Giszter Simon, Patil Vidyangi, Hart Corey
Neurobiology and Anatomy, Drexel University College of Medicine, 2900 Queen Lane, Philadelphia, PA 19129, USA.
Prog Brain Res. 2007;165:323-46. doi: 10.1016/S0079-6123(06)65020-6.
A modular motor organization may be needed to solve the degrees of freedom problem in biological motor control. Reflex elements, kinematic primitives, muscle synergies, force-field primitives and/or pattern generators all have experimental support as modular elements. We discuss the possible relations of force-field primitives, spinal feedback systems, and pattern generation and shaping systems in detail, and review methods for examining underlying motor pattern structure in intact or semi-intact behaving animals. The divisions of systems into primitives, synergies, and rhythmic elements or oscillators suggest specific functions and methods of construction of movement. We briefly discuss the limitations and caveats needed in these interpretations given current knowledge, together with some of the hypotheses arising from these frameworks.
可能需要一种模块化的运动组织来解决生物运动控制中的自由度问题。反射元件、运动学原语、肌肉协同作用、力场原语和/或模式发生器都作为模块化元件得到了实验支持。我们详细讨论了力场原语、脊髓反馈系统以及模式生成和塑造系统之间的可能关系,并回顾了在完整或半完整行为动物中检查潜在运动模式结构的方法。将系统划分为原语、协同作用以及节律性元素或振荡器,这暗示了运动构建的特定功能和方法。鉴于当前的知识,我们简要讨论了这些解释中所需的局限性和注意事项,以及由这些框架产生的一些假设。