Gidley Larson Jennifer C, Mostofsky Stewart H
Department of Psychology, University of Utah, Salt Lake City, USA.
Autism Res. 2008 Dec;1(6):341-53. doi: 10.1002/aur.54.
Motor deficits are commonly reported in autism, with one of the most consistent findings being impaired execution of skilled movements and gestures. Given the developmental nature of autism, it is possible that deficits in motor/procedural learning contribute to impaired acquisition of motor skills. Thus, careful examination of mechanisms underlying learning and memory may be critical to understanding the neural basis of autism. A previous study reported impaired motor learning in children with high-functioning autism (HFA); however, it is unclear whether the observed deficits in motor learning are due, in part, to impaired motor execution and whether these deficits are specific to autism. In order to examine these questions, 153 children (52 with HFA, 39 with attention-deficit/hyperactivity disorder (ADHD) and 62 typically developing (TD) children) participated in two independent experiments using a Rotary Pursuit task, with change in performance across blocks as a measure of learning. For both tasks, children with HFA demonstrated significantly less change in performance than did TD children, even when differences in motor execution were minimized. Differences in learning were not seen between ADHD and TD groups on either experiment. Analyses of the pattern of findings revealed that compared with both ADHD and TD children, children with HFA showed a similar degree of improvement in performance; however, they showed significantly less decrement in performance when presented with an alternate ("interference") pattern. The findings suggest that mechanisms underlying acquisition of novel movement patterns may differ in children with autism. These findings may help explain impaired skill development in children with autism and help to guide approaches for helping children learn novel motor, social and communicative skills.
运动功能缺陷在自闭症中很常见,最一致的发现之一是熟练动作和手势的执行受损。鉴于自闭症的发展性质,运动/程序性学习缺陷可能导致运动技能习得受损。因此,仔细研究学习和记忆的潜在机制可能对理解自闭症的神经基础至关重要。先前的一项研究报告了高功能自闭症(HFA)儿童的运动学习受损;然而,尚不清楚观察到的运动学习缺陷是否部分归因于运动执行受损,以及这些缺陷是否是自闭症特有的。为了研究这些问题,153名儿童(52名HFA儿童、39名注意力缺陷多动障碍(ADHD)儿童和62名发育正常(TD)儿童)参与了两项独立实验,使用旋转追踪任务,将各阶段表现的变化作为学习的衡量指标。在两项任务中,即使将运动执行的差异最小化,HFA儿童的表现变化也明显少于TD儿童。在任何一项实验中,ADHD组和TD组之间均未发现学习差异。对结果模式的分析表明,与ADHD儿童和TD儿童相比,HFA儿童在表现上有相似程度的提高;然而,当呈现交替(“干扰”)模式时,他们的表现下降明显较少。这些发现表明,自闭症儿童获得新运动模式的潜在机制可能有所不同。这些发现可能有助于解释自闭症儿童技能发展受损的情况,并有助于指导帮助儿童学习新的运动、社交和沟通技能的方法。