Circuitos funcionales en rehabilitación
Titulo:

Circuitos funcionales en rehabilitación
.

Sumario:

Introducción: En la actualidad se ha considerado el entrenamiento funcional como la renovación de los conceptos de entrenamiento en el mundo, este tipo de entrenamiento tiene como objetivo integrar todos los elementos del movimiento corporal humano, estos elementos son: Fuerza, resistencia, potencia, velocidad, balance, agilidad, equilibrio y estabilización. Los cuales son los pilares de la fundamentación del entrenamiento funcional dirigido a actividades de la vida diaria o al acondicionamiento a nivel deportivo. Método: Se realizó una revisión sistemática de literatura de estudios contemplados del año 2000 al 2015 en bases de datos como “Ebsco” “Pedro” “Hinari” “Elsevier” “Science Direct” “Springer” “Medline”, literatura que contemplara l... Ver más

Guardado en:

Movimiento Científico

2011-7191

2463-2236

Alfonso Mantilla, José Iván

Martínez Santa, Jaime

CORPORACIÓN UNIVERSITARIA IBEROAMERICANA

10.33881/2011-7191.%x

9

2016-06-13

61

69

Colombia

Circuitos funcionales

Ejercicio funcional

Atleta

Retroalimentación

Movimiento científico - 2015

Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0.

