Design and Validation of a Platform to Measure Upper Extremity Functional Performance of Joints during Standard and Complex Tasks

标准和复杂任务期间测量上肢关节功能表现的平台的设计和验证

• 批准号: RGPIN-2018-06223
• 负责人: Lalone, Emily
• 金额: $ 1.97万
• 依托单位: University of Western Ontario
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=714155
• 关键词: Design; Validation; Platform; Measure; Upper

The variety, complexity and range of hand and arm movements provides a big challenge to biomechanical assessment. As well, activities involving the hand and upper limb are extremely versatile and can include different tools, grips and various gross and motor tasks. The long-term objective of this program of research is to develop a comprehensive biomechanical model of the hand and upper limb that includes muscle activity, skeletal kinematics/motion pathways and joint contact mechanics that can be used to examine the effect of real world contexts on the mechanical performance of the hand and upper limb. The short-term objectives proposed include to: 1. Determine the Contribution of the Trunk, Shoulder and Elbow in Stabilizing the Hand and Wrist The body moves as a whole during complex tasks and requires multiple joints coordinating harmoniously. Recent studies examining rehabilitation programs for hand and arm function post stroke have suggested that the trunk contributes significantly to stabilizing motion of the hand and wrist. However, this model has not been fully developed and does not include the contribution the shoulder and elbow play in stabilizing the hand and wrist during function[1]. 2. Determine Sex-linked Biomechanical Differences between Men and Women Research has consistently reported differences in risk, injury mechanism and perception of pain between the sexes in various musculoskeletal injuries, but sex is not currently being considered in most studies of bone and joint mechanics and is not tradition in the field to test for similarities or differences between men and women. 3. Determine the Impact of Stabilizers of Hand and Arm Function on Joint Mechanics Symptoms associated with musculoskeletal injury or trauma traditionally emanate from the joints themselves. Motion capture of the hand and upper limb will be combined with individual's joint structure obtained using x-ray computed tomography (CT) to examine the effects of large loads' (of the upper extremity) (elbow, shoulder and trunk) on small bones' (joint contact mechanics of the hand and wrist). Novelty and Expected Significance of the Work Current biomechanical studies investigating the hand and upper limb do not examine the hand and upper limb as a complex system of multiple joints and do not examine joint kinematics, muscle activity and joint contact mechanics comprehensively. Currently, there is limited knowledge of joint movement patterns when people are at work, rest and play. Understanding how people use their joints in situ is critical to our increased understanding of basic biomechanics. The research proposed starts from the macro level with in situ assessment of joint performance and ends with a detailed, task specific description of individual bone surfaces and joint interactions.

手和手臂运动的多样性、复杂性和范围给生物力学评估带来了巨大的挑战。同样，涉及手和上肢的活动是非常灵活的，可以包括不同的工具，夹具和各种粗和运动任务。这项研究计划的长期目标是开发一个全面的手部和上肢生物力学模型，包括肌肉活动，骨骼运动学/运动路径和关节接触力学，可用于检查真实的世界环境对手部和上肢机械性能的影响。拟议的短期目标包括： 1.确定躯干、肩和肘在稳定手和腕中的作用 在复杂的任务中，身体作为一个整体运动，需要多个关节协调一致。最近的研究检查中风后手和手臂功能的康复计划表明，躯干对稳定手和手腕的运动有显着贡献。然而，该模型尚未完全开发，并且不包括肩关节和肘关节的作用。 在功能期间稳定手和手腕[1]。 2.确定男性和女性之间与性别相关的生物力学差异 研究一直报道在各种肌肉骨骼损伤中，性别之间在风险，损伤机制和疼痛感知方面存在差异，但目前大多数骨关节力学研究都没有考虑性别，并且该领域也没有测试男女之间相似性或差异的传统。 3.确定手和手臂功能稳定器对关节力学的影响 与肌肉骨骼损伤或创伤相关的症状传统上源自关节本身。手和上肢的运动捕捉将与使用X射线计算机断层扫描（CT）获得的个人关节结构相结合，以检查（上肢）（肘、肩和躯干）大负荷对小骨骼（手和手腕的关节接触力学）的影响。 作品的新奇性和预期意义 目前研究手和上肢的生物力学研究没有将手和上肢作为多个关节的复杂系统进行检查，也没有全面检查关节运动学，肌肉活动和关节接触力学。目前，人们在工作、休息和娱乐时对关节运动模式的了解有限。了解人们如何使用他们的关节在原位是至关重要的，我们增加了对基本生物力学的理解。建议的研究从宏观层面开始，在原位评估关节性能，并结束了一个详细的，具体任务的描述个别骨表面和关节的相互作用。