Abstract
The tactile digit representations in the primary somatosensory cortex have so far been mapped for either the left or the right hand. This study localized all ten digit representations in right-handed subjects and compared them within and across the left and right hands to assess potential differences in the functional organization of the digit map between hands and in the structural organization between hemispheres. Functional magnetic resonance imaging of tactile stimulation of each fingertip in BA 3b confirmed the expected lateral-anterior-inferior to medial-posterior-superior succession from thumb to little-finger representation, located in the post-central gyrus opposite to the motor hand knob. While the more functionally related measures, such as the extent and strength of activation as well as the Euclidean distance between neighboring digit representations, showed significant differences between the digits, no side difference was detected: the layout of the functional digit-representation map did not consistently differ between the left, non-dominant, and the right, dominant hand. Comparing the absolute spatial coordinates also revealed a significant difference for the digits, but not between the left and right hand digits. Estimating the individual subject's digit coordinates of one hand by within-subject mirroring of the other-hand digit coordinates across hemispheres yielded a larger estimation error distance than using averaged across-subjects coordinates from within the same hemisphere. However, both methods should only be used with care for single-subject clinical evaluation, as an average estimation error of around 9 mm was observed, being slightly higher than the average distance between neighboring digits.
Highlights
From Penfield’s seminal studies (Penfield and Boldrey, 1937; Penfield and Rasmussen, 1950), it is well-known that the primary somatosensory cortex (SI) at the post-central gyrus has a somatotopic map of the body
FMRI measurements of sequential tactile stimulation of the first phalanx of the 5 fingertips were performed for the left and the right hand
The comparison of the BOLD activation elicited by tactile stimulation of the ten fingers of the dominant and non-dominant hand showed a main effect “digit” for each of the analyzed measures, specifying that they are distinct entities and differ in their extent of functionally and structurally related measures
Summary
From Penfield’s seminal studies (Penfield and Boldrey, 1937; Penfield and Rasmussen, 1950), it is well-known that the primary somatosensory cortex (SI) at the post-central gyrus has a somatotopic map of the body. A consistent sequence of digit representations could be shown in the contralateral primary somatosensory cortex, fMRI Digit Maps in SI starting with the little finger (D5) in a superior-medial-posterior position, and proceeding with the ring finger (D4), the middle finger (D3), the index finger (D2), and the thumb (D1) in the inferior-lateral-anterior direction along the central sulcus. This sequence of functional somatosensory digit activation is closely linked to a landmark structure in the upper third of the central sulcus, the superior genu, a posterior bend of the precentral gyrus (Broca, 1888). Based on the tight link between the hand/finger representation in the motor cortex and the finger representation in the somatosensory cortex, the hand knob is correspondingly a structural landmark for the finger representations in the opposite post-central gyrus (Schweizer et al, 2008; Schweisfurth et al, 2011, 2014, 2015)
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