HD-tDCS to the lateral occipital complex improves haptic object recognition.

High-definition transcranial direct current stimulation (HD-tDCS) is a non-invasive brain stimulation technique that has been shown to be safe and effective in modulating neuronal activity. The present study investigates the effect of anodal HD-tDCS on haptic object perception and memory through stimulation of the lateral occipital complex (LOC), a structure that has been shown to be involved in both visual and haptic object recognition. In this single-blind, sham-controlled, between-subjects study, blindfolded healthy, sighted participants used their right (dominant) hand to perform haptic discrimination and recognition tasks with 3D-printed, novel objects called "Greebles" while receiving 20 min of 2 milliamp (mA) anodal stimulation (or sham) to the left or right LOC. Compared to sham, those who received left LOC stimulation (contralateral to the hand used) showed an improvement in haptic object recognition but not discrimination-a finding that was evident from the start of the behavioral tasks. A second experiment showed that this effect was not observed with right LOC stimulation (ipsilateral to the hand used). These results suggest that HD-tDCS to the left LOC can improve recognition of objects perceived via touch. Overall, this work sheds light on the LOC as a multimodal structure that plays a key role in object recognition in both the visual and haptic modalities.

The effects of tDCS on object perception: A systematic review and meta-analysis.

Transcranial direct current stimulation (tDCS) is a novel, non-invasive method of modulating brain activity by applying electrical current directly to the scalp. While the effects of tDCS are more established in the clinical setting, its influence on cognition, specifically object perception, is less clear. The goal of this systematic review was to investigate whether object perception can be improved by tDCS, and if so, under what conditions. A literature search was conducted on the following databases: PubMed, ScienceDirect, Google Scholar and PsycInfo. To be included, studies must have employed tDCS on healthy adult populations and included a measure of object perception. A total of 18 articles met inclusion criteria. The results showed that 58% of studies that applied anodal tDCS to the target region observed enhanced object perception. This was particularly the case with frontal stimulation for object detection tasks. A quantitative meta-analysis further confirmed that anodal tDCS improved object perception overall, and specifically, tDCS to frontal sites increased accuracy scores by an average of 8.8%. Although the qualitative synthesis suggested that anodal tDCS to occipital sites, such as the lateral occipital complex, may enhance object recognition, the meta-analysis showed that this effect was not significant within the occipital subgroup. This is the first systematic review and meta-analysis investigating the effects of tDCS on object perception. Although there are inconsistencies in the behavioral and tDCS methodologies employed by these studies, our analysis revealed that tDCS can enhance object perception when targeting frontal brain regions involved in top-down attention.