人体运动可变性、非线性动力学与病理学:它们之间存在关联吗?
Human movement variability, nonlinear dynamics, and pathology: is there a connection?
机构信息
Nebraska Biomechanics Core Facility, University of Nebraska at Omaha, 6001 Dodge Street, Omaha, NE 68182-0216, USA.
出版信息
Hum Mov Sci. 2011 Oct;30(5):869-88. doi: 10.1016/j.humov.2011.06.002. Epub 2011 Jul 29.
Abstract
Fields studying movement generation, including robotics, psychology, cognitive science, and neuroscience utilize concepts and tools related to the pervasiveness of variability in biological systems. The concept of variability and the measures for nonlinear dynamics used to evaluate this concept open new vistas for research in movement dysfunction of many types. This review describes innovations in the exploration of variability and their potential importance in understanding human movement. Far from being a source of error, evidence supports the presence of an optimal state of variability for healthy and functional movement. This variability has a particular organization and is characterized by a chaotic structure. Deviations from this state can lead to biological systems that are either overly rigid and robotic or noisy and unstable. Both situations result in systems that are less adaptable to perturbations, such as those associated with unhealthy pathological states or absence of skillfulness.
摘要
研究运动产生的领域,包括机器人学、心理学、认知科学和神经科学,利用与生物系统中变异性普遍存在相关的概念和工具。变异性的概念和用于评估该概念的非线性动力学度量为许多类型的运动功能障碍研究开辟了新的前景。本综述描述了对变异性的探索创新及其在理解人类运动中的潜在重要性。变异性远非错误的根源,有证据表明,它是健康和功能运动的最佳变异状态的存在。这种可变性具有特定的组织,其特征是混沌结构。偏离这种状态会导致生物系统变得过于僵硬和机器人化,或者嘈杂和不稳定。这两种情况都会导致系统对扰动的适应能力下降,例如与不健康的病理状态或缺乏技巧相关的扰动。
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