Department of Neurological, Neuropsychological, Morphological and Movement Sciences, University of Verona, Via Casorati, 43, 37131 Verona, Italy.
Brain. 2013 Mar;136(Pt 3):782-9. doi: 10.1093/brain/aws372. Epub 2013 Feb 11.
In focal hand dystonia, the cortical somatosensory representation of the fingers is abnormal, with overlapping receptive fields and reduced interdigit separation. These abnormalities are associated with deficits in sensory perception, as previously demonstrated by applying tactile stimuli to one finger at a time. What is still unknown is whether the sensory deficits can be observed when tactile perception involves more than one finger. To address this issue, we applied 'Aristotle's illusion' to 15 patients with focal hand dystonia, 15 patients with dystonia not affecting the hand (blepharospasm and cervical dystonia) and 15 healthy control subjects. In this illusion, one object touching the contact point of two crossed fingertips is perceived as two objects by a blindfolded subject. The same object placed between two parallel fingertips is correctly perceived as one. The illusory doubling sensation is because of the fact that the contact point between the crossed fingers consists of non-adjacent and functionally unrelated skin regions, which usually send sensory signals to separate spots in the somatosensory cortex. In our study, participants were touched by one sphere between the second-third digits, the second-fourth digits and the fourth-fifth digits of both hands, either in crossed or in parallel position, and had to refer whether they felt one or two stimuli. The percentage of 'two stimuli' responses was an index of the illusory doubling. Both healthy control subjects and dystonic patients presented Aristotle's illusion when the fingers were crossed. However, patients with focal hand dystonia presented a significant reduction of the illusion when the sphere was placed between the crossed fourth and fifth digits of the affected hand. This reduction correlated with the severity of motor disease at the fingers. Similar findings were not observed in non-hand dystonia and control groups. The reduction of Aristotle's illusion in non-affected fingers and its preservation in affected fingers suggests dissociation between the abnormal processing of sensory signals and the motor impairment. Based on previous evidence showing that the sensory signals coming from the fourth digit determine lower activation in the somatosensory cortex than those coming from the fifth digit, we suggest that in the crossed position, the tactile information conveyed by the fifth digit prevailed over the fourth digit, thus resulting in the perception of one stimulus. The reduction of the illusory doubling perception, therefore, may represent the functional correlate of the different level of activation between the fourth and the fifth digit in the somatosensory cortex.
在局灶性手部肌张力障碍中,手指的皮质体感代表区域异常,存在重叠的感受野和减少的指间分离。这些异常与感觉知觉缺陷有关,正如之前通过一次向一个手指施加触觉刺激所证明的那样。目前尚不清楚当触觉感知涉及多个手指时是否可以观察到这些感觉缺陷。为了解决这个问题,我们应用“亚里士多德错觉”(Aristotle's illusion)对 15 名局灶性手部肌张力障碍患者、15 名不影响手部的肌张力障碍患者(眼睑痉挛和颈肌张力障碍)和 15 名健康对照者进行了研究。在这种错觉中,一个接触两个交叉指尖的接触点的物体被蒙住眼睛的受试者感知为两个物体。同样的物体放在两个平行的指尖之间被正确地感知为一个。错觉的倍增感觉是因为交叉手指的接触点由不相邻和功能上不相关的皮肤区域组成,这些区域通常将感觉信号发送到体感皮层的不同位置。在我们的研究中,参与者的第二、三指之间、第二、四指之间和第四、五指之间被一个球体触碰,无论是交叉还是平行,然后必须指出他们感觉到一个还是两个刺激。“两个刺激”反应的百分比是错觉倍增的指数。健康对照组和肌张力障碍患者在手指交叉时都出现了亚里士多德错觉。然而,局灶性手部肌张力障碍患者在受影响的手的第四和第五指交叉放置球体时,出现了错觉的显著减少。这种减少与手指运动疾病的严重程度相关。在非手部肌张力障碍和对照组中没有观察到类似的发现。非受累手指的亚里士多德错觉减少及其在受累手指中的保留表明感觉信号处理异常与运动障碍之间的分离。基于先前的证据表明,来自第四指的感觉信号比来自第五指的信号引起体感皮层的较低激活,我们认为在交叉位置,来自第五指的触觉信息占主导地位,超过了第四指,从而导致对一个刺激的感知。因此,错觉倍增感知的减少可能代表体感皮层中第四和第五指之间不同激活水平的功能相关性。