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id metarevistapublica_ibero_movimientocientifico_87_article_995
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spelling Circuitos funcionales en rehabilitación
Functional circuits in rehabilitation
Introducción: En la actualidad se ha considerado el entrenamiento funcional como la renovación de los conceptos de entrenamiento en el mundo, este tipo de entrenamiento tiene como objetivo integrar todos los elementos del movimiento corporal humano, estos elementos son: Fuerza, resistencia, potencia, velocidad, balance, agilidad, equilibrio y estabilización. Los cuales son los pilares de la fundamentación del entrenamiento funcional dirigido a actividades de la vida diaria o al acondicionamiento a nivel deportivo. Método: Se realizó una revisión sistemática de literatura de estudios contemplados del año 2000 al 2015 en bases de datos como “Ebsco” “Pedro” “Hinari” “Elsevier” “Science Direct” “Springer” “Medline”, literatura que contemplara los siguientes términos MESH: “functional exercise”, “cognitive capacity”, “athletes”, “Feedback¨, la literatura se aceptaría en idioma español, ingles y portugués. Resultados: Después de la revisión se pudo identificar N= 49 artículos que argumentan la utilización de los circuitos funcionales en procesos de rehabilitación en fisioterapia, estos circuitos deben basarse en componentes motores y sensoriales que se combinen para darle al usuario la máxima complejidad en su tratamiento de recuperación, entre los elementos motores se encuentran coordinación, agilidad, velocidad, fuerza, resistencia y flexibilidad y los elementos cognitivos están la orientación espacial, sistema visual, somatosensorial y auditivo. Conclusiones: Los circuitos funcionales son un concepto de intervención fisioterapéutica que debe ser trabajado por todos los profesionales en rehabilitación debido a que a través del mismo se logra una integración de todos los elementos del movimiento corporal humano encaminados a la rehabilitacion de paciente y el retorno a las actividades de la vida diaria.
Introduction: Currently functional training has been considered as the renewal of training concepts in the world, this type of training aims to integrate all the elements of human body movement, these elements are: Strength, resistance, power, speed , balance, agility, balance and stabilization. Which are the pillars of the foundation of functional training aimed at activities of daily living or conditioning at a sports level. Method: A systematic literature review of studies contemplated from 2000 to 2015 was carried out in databases such as “Ebsco” “Pedro” “Hinari” “Elsevier” “Science Direct” “Springer” “Medline”, literature that contemplated the following MESH terms: “functional exercise”, “cognitive capacity”, “athletes”, “Feedback”, literature would be accepted in Spanish, English and Portuguese. Results: After the review, N= 49 articles could be identified that argue for the use of functional circuits in rehabilitation processes in physiotherapy. These circuits must be based on motor and sensory components that are combined to give the user maximum complexity in their treatment. recovery, among the motor elements are coordination, agility, speed, strength, resistance and flexibility and the cognitive elements are spatial orientation, visual, somatosensory and auditory systems. Conclusions: Functional circuits are a concept of physiotherapy intervention that must be worked on by all rehabilitation professionals because through it an integration of all the elements of human body movement is achieved aimed at patient rehabilitation and return to normal. activities of daily living.
Alfonso Mantilla, José Iván
Martínez Santa, Jaime
Circuitos funcionales
Ejercicio funcional
Atleta
Retroalimentación
Functional circuits
Functional exercise
Athlete
Feedback
9
2
Núm. 2 , Año 2015 : Revista Movimiento Científico
Artículo de revista
Journal article
2016-06-13T00:00:00Z
2016-06-13T00:00:00Z
2016-06-13
application/pdf
Bogotá: Corporación Universitaria Iberoamericana
Movimiento científico
2011-7191
2463-2236
https://revmovimientocientifico.ibero.edu.co/article/view/995
10.33881/2011-7191.%x
https://doi.org/10.33881/2011-7191.%x
spa
https://creativecommons.org/licenses/by-nc-sa/4.0
Movimiento científico - 2015
Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0.
61
69
Akbulut, T., & Agopyan, A. (2015). Effects of an Eight-Week Proprioceptive Neuromuscular Facilitation Stretching Program on Kicking Speed and Range of Motion in Young Male Soccer Players. J Strength Cond Res, 29(12), 3412-3423.
