Domellöf Erik, Bäckström Anna, Johansson Anna-Maria, Rönnqvist Louise, von Hofsten Claes, Rosander Kerstin
Department of Psychology, Umeå University, Umeå, Sweden.
Department of Psychology, Uppsala University, Uppsala, Sweden.
Dev Psychobiol. 2020 Mar;62(2):250-265. doi: 10.1002/dev.21911. Epub 2019 Sep 9.
This study explored age-related differences in motor planning as expressed in arm-hand kinematics during a sequential peg moving task with varying demands on goal insertion complexity (second-order planning). The peg was a vertical cylinder with either a circular or semicircular base. The task was to transport the peg between two positions and rotate it various amounts horizontally before fitting into its final position. The amount of rotation required was either 0°, 90°, 180°, or -90°. The reaching for the peg, the displacement of it, and the way the rotation was accomplished was analyzed. Assessments of end state comfort, goal interpretation errors, and type of grip used were also included. Participants were two groups of typically developing children, one younger (M = 6.7 years) and one older (M = 10.3 years), and one adult group (M = 34.9 years). The children, particularly 6-year-olds, displayed less efficient prehensile movement organization than adults. Related to less efficient motor planning, 6-year-olds, mainly, had shorter reach-to-grasp onset latencies, higher velocities, and shorter time to peak velocities, and longer grasp durations than adults. Importantly, the adults rotated the peg during transport. In contrast, the children made corrective rotations after the hand had arrived at the goal.
本研究探讨了在一项顺序插栓移动任务中,根据目标插入复杂性(二阶规划)的不同要求,通过手臂-手部运动学表现出的与年龄相关的运动规划差异。插栓是一个垂直的圆柱体,底部为圆形或半圆形。任务是在两个位置之间移动插栓,并在将其插入最终位置之前水平旋转不同的角度。所需旋转角度为0°、90°、180°或-90°。分析了伸手抓握插栓的动作、插栓的位移以及旋转的完成方式。还包括对最终状态舒适度、目标解读错误和抓握类型的评估。参与者分为两组发育正常的儿童,一组年龄较小(平均年龄M = 6.7岁),另一组年龄较大(平均年龄M = 10.3岁),以及一组成年人(平均年龄M = 34.9岁)。儿童,尤其是6岁的儿童,与成年人相比,其抓握动作组织效率较低。与运动规划效率较低相关的是,6岁儿童主要表现为抓握起始延迟较短、速度较高、达到峰值速度的时间较短,以及抓握持续时间比成年人更长。重要的是,成年人在移动插栓的过程中进行旋转。相比之下,儿童是在手部到达目标后进行纠正性旋转。