Cano-de-la-Cuerda R, Molero-Sánchez A, Carratalá-Tejada M, Alguacil-Diego I M, Molina-Rueda F, Miangolarra-Page J C, Torricelli D
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.
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.
Neurologia. 2015 Jan-Feb;30(1):32-41. doi: 10.1016/j.nrl.2011.12.010. Epub 2012 Feb 18.
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.
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.
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.
近几十年来,人们对能够解释运动控制调节及其应用的理论产生了特别的兴趣。这些理论通常基于脑功能模型,从哲学角度反映了关于大脑如何控制运动的不同标准,每种标准在运动的不同神经成分中得到强调。运动学习的概念,被视为与练习和经验相关的一组内部过程,这些过程通过特定技能在产生运动活动的能力方面产生相对持久的变化,在神经科学背景下也具有相关性。因此,运动控制和学习都被视为神经康复领域健康专业人员的关键研究领域。
描述了运动控制的主要理论,包括运动编程理论、系统理论、动态动作理论和平行分布式处理理论,以及影响运动学习的因素及其在神经康复中的应用。
目前对于哪种理论或模型定义了解释运动控制的规则尚无共识。运动学习理论应成为运动康复的基础。新的研究应将控制和运动学习领域产生的知识应用于神经康复。
