Contributions of Neural and Mechanical Input to Spinal Motoneuron Output in Human Force Control

神经和机械输入对人体力控制中脊髓运动神经元输出的贡献

• 批准号: RGPIN-2018-05097
• 负责人: Jakobi, Jennifer
• 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: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=689448
• 关键词: Contributions; Neural; Mechanical; Input; Spinal

Production of functional movement is malleable; it can be trained to improve output and over time it deteriorates with age. This age-related functional deterioration in movement control is more pronounced in women than in men. Over the next 5 years, studies will be conducted to ascertain the contributions of spinal motoneuron output in the production of steady movement to understand greater age-related decline in force control in women compared to men. Spinal inputs that modulate motoneuron output in the biceps brachii will be quantified in the evaluation of force control in isometric and dynamic contractions as well as functional movement in the elbow flexors of young (18-30 years) and old (>75 years) men and women. The biceps brachii muscle, through distinct anatomical and physiological compartments of the short and long heads are ideal for studying how small changes in motoneuron output impacts force production, especially forearm control that is central to functional movement. Initial projects will focus on the contribution of reflex feedback in modulating motoneuron output differentially between heads, and the impact on force production. Functional movement will be modeled through the task of lifting and lowering a cup for drinking to quantify motoneuron output with control tasks of dynamic contractions that are matched for position and acceleration with the functional task. Experiments will use surface and indwelling electromyography (EMG) to measure the activity of specific muscles and motor units that regulate the production of steady contractions. Ultrasonography is included to quantify the mechanical contributions of muscle and tendon. Additional to neural output, force transfer through muscle and tendon is integral to steady force control. Through a series of investigations we will be the first to quantify single motor unit activity during functional movement and ascertain how reflex feedback is integrated to alter spinal motoneuron output between synergist muscle compartments in the evolution of producing steady contractions as men and women age. This research will generate fundamental knowledge about spinal networks in humans that collectively contribute to understanding motoneuron output in the regulation of force transfer that creates functional upper limb movement. This research is significant as integration between neural and mechanics is integral to understanding the plasticity of the neuromuscular system that contributes to sex-specific age-related decline of functional movement. Consistent with prior investigations, this research program will result in advanced training for approximately 20 highly qualified personnel enabling technical skill development in neurophysiology applicable to scientific discovery in basic human movement science.

功能性运动的产生是可塑性的;它可以通过训练来提高输出，随着时间的推移，它会随着年龄的增长而恶化。这种与年龄相关的运动控制功能退化在女性中比男性更明显。在接下来的5年里，将进行研究，以确定脊髓运动神经元输出在产生稳定运动中的贡献，以了解与男性相比，女性力量控制能力的年龄相关性下降更大。调节肱二头肌运动神经元输出的脊髓输入将在评估年轻（18-30岁）和老年（>75岁）男性和女性手肘屈肌等长和动态收缩以及功能性运动中的力控制时进行量化。肱二头肌通过短头和长头的不同解剖和生理隔室，是研究运动神经元输出的微小变化如何影响力量产生的理想选择，特别是对功能性运动至关重要的前臂控制。初步项目将集中在调制运动神经元输出的反射反馈的贡献不同的头部之间，以及对生产力的影响。功能性运动将通过举起和放下杯子进行饮用的任务来建模，以量化运动神经元输出，其中动态收缩的控制任务与功能性任务的位置和加速度相匹配。实验将使用表面和留置肌电图（EMG）来测量特定肌肉和运动单位的活动，这些肌肉和运动单位调节稳定收缩的产生。包括超声检查以量化肌肉和肌腱的机械贡献。除了神经输出之外，通过肌肉和肌腱的力传递对于稳定力控制是不可或缺的。通过一系列的调查，我们将是第一个量化功能性运动过程中的单个运动单元活动，并确定反射反馈是如何整合的，以改变脊髓运动神经元输出之间的肌肉隔间的演变，产生稳定的收缩，作为男性和女性的年龄。这项研究将产生有关人类脊髓网络的基础知识，这些知识共同有助于理解运动神经元输出在调节力传递中的作用，从而产生功能性上肢运动。这项研究具有重要意义，因为神经和力学之间的整合对于理解神经肌肉系统的可塑性是不可或缺的，这种可塑性有助于功能运动的性别特异性年龄相关性下降。与之前的调查一致，该研究计划将为大约20名高素质的人员提供高级培训，使神经生理学的技术技能发展适用于基础人体运动科学的科学发现。