Allen Greg, Courchesne Eric
Laboratory for Research on the Neuroscience of Autism, San Diego Children's Hospital Research Center, La Jolla, CA 92037, USA.
Am J Psychiatry. 2003 Feb;160(2):262-73. doi: 10.1176/appi.ajp.160.2.262.
Recent years have seen a revolution in views regarding cerebellar function. New findings suggest that the cerebellum plays a role in multiple functional domains: cognitive, affective, and sensory as well as motor. These findings imply that developmental cerebellar pathology could play a role in certain nonmotor functional deficits, thereby calling for a broader investigation of the functional consequences of cerebellar pathology. Autism provides a useful model, since over 90% of autistic cerebella examined at autopsy have shown well-defined cerebellar anatomic abnormalities. The aim of the present study was to examine how such pathology ultimately impacts cognitive and motor function within the cerebellum.
Patterns of functional magnetic resonance imaging (fMRI) activation within anatomically defined cerebellar regions of interest were examined in eight autistic patients (ages 14-38 years) and eight matched healthy comparison subjects performing motor and attention tasks. For the motor task, subjects pressed a button at a comfortable pace, and activation was compared with a rest condition. For the attention task, visual stimuli were presented one at a time at fixation, and subjects pressed a button to every target. Activation was compared with passive visual stimulation.
While performing these tasks, autistic individuals showed significantly greater cerebellar motor activation and significantly less cerebellar attention activation.
These findings shed new light on the cerebellar role in attention deficits in autism and suggest that developmental cerebellar abnormality has differential functional implications for cognitive and motor systems.
近年来,人们对小脑功能的看法发生了变革。新的研究结果表明,小脑在多个功能领域发挥作用:认知、情感、感觉以及运动。这些发现意味着发育性小脑病变可能在某些非运动功能缺陷中起作用,因此需要对小脑病变的功能后果进行更广泛的研究。自闭症提供了一个有用的模型,因为在尸检中检查的超过90%的自闭症小脑显示出明确的小脑解剖异常。本研究的目的是研究这种病变最终如何影响小脑中的认知和运动功能。
在八名自闭症患者(年龄14 - 38岁)和八名匹配的健康对照受试者执行运动和注意力任务时,检查了解剖学定义的小脑感兴趣区域内的功能磁共振成像(fMRI)激活模式。对于运动任务,受试者以舒适的速度按下按钮,并将激活与休息状态进行比较。对于注意力任务,视觉刺激在注视点一次呈现一个,受试者对每个目标按下按钮。将激活与被动视觉刺激进行比较。
在执行这些任务时,自闭症个体显示出小脑运动激活明显增加,而小脑注意力激活明显减少。
这些发现为小脑在自闭症注意力缺陷中的作用提供了新的线索,并表明发育性小脑异常对认知和运动系统具有不同的功能影响。
