R Cano-de-la-Cuerda1, A Molero-Sánchez2, M Carratalá-Tejada3, I M Alguacil-Diego3, F Molina-Rueda3, J C Miangolarra-Page4, D Torricelli5. 1. Laboratorio de Análisis del Movimiento, Biomecánica, Ergonomía y Control Motor (LAMBECOM), Departamento de Fisioterapia, Terapia Ocupacional, Medicina Física y Rehabilitación, Facultad de Ciencias de la Salud, Universidad Rey Juan Carlos, Alcorcón, Madrid, España. Electronic address: roberto.cano@urjc.es. 2. Laboratorio de Análisis del Movimiento, Biomecánica, Ergonomía y Control Motor (LAMBECOM), Departamento de Fisioterapia, Terapia Ocupacional, Medicina Física y Rehabilitación, Facultad de Ciencias de la Salud, Universidad Rey Juan Carlos, Alcorcón, Madrid, España; Servicio de Rehabilitación, Hospital Universitario Ramón y Cajal, Madrid, España. 3. Laboratorio de Análisis del Movimiento, Biomecánica, Ergonomía y Control Motor (LAMBECOM), Departamento de Fisioterapia, Terapia Ocupacional, Medicina Física y Rehabilitación, Facultad de Ciencias de la Salud, Universidad Rey Juan Carlos, Alcorcón, Madrid, España. 4. Laboratorio de Análisis del Movimiento, Biomecánica, Ergonomía y Control Motor (LAMBECOM), Departamento de Fisioterapia, Terapia Ocupacional, Medicina Física y Rehabilitación, Facultad de Ciencias de la Salud, Universidad Rey Juan Carlos, Alcorcón, Madrid, España; Servicio de Rehabilitación, Hospital Universitario Fuenlabrada, Madrid, España. 5. Consejo Superior de Investigaciones Científicas, Centro de Automática y Robótica, Grupo Bioingeniería, Arganda del Rey, Madrid, España.
Abstract
INTRODUCTION: In recent decades there has been a special interest in theories that could explain the regulation of motor control, and their applications. These theories are often based on models of brain function, philosophically reflecting different criteria on how movement is controlled by the brain, each being emphasised in different neural components of the movement. The concept of motor learning, regarded as the set of internal processes associated with practice and experience that produce relatively permanent changes in the ability to produce motor activities through a specific skill, is also relevant in the context of neuroscience. Thus, both motor control and learning are seen as key fields of study for health professionals in the field of neuro-rehabilitation. DEVELOPMENT: The major theories of motor control are described, which include, motor programming theory, systems theory, the theory of dynamic action, and the theory of parallel distributed processing, as well as the factors that influence motor learning and its applications in neuro-rehabilitation. CONCLUSIONS: At present there is no consensus on which theory or model defines the regulations to explain motor control. Theories of motor learning should be the basis for motor rehabilitation. The new research should apply the knowledge generated in the fields of control and motor learning in neuro-rehabilitation.
INTRODUCTION: In recent decades there has been a special interest in theories that could explain the regulation of motor control, and their applications. These theories are often based on models of brain function, philosophically reflecting different criteria on how movement is controlled by the brain, each being emphasised in different neural components of the movement. The concept of motor learning, regarded as the set of internal processes associated with practice and experience that produce relatively permanent changes in the ability to produce motor activities through a specific skill, is also relevant in the context of neuroscience. Thus, both motor control and learning are seen as key fields of study for health professionals in the field of neuro-rehabilitation. DEVELOPMENT: The major theories of motor control are described, which include, motor programming theory, systems theory, the theory of dynamic action, and the theory of parallel distributed processing, as well as the factors that influence motor learning and its applications in neuro-rehabilitation. CONCLUSIONS: At present there is no consensus on which theory or model defines the regulations to explain motor control. Theories of motor learning should be the basis for motor rehabilitation. The new research should apply the knowledge generated in the fields of control and motor learning in neuro-rehabilitation.
Authors: Ranganatha Sitaram; Tomas Ros; Luke Stoeckel; Sven Haller; Frank Scharnowski; Jarrod Lewis-Peacock; Nikolaus Weiskopf; Maria Laura Blefari; Mohit Rana; Ethan Oblak; Niels Birbaumer; James Sulzer Journal: Nat Rev Neurosci Date: 2016-12-22 Impact factor: 34.870
Authors: Camilo Cortés; Aitor Ardanza; F Molina-Rueda; A Cuesta-Gómez; Luis Unzueta; Gorka Epelde; Oscar E Ruiz; Alessandro De Mauro; Julian Florez Journal: Biomed Res Int Date: 2014-07-08 Impact factor: 3.411
Authors: Joo Hwan Jung; Hye Jin Lee; Duk Youn Cho; Jung-Eun Lim; Bum Suk Lee; Seung Hyun Kwon; Hae Young Kim; Su Jeong Lee Journal: Ann Rehabil Med Date: 2019-08-31