Alesi, M., Bianco, A., Padulo, J., Luppina, G., Petrucci, M., Paoli, A., . . . Pepi, A. (2015). Motor and cognitive growth following a Football Training Program. Front Psychol, 6, 1627.
Andrade, V. L., Zagatto, A. M., Kalva-Filho, C. A., Mendes, O. C., Gobatto, C. A., Campos, E. Z., & Papoti, M. (2015). Running-based Anaerobic Sprint Test as a Procedure to Evaluate Anaerobic Power. Int J Sports Med, 36(14), 1156-1162.
Asadi, A., Saez de Villarreal, E., & Arazi, H. (2015). The Effects of Plyometric Type Neuromuscular Training on Postural Control Performance of Male Team Basketball Players. J Strength Cond Res, 29(7), 1870-1875.
Bergeron, M. F., Mountjoy, M., Armstrong, N., Chia, M., Cote, J., Emery, C. A., . . . Engebretsen, L. (2015). International Olympic Committee consensus statement on youth athletic development. Br J Sports Med, 49(13), 843-851.
Bolger, R., Lyons, M., Harrison, A. J., & Kenny, I. C. (2015). Sprinting performance and resistance based training interventions: a systematic review. J Strength Cond Res, 29(4), 1146-1156.
Calleja-Gonzalez, J., Terrados, N., Mielgo-Ayuso, J., Delextrat, A., Jukic, I., Vaquera, A., . . . Ostojic, S. M. (2015). Evidence-based post-exercise recovery strategies in basketball. Phys Sportsmed, 1-5.
Carr, J. H., & Shepherd, R. B. (2010). Neurological Rehabilitation: Optimizing Motor Performance: Churchill Livingstone.
Cecchini, J. A., Fernandez-Rio, J., & Mendez-Gimenez, A. (2015). Connecting Athletes’ Self-Perceptions and Metaperceptions of Competence: a Structural Equation Modeling Approach. J Hum Kinet, 46, 189-198.
Cheatham, S. W., Kolber, M. J., Cain, M., & Lee, M. (2015). The Effects Of Self-Myofascial Release Using A Foam Roll Or Roller Massager On Joint Range Of Motion, Muscle Recovery, And Performance: A Systematic Review. Int J Sports Phys Ther, 10(6), 827-838.
Cools, A. M., Borms, D., Castelein, B., Vanderstukken, F., & Johansson, F. R. (2015). Evidence based rehabilitation of athletes with glenohumeral instability. Knee Surg Sports Traumatol Arthrosc.
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De Hoyo, M., Pozzo, M., Sanudo, B., Carrasco, L., Gonzalo-Skok, O., Dominguez-Cobo, S., & Moran-Camacho, E. (2015). Effects of a 10-week in-season eccentric-overload training program on muscle-injury prevention and performance in junior elite soccer players. Int J Sports Physiol Perform, 10(1), 46-52.
Dello Iacono, A., Padulo, J., & Ayalon, M. (2015). Core stability training on lower limb balance strength. J Sports Sci, 1-8.
Eggenberger, P., Theill, N., Holenstein, S., Schumacher, V., & de Bruin, E. D. (2015). Multicomponent physical exercise with simultaneous cognitive training to enhance dual-task walking of older adults: a secondary analysis of a 6-month randomized controlled trial with 1-year followup. Clin Interv Aging, 10, 1711-1732.
Faizullin, I., & Faizullina, E. (2015). Effects of balance training on post-sprained ankle joint instability. Int J Risk Saf Med, 27 Suppl 1, S99 s101.
Falatic, J. A., Plato, P. A., Holder, C., Finch, D., Han, K., & Cisar, C. J. (2015). Effects of Kettlebell Training on Aerobic Capacity. J Strength Cond Res, 29(7), 1943-1947.
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Frizziero, A., Vittadini, F., Fusco, A., Giombini, A., Gasparre, G., & Masiero, S. (2015). Efficacy of eccentric exercise for lower limb tendinopathies in athletes. J Sports Med Phys Fitness.
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Haugen, T., Tonnessen, E., Hisdal, J., & Seiler, S. (2014). The role and development of sprinting speed in soccer. Int J Sports Physiol Perform, 9(3), 432-441.
Hoff, J. (2005). Training and testing physical capacities for elite soccer players. J Sports Sci, 23(6), 573-582.
Iwanska, D., Karczewska, M., Madej, A., & Urbanik, C. (2015). Symmetry of proprioceptive sense in female soccer players. Acta Bioeng Biomech, 17(2), 155-163.
Junker, D. H., & Stoggl, T. L. (2015). The Foam Roll as a Tool to Improve Hamstring Flexibility. J Strength Cond Res, 29(12), 3480-3485.
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institution CORPORACIÓN UNIVERSITARIA IBEROAMERICANA
thumbnail https://nuevo.metarevistas.org/CORPORACIONUNIVERSITARIAIBEROAMERICANA/logo.png
country_str Colombia
collection Movimiento Científico
title Circuitos funcionales en rehabilitación
spellingShingle Circuitos funcionales en rehabilitación
Alfonso Mantilla, José Iván
Martínez Santa, Jaime
Circuitos funcionales
Ejercicio funcional
Atleta
Retroalimentación
Functional circuits
Functional exercise
Athlete
Feedback
title_short Circuitos funcionales en rehabilitación
title_full Circuitos funcionales en rehabilitación
title_fullStr Circuitos funcionales en rehabilitación
