Abstract
Response inhibition as a central facet of executive functioning is no homogeneous construct. Interference inhibition constitutes a subcomponent of response inhibition and refers to inhibitory control over responses that are automatically triggered by irrelevant stimulus dimensions as measured by the Simon task. While there is evidence that the area-specific modulation of tactile information affects the act of action withholding, effects in the context of interference inhibition remain elusive. We conducted a tactile version of the Simon task with stimuli designed to be predominantly processed in the primary (40 Hz) or secondary (150 Hz) somatosensory cortex. On the basis of EEG recordings, we performed signal decomposition and source localization. Behavioral results reveal that response execution is more efficient when sensory information is mainly processed via SII, compared to SI sensory areas during non-conflicting trials. When accounting for intermingled coding levels by temporally decomposing EEG data, the results show that experimental variations depending on sensory area-specific processing differences specifically affect motor and not sensory processes. Modulations of motor-related processes are linked to activation differences in the superior parietal cortex (BA7). It is concluded that the SII cortical area supporting cognitive preprocessing of tactile input fosters automatic tactile information processing by facilitating stimulus-response mapping in posterior parietal regions.
Highlights
Inhibition of actions or thoughts plays a key role in everyday life since it is necessary to maintain goal-directed behavior
The primary (SI) as well as the secondary somatosensory cortex (SII) is activated by tactile input, yet only the SII has been associated with cognitive aspects of tactile information processing like comparing present and past stimulus input relevant for behavioral decisions[26,27]
Since the Simon task provides a measure of stimulus-response conflict[7,9,18,35,36], event-related potential (ERP) components modulated by conflict like the N2 are examined[37,38]
Summary
Inhibition of actions or thoughts plays a key role in everyday life since it is necessary to maintain goal-directed behavior. It can be assumed that the process of response inhibition (i.e. a complete inhibition of the motor response) provoked by a Go/Nogo paradigm is modulated differently as compared to the stimulus-response conflict evoking the Simon effect (i.e. integration of task-relevant and –irrelevant stimulus features)[35]. Since the posterior parietal cortex has been associated with the transformation of tactile input into external space[62], which is an essential prerequisite for the Simon task, it seems plausible that it reflects area-specific effects on response selection/preparation during different processing modes. We assume that SII-triggered processes hit reaction times 484 ms 470 ms 522 ms 521 ms are associated with stronger posterior parietal cortex activation reflecting stronger stimulus-response mapping since the cognitive preprocessing function of this area might lead to more efficient sensorimotor integration
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