Sensory contributions to human movement and balance.

感官对人类运动和平衡的贡献。

• 批准号: 183666-2012
• 负责人: Inglis, JohnTimothy
• 金额: $ 3.42万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2012
• 资助国家: 加拿大
• 起止时间: 2012-01-01 至 2013-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=513935
• 关键词: Sensory; contributions; human; movement; balance.

The task of maintaining upright stance in the human involves a complex control system that has to use and integrate sensory information from primarily three sensory sources: the vestibular system, the somatosensory system, and the visual system. The LONG TERM GOAL of my basic research program is to better understand the fundamental role played by these sensory inputs in the control of standing balance, locomotion and movement in humans. To continue with this direction of work, two main concentration areas of research will be carried out. The SHORT TERM goal of the first main concentration area of research will focus on the influence of descending pathways on the regulation of single motorneurons in human subjects. Recent research in our laboratory using surface and wire electromyography has demonstrated significant coupling between descending vestibulospinal and reticulospinal pathways onto human motorneurons in the lower limb. The proposed experiments will further investigate the influence of these inputs on motorneurons during non standing tasks and during quiet stance. The SHORT TERM goal of the second main concentration area will be to investigate the regulation of the human muscle spindle, and uses a research technique termed microneurography. In the first set of experiments, we will look at the response profile of muscle spindles of the lower limb during realistic physiological muscle lengthening and shortening during different levels of muscle activation (passive and voluntary concentric/eccentric contractions). In the second set of experiments, different types of stimuli, known to activate the descending brainstem pathways, and associated with vestibular (stochastic Vestibular stimulation) and reticular systems (acoustic stimulation), will be used to precondition the muscle spindle. Evidence suggests that these descending pathways play a role in gamma motorneuron regulation of the muscle spindle. The experiments in this grant proposal will provide us with insight into how certain descending and peripheral inputs regulate muscle spindle and motor unit behaviour during normal stance.

人类保持直立姿势的任务涉及一个复杂的控制系统，该系统必须使用和整合来自主要三个感官来源的感官信息：前庭系统，体感系统和视觉系统。 我的基础研究计划的长期目标是更好地理解这些感觉输入在人类站立平衡，运动和运动控制中所起的基本作用。 为了继续这一工作方向，将开展两个主要的集中研究领域。第一个主要集中研究领域的短期目标将集中在下行通路对人类受试者单个运动神经元调节的影响。最近在我们实验室使用表面和电线肌电图的研究表明，在人类运动神经元在下肢下降前庭脊髓和网状脊髓通路之间的显着耦合。拟议的实验将进一步研究这些输入的影响，在非站立任务和安静的立场。第二个主要集中领域的短期目标将是研究人类肌梭的调节，并使用称为显微神经摄影术的研究技术。在第一组实验中，我们将研究在不同水平的肌肉激活（被动和自愿的同心/偏心收缩）过程中，下肢肌梭在真实的生理肌肉延长和缩短过程中的反应曲线。在第二组实验中，不同类型的刺激，已知激活下行脑干通路，并与前庭（随机前庭刺激）和网状系统（声刺激），将被用来预处理肌梭。有证据表明，这些下行通路在肌梭的γ运动神经元调节中发挥作用。在这个拨款建议的实验将为我们提供深入了解某些下行和外围输入如何调节正常站立期间的肌梭和运动单位的行为。