Role of the Brain in Processing Visually Presented Objects

Objectives: Patients with frontal lobe lesions tend to grasp visually presented objects automatically and forcefully (forced grasping). Grasping of a milder form is seen in infants and the aged population. These facts suggest the presence of an inherent mechanism for suppressing the automatic tendency toward grasping in the healthy adult brain. Previous studies suggest that the parieto-frontal network, especially the lateral premotor cortex, play a role in the cognition of graspable objects and execution of reaching/grasping. Although the task of reaching/grasping in human beings has been studied mainly by neuroimaging techniques, its cognitive and executive aspects have not been clearly distinguished. Therefore, this project aims to elucidate the mechanisms underlying 'automatic grasping' in humans, focusing on the perceptive/cognitive aspect of the reaching/grasping movements.

Study population and design: Pictures of graspable objects and non-graspable objects are visually presented to 45 healthy adult volunteers. Since this study aims to clarify the mechanism of the human brain for automatically recognizing graspable objects, part of this study will require no response task. Additionally, in order to assess how the automatic functions compare to overt mechanisms, an extra testing session will explore making overt judgments of the pictures.

Outcome measures: The brain activations are investigated by event-related magnetic fields, which have high temporal resolution, and by event-related functional magnetic resonance imaging (fMRI), which has relatively high spatial resolution. It is expected that the lateral premotor cortex, in addition to the parietal cortex, is activated by the visual presentation of graspable objects at a shorter latency, and more strongly, as compared with non-graspable objects, even without any actual motor tasks to follow. Additionally, overt grasping of graspable objects will involve similar areas.