title_full_unstemmed Circuitos funcionales en rehabilitación
title_sort circuitos funcionales en rehabilitación
title_eng Functional circuits in rehabilitation
description Introducción: En la actualidad se ha considerado el entrenamiento funcional como la renovación de los conceptos de entrenamiento en el mundo, este tipo de entrenamiento tiene como objetivo integrar todos los elementos del movimiento corporal humano, estos elementos son: Fuerza, resistencia, potencia, velocidad, balance, agilidad, equilibrio y estabilización. Los cuales son los pilares de la fundamentación del entrenamiento funcional dirigido a actividades de la vida diaria o al acondicionamiento a nivel deportivo. Método: Se realizó una revisión sistemática de literatura de estudios contemplados del año 2000 al 2015 en bases de datos como “Ebsco” “Pedro” “Hinari” “Elsevier” “Science Direct” “Springer” “Medline”, literatura que contemplara los siguientes términos MESH: “functional exercise”, “cognitive capacity”, “athletes”, “Feedback¨, la literatura se aceptaría en idioma español, ingles y portugués. Resultados: Después de la revisión se pudo identificar N= 49 artículos que argumentan la utilización de los circuitos funcionales en procesos de rehabilitación en fisioterapia, estos circuitos deben basarse en componentes motores y sensoriales que se combinen para darle al usuario la máxima complejidad en su tratamiento de recuperación, entre los elementos motores se encuentran coordinación, agilidad, velocidad, fuerza, resistencia y flexibilidad y los elementos cognitivos están la orientación espacial, sistema visual, somatosensorial y auditivo. Conclusiones: Los circuitos funcionales son un concepto de intervención fisioterapéutica que debe ser trabajado por todos los profesionales en rehabilitación debido a que a través del mismo se logra una integración de todos los elementos del movimiento corporal humano encaminados a la rehabilitacion de paciente y el retorno a las actividades de la vida diaria.
description_eng Introduction: Currently functional training has been considered as the renewal of training concepts in the world, this type of training aims to integrate all the elements of human body movement, these elements are: Strength, resistance, power, speed , balance, agility, balance and stabilization. Which are the pillars of the foundation of functional training aimed at activities of daily living or conditioning at a sports level. Method: A systematic literature review of studies contemplated from 2000 to 2015 was carried out in databases such as “Ebsco” “Pedro” “Hinari” “Elsevier” “Science Direct” “Springer” “Medline”, literature that contemplated the following MESH terms: “functional exercise”, “cognitive capacity”, “athletes”, “Feedback”, literature would be accepted in Spanish, English and Portuguese. Results: After the review, N= 49 articles could be identified that argue for the use of functional circuits in rehabilitation processes in physiotherapy. These circuits must be based on motor and sensory components that are combined to give the user maximum complexity in their treatment. recovery, among the motor elements are coordination, agility, speed, strength, resistance and flexibility and the cognitive elements are spatial orientation, visual, somatosensory and auditory systems. Conclusions: Functional circuits are a concept of physiotherapy intervention that must be worked on by all rehabilitation professionals because through it an integration of all the elements of human body movement is achieved aimed at patient rehabilitation and return to normal. activities of daily living.
author Alfonso Mantilla, José Iván
Martínez Santa, Jaime
author_facet Alfonso Mantilla, José Iván
Martínez Santa, Jaime
topicspa_str_mv Circuitos funcionales
Ejercicio funcional
Atleta
Retroalimentación
topic Circuitos funcionales
Ejercicio funcional
Atleta
Retroalimentación
Functional circuits
Functional exercise
Athlete
Feedback
topic_facet Circuitos funcionales
Ejercicio funcional
Atleta
Retroalimentación
Functional circuits
Functional exercise
Athlete
Feedback
citationvolume 9
citationissue 2
citationedition Núm. 2 , Año 2015 : Revista Movimiento Científico
publisher Bogotá: Corporación Universitaria Iberoamericana
ispartofjournal Movimiento científico
source https://revmovimientocientifico.ibero.edu.co/article/view/995
language spa
format Article
rights https://creativecommons.org/licenses/by-nc-sa/4.0
Movimiento científico - 2015
Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0.
info:eu-repo/semantics/openAccess
http://purl.org/coar/access_right/c_abf2
