The Role of Different Prefrontal Areas in Visual Metacognition

Participants will complete a task on visual perception and receive TMS in order to assess which regions of the brain are important for confidence generation in perceptual tasks. The task will involve judging the identity of visual stimuli (oriented black-and-white gratings) and providing a confidence rating on the judgment that they performed.

The researchers will deliver TMS to several brain regions such as the anterior prefrontal cortex (aPFC), dorsolateral prefrontal cortex (DLPFC), and a control site. The researchers will then investigate participants' accuracy and confidence levels depending on where TMS was delivered. The researchers expect that aPFC TMS will decrease the metacognitive sensitivity of the participants, whereas DLPFC TMS will decrease their average confidence level. TMS will be delivered time locked to the onset of the stimulus and the researchers will investigate what is the critical period of involvement of a given region.

The TMS protocol is well within the established safety limits. Participants will be required to fill out screening and demographic forms delivered at the Center for Advanced Brain Imaging (CABI). In order to dose appropriately the TMS stimulation, it is necessary to perform motor threshold determination. Motor threshold (MT) is defined as the minimum magnetic flux needed to elicit a visual hand twitch (in the contralateral first dorsal interosseus muscle). MT is the standard in the field for determining the intensity of TMS for each individual to reduce seizure risk. The scalp region producing the largest hand twitch will be identified. At that scalp location, the lowest TMS intensity able to elicit 5 visible twitches in 10 trials at this site will be determined. Individual MT will be used to determine the intensity of stimulation for each individual, as recommended by safety guidelines. This procedure usually takes about 5 minutes and also serves the purpose of acquainting participants to TMS stimulation. In this study, the researchers will use intensities between 100 and 120% of MT, even though the safety guidelines allow for stimulation intensities of at least 130% of MT.