Child and Adolescent Psychiatry, UPC-KULeuven, Belgium.
Brain Res. 2012 Apr 23;1450:57-66. doi: 10.1016/j.brainres.2012.02.027. Epub 2012 Feb 20.
The choice of small immediate over large delayed rewards (i.e., impulsive choice) is a signal marker of motivational style in Attention Deficit/Hyperactivity Disorder (ADHD). The delay aversion model proposes that, in part, this is a conditioned delay avoidance response. Here we test the prediction derived from this model that, in ADHD, cues predicting inescapable delay differentially activate brain regions shown previously to be responsive to motivationally salient, negatively valenced environmental events.
Ten adolescents with ADHD and 10 age matched controls performed a simple speeded reaction time task under two conditions. On Escape Delay trials slow responses only were punished by the imposition of post-response delay periods. On No Escape Delay trials post-response delay occurred on all trials irrespective of response speed. Using functional Magnetic Resonance Imaging (fMRI) BOLD responses were acquired to compare anticipatory brain activation following the two cue types. ROI analyses found significant ADHD-related hyperactivation following No Escape compared to Escape Delay trial cues in the insula, amygdala, ventral striatum and orbito-frontal cortex.
The results of this pilot study provide further evidence for the role of altered motivational systems in ADHD and the most direct evidence for a biological basis of delay aversion.
对小即时奖励与大延迟奖励(即冲动选择)的选择是注意力缺陷/多动障碍(ADHD)中动机风格的信号标志。延迟回避模型提出,部分原因是这种条件性的延迟回避反应。在这里,我们检验了该模型所提出的预测,即在 ADHD 中,预测不可避免延迟的线索会以与动机相关的、负性环境事件有反应的方式,不同地激活大脑区域。
10 名 ADHD 青少年和 10 名年龄匹配的对照组在两种条件下进行了简单的快速反应时间任务。在逃避延迟试验中,只有慢速反应会因施加延迟反应后惩罚而受到惩罚。在无逃避延迟试验中,无论反应速度如何,所有试验后都会延迟。使用功能磁共振成像(fMRI)BOLD 反应来比较两种线索类型后的预期大脑激活。ROI 分析发现,与逃避延迟试验线索相比,无逃避延迟试验线索在岛叶、杏仁核、腹侧纹状体和眶额皮质中引起了 ADHD 相关的过度激活。
这项初步研究的结果进一步证明了改变的动机系统在 ADHD 中的作用,以及对延迟回避的生物学基础的最直接证据。
