Two-dimensional population receptive field mapping of human primary somatosensory cortex.
Asghar, Michael Sanchez-Panchuelo, Rosa Schluppeck, Denis Francis, Susan
Asghar, Michael
Sanchez-Panchuelo, Rosa
Schluppeck, Denis
Francis, Susan
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2023-08-27
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Abstract
Functional magnetic resonance imaging can provide detailed maps of how sensory space is mapped in the human brain. Here, we use a novel 16 stimulator setup (a 4 × 4 grid) to measure two-dimensional sensory maps of between and within-digit (D2-D4) space using high spatial-resolution (1.25 mm isotropic) imaging at 7 Tesla together with population receptive field (pRF) mapping in 10 participants. Using a 2D Gaussian pRF model, we capture maps of the coverage of digits D2-D5 across Brodmann areas and estimate pRF size and shape. In addition, we compare results to previous studies that used fewer stimulators by constraining pRF models to a 1D Gaussian Between Digit or 1D Gaussian Within Digit model. We show that pRFs across somatosensory areas tend to have a strong preference to cover the within-digit axis. We show an increase in pRF size moving from D2-D5. We quantify pRF shapes in Brodmann area (BA) 3b, 3a, 1, 2 and show differences in pRF size in Brodmann areas 3a-2, with larger estimates for BA2. Generally, the 2D Gaussian pRF model better represents pRF coverage maps generated by our data, which itself is produced from a 2D stimulation grid.
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Asghar M, Sanchez-Panchuelo R, Schluppeck D, Francis S. Two-Dimensional Population Receptive Field Mapping of Human Primary Somatosensory Cortex. Brain Topogr. 2023 Nov;36(6):816-834. doi: 10.1007/s10548-023-01000-8. Epub 2023 Aug 27.
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