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- Title
Interdigitated Columnar Representation of Personal Space and Visual Space in Human Parietal Cortex.
- Authors
Tootell, Roger B. H.; Nasiriavanaki, Zahra; Babadi, Baktash; Greve, Douglas N.; Nasr, Shahin; Holt, Daphne J.
- Abstract
Personal space (PS) is the space around the body that people prefer to maintain between themselves and unfamiliar others. Intrusion into personal space evokes discomfort and an urge to move away. Physiologic studies in nonhuman primates suggest that defensive responses to intruding stimuli involve the parietal cortex. We hypothesized that the spatial encoding of interpersonal distance is initially transformed from purely sensory to more egocentric mapping within human parietal cortex. This hypothesis was tested using 7 Tesla (7T) fMRI at high spatial resolution (1.1 mm isotropic), in seven subjects (four females, three males). In response to visual stimuli presented at a range of virtual distances, we found two categories of distance encoding in two corresponding radially-extending columns of activity within parietal cortex. One set of columns (P columns) responded selectively to moving and stationary face images presented at virtual distances that were nearer (but not farther) than each subject's behaviorally-defined personal space boundary. In most P columns, BOLD response amplitudes increased monotonically and nonlinearly with increasing virtual face proximity. In the remaining P columns, BOLD responses decreased with increasing proximity. A second set of parietal columns (D columns) responded selectively to disparity-based distance cues (near or far) in random dot stimuli, similar to disparity-selective columns described previously in occipital cortex. Critically, in parietal cortex, P columns were topographically interdigitated (nonoverlapping) with D columns. These results suggest that visual spatial information is transformed from visual to body-centered (or person-centered) dimensions in multiple local sites within human parietal cortex.
- Subjects
PARIETAL lobe; PERSONAL space; COLUMNS; VISUAL perception; SPATIAL resolution
- Publication
Journal of Neuroscience, 2022, Vol 42, Issue 48, p9011
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.0516-22.2022