Frye et al (2008, 2010) have performed such a connectivity analy

Frye et al. (2008, 2010) have performed such a connectivity analysis with magnetoencephalographic data analyzed by means of Granger Causality. This method computes not only the strength of connectivity between regions

but also the strength of the direction of activity in or out of a specific cortical area. “
“The processing of visual and haptic inputs, occurring either separately or jointly, is crucial for everyday-life object recognition, and has been a focus of recent neuroimaging research. Previously, visuohaptic convergence has been mostly investigated with matching-task paradigms. However, much less is known about visuohaptic convergence in the Afatinib price absence of additional task demands. We conducted two functional magnetic resonance imaging experiments in which subjects actively touched and/or viewed unfamiliar object stimuli without any additional task demands. In addition, we performed two control experiments with audiovisual and audiohaptic stimulation to examine the specificity of the observed visuohaptic convergence effects. We found robust visuohaptic convergence in bilateral lateral occipital cortex and anterior cerebellum. In contrast, neither the anterior cerebellum nor the lateral occipital cortex showed any involvement in audiovisual or audiohaptic convergence, indicating that multisensory convergence in these regions

is specifically geared to visual and haptic inputs. These data suggest that in humans the lateral occipital cortex and the anterior cerebellum play an important role in visuohaptic DAPT solubility dmso processing even in the absence of additional task demands. “
“We used magnetoencephalography to show that the human primary somatosensory (SI) cortex is activated by mere observation of touch. Somatosensory evoked fields were measured from adult human subjects Resveratrol in two

conditions. First, the experimenter touched the subject’s right hand with her index finger (Experienced touch). In the second condition, the experimenter touched her own hand in a similar manner (Observed touch). Minimum current estimates were computed across three consecutive 300-ms time windows (0–300, 300–600 and 600–900 ms) with respect to touch onset. During ‘Experienced touch’, as expected, the contralateral (left) SI cortex was strongly activated in the 0–300 ms time window. In the same time window, statistically significant activity also occurred in the ipsilateral SI, although it was only 2.5% of the strength of the contralateral activation; the ipsilateral activation continued in the 300–600 ms time window. During ‘Observed touch’, the left SI cortex was activated during the 300–600 ms interval; the activation strength was 7.5% of that during the significantly activated period (0–300 ms) of ‘Experienced touch’.

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