references Akbulut, T., & Agopyan, A. (2015). Effects of an Eight-Week Proprioceptive Neuromuscular Facilitation Stretching Program on Kicking Speed and Range of Motion in Young Male Soccer Players. J Strength Cond Res, 29(12), 3412-3423.
Alesi, M., Bianco, A., Padulo, J., Luppina, G., Petrucci, M., Paoli, A., . . . Pepi, A. (2015). Motor and cognitive growth following a Football Training Program. Front Psychol, 6, 1627.
Andrade, V. L., Zagatto, A. M., Kalva-Filho, C. A., Mendes, O. C., Gobatto, C. A., Campos, E. Z., & Papoti, M. (2015). Running-based Anaerobic Sprint Test as a Procedure to Evaluate Anaerobic Power. Int J Sports Med, 36(14), 1156-1162.
Asadi, A., Saez de Villarreal, E., & Arazi, H. (2015). The Effects of Plyometric Type Neuromuscular Training on Postural Control Performance of Male Team Basketball Players. J Strength Cond Res, 29(7), 1870-1875.
Bergeron, M. F., Mountjoy, M., Armstrong, N., Chia, M., Cote, J., Emery, C. A., . . . Engebretsen, L. (2015). International Olympic Committee consensus statement on youth athletic development. Br J Sports Med, 49(13), 843-851.
Bolger, R., Lyons, M., Harrison, A. J., & Kenny, I. C. (2015). Sprinting performance and resistance based training interventions: a systematic review. J Strength Cond Res, 29(4), 1146-1156.
Calleja-Gonzalez, J., Terrados, N., Mielgo-Ayuso, J., Delextrat, A., Jukic, I., Vaquera, A., . . . Ostojic, S. M. (2015). Evidence-based post-exercise recovery strategies in basketball. Phys Sportsmed, 1-5.
Carr, J. H., & Shepherd, R. B. (2010). Neurological Rehabilitation: Optimizing Motor Performance: Churchill Livingstone.
Cecchini, J. A., Fernandez-Rio, J., & Mendez-Gimenez, A. (2015). Connecting Athletes’ Self-Perceptions and Metaperceptions of Competence: a Structural Equation Modeling Approach. J Hum Kinet, 46, 189-198.
Cheatham, S. W., Kolber, M. J., Cain, M., & Lee, M. (2015). The Effects Of Self-Myofascial Release Using A Foam Roll Or Roller Massager On Joint Range Of Motion, Muscle Recovery, And Performance: A Systematic Review. Int J Sports Phys Ther, 10(6), 827-838.
Cools, A. M., Borms, D., Castelein, B., Vanderstukken, F., & Johansson, F. R. (2015). Evidence based rehabilitation of athletes with glenohumeral instability. Knee Surg Sports Traumatol Arthrosc.
Daneshjoo, A., Abu Osman, N. A., Sahebozamani, M., & Yusof, A. (2015). Analysis of Jumping-Landing Manoeuvers after Different Speed Performances in Soccer Players. PLoS One, 10(11), e0143323.
De Hoyo, M., Pozzo, M., Sanudo, B., Carrasco, L., Gonzalo-Skok, O., Dominguez-Cobo, S., & Moran-Camacho, E. (2015). Effects of a 10-week in-season eccentric-overload training program on muscle-injury prevention and performance in junior elite soccer players. Int J Sports Physiol Perform, 10(1), 46-52.
Dello Iacono, A., Padulo, J., & Ayalon, M. (2015). Core stability training on lower limb balance strength. J Sports Sci, 1-8.
Eggenberger, P., Theill, N., Holenstein, S., Schumacher, V., & de Bruin, E. D. (2015). Multicomponent physical exercise with simultaneous cognitive training to enhance dual-task walking of older adults: a secondary analysis of a 6-month randomized controlled trial with 1-year followup. Clin Interv Aging, 10, 1711-1732.
Faizullin, I., & Faizullina, E. (2015). Effects of balance training on post-sprained ankle joint instability. Int J Risk Saf Med, 27 Suppl 1, S99 s101.
Falatic, J. A., Plato, P. A., Holder, C., Finch, D., Han, K., & Cisar, C. J. (2015). Effects of Kettlebell Training on Aerobic Capacity. J Strength Cond Res, 29(7), 1943-1947.
Franco-Marquez, F., Rodriguez-Rosell, D., Gonzalez- Suarez, J. M., Pareja-Blanco, F., Mora-Custodio, R., Yanez-Garcia, J. M., & Gonzalez-Badillo, J. J. (2015). Effects of Combined Resistance Training and Plyometrics on Physical Performance in Young Soccer Players. Int J Sports Med, 36(11), 906-914.
Frizziero, A., Vittadini, F., Fusco, A., Giombini, A., Gasparre, G., & Masiero, S. (2015). Efficacy of eccentric exercise for lower limb tendinopathies in athletes. J Sports Med Phys Fitness.
Guex, K. (2015). [Optimization of resistance training using elastic bands]. Rev Med Suisse, 11(481), 1434-1437.
Haugen, T., Tonnessen, E., Hisdal, J., & Seiler, S. (2014). The role and development of sprinting speed in soccer. Int J Sports Physiol Perform, 9(3), 432-441.
Hoff, J. (2005). Training and testing physical capacities for elite soccer players. J Sports Sci, 23(6), 573-582.
Iwanska, D., Karczewska, M., Madej, A., & Urbanik, C. (2015). Symmetry of proprioceptive sense in female soccer players. Acta Bioeng Biomech, 17(2), 155-163.
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citationendpage 69
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