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    Design of a monitoring system for the acquisition of noninvasive electromyographic signals in upper extremities

    Diseño de un sistema de monitoreo para la adquisición de señales electromiográficas no invasivas en extremidades superiores;
    Projeto de um sistema de monitoramento para a aquisição de sinais eletromiográficos não invasivos nas extremidades superiores

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    Gonzalez Amarillo, Angela Maria
    Granados Comba, Adriana
    Ballesteros Ricaurte, Javier Antonio
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    http://revistas.ustatunja.edu.co/index.php/ingeniomagno/article/view/1349
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    TY - GEN T1 - Design of a monitoring system for the acquisition of noninvasive electromyographic signals in upper extremities T1 - Diseño de un sistema de monitoreo para la adquisición de señales electromiográficas no invasivas en extremidades superiores T1 - Projeto de um sistema de monitoramento para a aquisição de sinais eletromiográficos não invasivos nas extremidades superiores AU - Gonzalez Amarillo, Angela Maria AU - Granados Comba, Adriana AU - Ballesteros Ricaurte, Javier Antonio PB - Universidad Santo Tomás Seccional Tunja AB - The techniques and technologies to collect, analyze, represent and store medical data in a reliable way have evolved rapidly. One of these methodologies is the clinical surface electromyography, which allows recording and analyzing bioelectric activity useful for the diagnosis of congenital or acquired neuromuscular disorders, as well as determining the exact anatomic location of the problem and intensity. The electromyographic signal is a technique used for various applications in different areas such as neurology, rehabilitation, orthopedics, among others. This article presents the design of the stages of the development and implementation for the simulation of surface electromyographic (EMG) signals, by means of a non-invasive method, which provides the electrical activity of the muscles with great objectivity and promptness which are checked in upper limb muscles. For the implementation of the circuits, components of easy acquisition are used, contributing to the technological development of the country. ER - @misc{11634_12276, author = {Gonzalez Amarillo Angela Maria and Granados Comba Adriana and Ballesteros Ricaurte Javier Antonio}, title = {Design of a monitoring system for the acquisition of noninvasive electromyographic signals in upper extremitiesDiseño de un sistema de monitoreo para la adquisición de señales electromiográficas no invasivas en extremidades superioresProjeto de um sistema de monitoramento para a aquisição de sinais eletromiográficos não invasivos nas extremidades superiores}, year = {}, abstract = {The techniques and technologies to collect, analyze, represent and store medical data in a reliable way have evolved rapidly. One of these methodologies is the clinical surface electromyography, which allows recording and analyzing bioelectric activity useful for the diagnosis of congenital or acquired neuromuscular disorders, as well as determining the exact anatomic location of the problem and intensity. The electromyographic signal is a technique used for various applications in different areas such as neurology, rehabilitation, orthopedics, among others. This article presents the design of the stages of the development and implementation for the simulation of surface electromyographic (EMG) signals, by means of a non-invasive method, which provides the electrical activity of the muscles with great objectivity and promptness which are checked in upper limb muscles. For the implementation of the circuits, components of easy acquisition are used, contributing to the technological development of the country.}, url = {} }RT Generic T1 Design of a monitoring system for the acquisition of noninvasive electromyographic signals in upper extremities T1 Diseño de un sistema de monitoreo para la adquisición de señales electromiográficas no invasivas en extremidades superiores T1 Projeto de um sistema de monitoramento para a aquisição de sinais eletromiográficos não invasivos nas extremidades superiores A1 Gonzalez Amarillo, Angela Maria A1 Granados Comba, Adriana A1 Ballesteros Ricaurte, Javier Antonio PB Universidad Santo Tomás Seccional Tunja AB The techniques and technologies to collect, analyze, represent and store medical data in a reliable way have evolved rapidly. One of these methodologies is the clinical surface electromyography, which allows recording and analyzing bioelectric activity useful for the diagnosis of congenital or acquired neuromuscular disorders, as well as determining the exact anatomic location of the problem and intensity. The electromyographic signal is a technique used for various applications in different areas such as neurology, rehabilitation, orthopedics, among others. This article presents the design of the stages of the development and implementation for the simulation of surface electromyographic (EMG) signals, by means of a non-invasive method, which provides the electrical activity of the muscles with great objectivity and promptness which are checked in upper limb muscles. For the implementation of the circuits, components of easy acquisition are used, contributing to the technological development of the country. OL Spanish (121)
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    Abstract
    The techniques and technologies to collect, analyze, represent and store medical data in a reliable way have evolved rapidly. One of these methodologies is the clinical surface electromyography, which allows recording and analyzing bioelectric activity useful for the diagnosis of congenital or acquired neuromuscular disorders, as well as determining the exact anatomic location of the problem and intensity. The electromyographic signal is a technique used for various applications in different areas such as neurology, rehabilitation, orthopedics, among others. This article presents the design of the stages of the development and implementation for the simulation of surface electromyographic (EMG) signals, by means of a non-invasive method, which provides the electrical activity of the muscles with great objectivity and promptness which are checked in upper limb muscles. For the implementation of the circuits, components of easy acquisition are used, contributing to the technological development of the country.
     
    Las técnicas y las tecnologías para recopilar, analizar, representar y almacenar datos médicos de manera fiable han evolucionado vertiginosamente, una de estas metodologías es la electromiografía clínica de superficie, la cual permite registrar y analizar actividad bioeléctrica útil para el diagnóstico de los trastornos neuromusculares congénitos o adquiridos, así como determinar la localización anatómica exacta del problema e intensidad. La señal electromiográfica es una técnica utilizada para diversas aplicaciones en diferentes áreas como la neurología, la rehabilitación, la ortopedia, entre otras. Este artículo presenta el diseño de cada una de las etapas del desarrollo e implementación para la simulación de señales electromiograficas (EMG) de superficie, mediante un método no invasivo el cual proporciona la actividad eléctrica de los músculos con una gran objetividad y prontitud las cuales son comprobadas en músculos de miembros superiores. Para la implementación de los circuitos, se utilizan componentes de fácil adquisición contribuyendo con el desarrollo tecnológico del país.
     
    As técnicas e tecnologias para colecionar, analisar, representar e armazenar dados médicos de forma confiável evoluíram rapidamente. Uma dessas metodologias é a eletromiografia de superfície clínica, que permite gravar e analisar a atividade bioelétrica útil para o diagnóstico de transtornos neuromusculares congênitos ou adquiridos, bem como determinar a localização anatômica exata do problema e da intensidade. O sinal eletromiográfico é uma técnica utilizada para várias aplicações em diferentes áreas, como neurologia, reabilitação, ortopedia, entre outros. Este artigo apresenta o design de cada uma das etapas de desenvolvimento e implementação para simulação de sinais eletromiográficos de superfície (EMG), utilizando um método não-invasivo. Que proporciona a atividade elétrica dos músculos com grande objetividade e rapidez que são verificados nos músculos dos membros superiores. Para a implementação dos circuitos, São utilizados componentes fáceis de usar, contribuindo para o desenvolvimento tecnológico do país.
     

     

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