Vandael Kristof, Stanton Tasha R, Meulders Ann
Experimental Health Psychology, University of Maastricht, Maastricht, Netherlands.
Laboratory of Biological Psychology, Katholieke Universiteit Leuven, Leuven, Belgium.
PeerJ. 2021 May 3;9:e11301. doi: 10.7717/peerj.11301. eCollection 2021.
Proprioception refers to the perception of motion and position of the body or body segments in space. A wide range of proprioceptive tests exists, although tests dynamically evaluating sensorimotor integration during upper limb movement are scarce. We introduce a novel task to evaluate kinesthetic proprioceptive function during complex upper limb movements using a robotic device. We aimed to evaluate the test-retest reliability of this newly developed Dynamic Movement Reproduction (DMR) task. Furthermore, we assessed reliability of the commonly used Joint Reposition (JR) task of the elbow, evaluated the association between both tasks, and explored the influence of visual information (viewing arm movement or not) on performance during both tasks.
During the DMR task, participants actively reproduced movement patterns while holding a handle attached to the robotic arm, with the device encoding actual position throughout movement. In the JR task, participants actively reproduced forearm positions; with the final arm position evaluated using an angle measurement tool. The difference between target movement pattern/position and reproduced movement pattern/position served as measures of accuracy. In study 1 ( = 23), pain-free participants performed both tasks at two test sessions, 24-h apart, both with and without visual information available (i.e., vision occluded using a blindfold). In study 2 ( = 64), an independent sample of pain-free participants performed the same tasks in a single session to replicate findings regarding the association between both tasks and the influence of visual information.
The DMR task accuracy showed good-to-excellent test-retest reliability, while JR task reliability was poor: measurements did not remain sufficiently stable over testing days. The DMR and JR tasks were only weakly associated. Adding visual information (i.e., watching arm movement) had different performance effects on the tasks: it increased JR accuracy but decreased DMR accuracy, though only when the DMR task started with visual information available (i.e., an order effect).
The DMR task's highly standardized protocol (i.e., largely automated), precise measurement and involvement of the entire upper limb kinetic chain (i.e., shoulder, elbow and wrist joints) make it a promising tool. Moreover, the poor association between the JR and DMR tasks indicates that they likely capture unique aspects of proprioceptive function. While the former mainly captures position sense, the latter appears to capture sensorimotor integration processes underlying kinesthesia, largely independent of position sense. Finally, our results show that the integration of visual and proprioceptive information is not straightforward: additional visual information of arm movement does not necessarily make active movement reproduction more accurate, on the contrary, when movement is complex, vision appears to make it worse.
本体感觉是指对身体或身体各部分在空间中的运动和位置的感知。虽然存在多种本体感觉测试方法,但动态评估上肢运动过程中感觉运动整合的测试却很少。我们引入了一项新任务,使用机器人设备来评估复杂上肢运动过程中的动觉本体感觉功能。我们旨在评估这项新开发的动态运动再现(DMR)任务的重测信度。此外,我们评估了常用的肘部关节复位(JR)任务的信度,评估了两项任务之间的关联,并探讨了视觉信息(是否观看手臂运动)对两项任务表现的影响。
在DMR任务中,参与者握住连接到机器人手臂的手柄,积极再现运动模式,设备在整个运动过程中记录实际位置。在JR任务中,参与者积极再现前臂位置;使用角度测量工具评估最终手臂位置。目标运动模式/位置与再现运动模式/位置之间的差异作为准确性的衡量指标。在研究1(n = 23)中,无痛参与者在两个测试时段进行这两项任务,间隔24小时,分别在有视觉信息(即不使用眼罩遮挡视线)和无视觉信息(即使用眼罩遮挡视线)的情况下进行。在研究2(n = 64)中,一组独立的无痛参与者在单个时段进行相同的任务,以重复关于两项任务之间的关联以及视觉信息影响的研究结果。
DMR任务的准确性显示出良好到优秀的重测信度,而JR任务的信度较差:测量结果在测试日之间没有保持足够的稳定性。DMR和JR任务之间的关联较弱。添加视觉信息(即观看手臂运动)对两项任务有不同的表现影响:它提高了JR任务的准确性,但降低了DMR任务的准确性,不过只有当DMR任务开始时有视觉信息可用时(即存在顺序效应)才会出现这种情况。
DMR任务高度标准化的方案(即很大程度上自动化)、精确的测量以及整个上肢动力链(即肩部、肘部和腕关节)的参与使其成为一个有前景的工具。此外,JR和DMR任务之间的弱关联表明它们可能捕捉到了本体感觉功能独特的方面。前者主要捕捉位置感觉,而后者似乎捕捉到了运动感觉背后的感觉运动整合过程,很大程度上独立于位置感觉。最后,我们的结果表明视觉和本体感觉信息的整合并非简单直接:手臂运动附加的视觉信息不一定会使主动运动再现更准确,相反,当运动复杂时,视觉似乎会使其更糟。
