are required, but for people with upper limb amputation, the number of muscles available is more or less reduced, depending on the level of amputation. To increase the number of control signals, we were interested in the biceps brachii, since it is anatomically composed of 2 heads and the presence of compartments was observed on its internal face. Physiologically, it has been found that the motor units of the biceps are activated at different places of the muscle during production of various functional tasks. In addition, it appears that the central nervous system can use muscle synergy to easily produce multiple movements. In this research, muscle synergy was first identified to be present in the biceps of normal subjects, and it was shown that the characteristics of this synergy allowed the identification of static posture of the hand when the biceps signals had been recorded. In a second investigation, we demonstrated that it was possible in a virtual cube presented on a screen to control online the position of a sphere to reach various targets by using muscle synergy of the biceps. Classification techniques have been used to improve the classification of muscular synergy features, and these classification techniques can be integrated with control algorithm that produces dynamic movement of myoelectric prostheses to facilitate the training of prosthetic control.

membre supérieur

prothèses myoélectriques

biceps brachial

cube virtuel

synergie musculaire

électromyographie

cibles

upper limb

myoelectric prostheses

biceps brachii

virtual cube

muscle synergy

electromyography

targets