Free University of Bozen-Bolzano, Bressanone, BZ, Italy.
Brain Topogr. 2012 Oct;25(4):389-98. doi: 10.1007/s10548-012-0223-4. Epub 2012 Feb 25.
Brain functional and psychophysical studies have clearly demonstrated that visual motion perception relies on the activity of the middle temporal complex (hMT+). However, recent studies have shown that hMT+ seems to be also activated during tactile motion perception, suggesting that this visual extrastriate area is involved in the processing and integration of motion, irrespective of the sensorial modality. In the present study, we used repetitive transcranial magnetic stimulation (rTMS) to assess whether hMT+ plays a causal role in tactile motion processing. Blindfolded participants detected changes in the speed of a grid of tactile moving points with their finger (i.e. tactile modality). The experiment included three different conditions: a control condition with no TMS and two TMS conditions, i.e. hMT+-rTMS and posterior parietal cortex (PPC)-rTMS. Accuracies were significantly impaired during hMT+-rTMS but not in the other two conditions (No-rTMS or PPC-rTMS), moreover, thresholds for detecting speed changes were significantly higher in the hMT+-rTMS with respect to the control TMS conditions. These findings provide stronger evidence that the activity of the hMT+ area is involved in tactile speed processing, which may be consistent with the hypothesis of a supramodal role for that cortical region in motion processing.
脑功能和心理物理学研究清楚地表明,视觉运动知觉依赖于中颞区复合体(hMT+)的活动。然而,最近的研究表明,hMT+似乎也在触觉运动知觉中被激活,这表明这个视觉外区参与了运动的处理和整合,而与感觉模态无关。在本研究中,我们使用重复经颅磁刺激(rTMS)来评估 hMT+ 是否在触觉运动处理中起因果作用。蒙住眼睛的参与者用手指检测网格状触觉运动点的速度变化(即触觉模态)。实验包括三种不同的条件:无 rTMS 的对照条件和两种 rTMS 条件,即 hMT+-rTMS 和顶后皮质(PPC)-rTMS。在 hMT+-rTMS 期间,准确性显著受损,但在其他两种条件(无 rTMS 或 PPC-rTMS)中则没有。此外,与对照 rTMS 条件相比,在 hMT+-rTMS 条件下检测速度变化的阈值显著升高。这些发现提供了更强的证据,表明 hMT+ 区域的活动参与了触觉速度处理,这可能与该皮质区域在运动处理中具有超模态作用的假设一致。
