Background & object. The primary somatosensory cortex (S1), once thought to be only modality-specific, is involved in higher level functions like emotion recognition and motor learning by observation. S1 functions may extend even to memory: some theories speculate that sensorimotor areas may be involved not only in the perception of intrinsic features of the percept but also in the retention of that information. In a recent EEG study, it has been suggested that the neural responses of somatosensory cortices to visually perceived body-related information probably reflect their involvement in short-term memory (STM). The present experiment looks for causal evidence that S1 is implicated in the retention of visual information that may be salient for this cortical area1. To this purpose we interfered with S1 activity by means of repetitive Transcranial Magnetic Stimulation (rTMS) during a STM task where body-related information had to be retained. Methods & materials. Eighteen healthy volunteers took part in a three sessions within-subjects experiment. The STM task (i.e., delayed match-to-sample task) consisted in the rapid presentation of two lateralized arrays, each one depicting three body-related stimuli (i.e., pictures of hands in different position, taken from previous literature2). In the task, half of the trials were identical and half were different for only one stimulus. In each session, every subject performed the task with and without rTMS, with the latter condition serving as a baseline. The rTMS protocol consisted in a train of 3 TMS-pulses (at 10 Hz frequency, fixed intensity of 60% of the maximum stimulator output) delivered after 200 ms from the offset of the first array (i.e. during the retention phase). As control sites for rTMS effects, we stimulated two other cortical areas: the dorsolateral prefrontal cortex (dlPFC; an area commonly activated during WM tasks) and the lateral occipital cortex (lOC; an area activated in feature-based analysis of visual stimuli). Only the right hemisphere was targeted. Results. We analyzed the sensitivity detection index (d') in the STM task through a 2 X 3 repetitive-measures ANOVA with the within-subjects factors “Condition” (baseline vs. rTMS) and “Area” (S1, dlPFC, lOC). We found a statistically significant interaction between these two factors (p=0.036). Planned comparisons revealed an improvement of subjects’ performance in the STM task only when rTMS is delivered over S1 (vs. baseline, p<0.001). Discussion & conclusions. Our results demonstrate that rTMS over S1 applied during a visual STM task improves performance, suggesting that S1 may be involved in visual STM when body-related stimuli had to be retained. These results shed light on the crossmodal involvement of primary sensory cortices in the retention of information in memory, showing that their recruitment is driven by the intrinsic features of the percept rather than by the sensory modality in which objects are presented.
Roncoroni, C., Guidali, G., Papagno, C., Bolognini, N. (2019). Primary somatosensory cortex and short-term retention of body- and non body-related visual information: preliminary results from a repetitive TMS study. Intervento presentato a: Annual meeting of the Milan center for neuroscience (neuroMI), Milano.
Primary somatosensory cortex and short-term retention of body- and non body-related visual information: preliminary results from a repetitive TMS study
Guidali, G;Papagno, C;Bolognini, N
2019
Abstract
Background & object. The primary somatosensory cortex (S1), once thought to be only modality-specific, is involved in higher level functions like emotion recognition and motor learning by observation. S1 functions may extend even to memory: some theories speculate that sensorimotor areas may be involved not only in the perception of intrinsic features of the percept but also in the retention of that information. In a recent EEG study, it has been suggested that the neural responses of somatosensory cortices to visually perceived body-related information probably reflect their involvement in short-term memory (STM). The present experiment looks for causal evidence that S1 is implicated in the retention of visual information that may be salient for this cortical area1. To this purpose we interfered with S1 activity by means of repetitive Transcranial Magnetic Stimulation (rTMS) during a STM task where body-related information had to be retained. Methods & materials. Eighteen healthy volunteers took part in a three sessions within-subjects experiment. The STM task (i.e., delayed match-to-sample task) consisted in the rapid presentation of two lateralized arrays, each one depicting three body-related stimuli (i.e., pictures of hands in different position, taken from previous literature2). In the task, half of the trials were identical and half were different for only one stimulus. In each session, every subject performed the task with and without rTMS, with the latter condition serving as a baseline. The rTMS protocol consisted in a train of 3 TMS-pulses (at 10 Hz frequency, fixed intensity of 60% of the maximum stimulator output) delivered after 200 ms from the offset of the first array (i.e. during the retention phase). As control sites for rTMS effects, we stimulated two other cortical areas: the dorsolateral prefrontal cortex (dlPFC; an area commonly activated during WM tasks) and the lateral occipital cortex (lOC; an area activated in feature-based analysis of visual stimuli). Only the right hemisphere was targeted. Results. We analyzed the sensitivity detection index (d') in the STM task through a 2 X 3 repetitive-measures ANOVA with the within-subjects factors “Condition” (baseline vs. rTMS) and “Area” (S1, dlPFC, lOC). We found a statistically significant interaction between these two factors (p=0.036). Planned comparisons revealed an improvement of subjects’ performance in the STM task only when rTMS is delivered over S1 (vs. baseline, p<0.001). Discussion & conclusions. Our results demonstrate that rTMS over S1 applied during a visual STM task improves performance, suggesting that S1 may be involved in visual STM when body-related stimuli had to be retained. These results shed light on the crossmodal involvement of primary sensory cortices in the retention of information in memory, showing that their recruitment is driven by the intrinsic features of the percept rather than by the sensory modality in which objects are presented.File | Dimensione | Formato | |
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