Department of Neurology, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
Mov Disord. 2010 Jun 15;25(8):991-9. doi: 10.1002/mds.22994.
Echophenomena in Gilles de la Tourette syndrome (GTS) may relate to deficient processing of observed biological movements. This would be reflected in altered effects of movement observation on motor responses in these patients. We studied reaction times in 11 unmedicated GTS patients without psychiatric comorbidity and healthy subjects. In experiment 1, participants imitated single biological finger movement stimuli or nonbiological dot movement stimuli immediately. In experiment 2, participants responded to a tone while viewing biological or nonbiological movement stimuli that were either compatible (identical) or incompatible (different) with their response. In experiment 1, both patients and healthy subjects responded faster to single biological than to nonbiological stimuli. In experiment 2, biological stimuli caused a larger compatibility-effect in responses than nonbiological stimuli in both groups, provided stimulus presentation and response initiation coincided. Healthy subjects responded faster to compatible biological than nonbiological stimuli. In contrast, GTS patients responded slower to incompatible biological than nonbiological stimuli. Patients' mean reaction time in experiment 2 correlated with phonic tic-frequency. Motor facilitation by observing biological movements appears to rely on concomitance of stimuli and responses in GTS patients and healthy individuals. Differing behavioral effects of movement observation in GTS might reflect altered activation of an action observation-execution matching system. To avoid unwanted movements GTS patients probably have to inhibit motor activation induced by observed movement automatically. Thus, movement stimuli may facilitate similar motor responses less but interfere more with different responses in these patients.
图雷特综合征(Gilles de la Tourette syndrome,GTS)中的 Echophenomena 可能与观察到的生物运动处理不足有关。这将反映在这些患者的运动观察对运动反应的影响改变上。我们研究了 11 名未经药物治疗的 GTS 患者和健康受试者的反应时间。在实验 1 中,参与者立即模仿单个生物手指运动刺激或非生物点运动刺激。在实验 2 中,参与者在观看生物或非生物运动刺激时做出反应,这些刺激与他们的反应要么相容(相同),要么不相容(不同)。在实验 1 中,患者和健康受试者对单个生物刺激的反应都比对非生物刺激快。在实验 2 中,在刺激呈现和反应启动同时发生的情况下,生物刺激在两组中的反应中引起的相容性效应大于非生物刺激。健康受试者对相容的生物刺激的反应比对非生物刺激快。相比之下,GTS 患者对不相容的生物刺激的反应比对非生物刺激慢。患者在实验 2 中的平均反应时间与声音抽动频率相关。观察生物运动引起的运动促进似乎依赖于 GTS 患者和健康个体中刺激和反应的同时发生。GTS 中运动观察的不同行为效应可能反映了动作观察-执行匹配系统的激活改变。为了避免不必要的运动,GTS 患者可能不得不自动抑制由观察到的运动引起的运动激活。因此,运动刺激可能会减少对这些患者相似运动反应的促进作用,但会更多地干扰不同反应。
