Handedness and Asymmetry of Hand Representation in Human Motor Cortex

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Handedness and Asymmetry of Hand Representation in Human Motor Cortex

J. Volkmann, A. Schnitzler, O. W. Witte, and H.-J. Freund

Department of Neurology, Heinrich-Heine University, D-40225 Duesseldorf, Germany

Volkmann, J., A. Schnitzler, O. W. Witte, and H.-J. Freund. Handedness and asymmetry of hand representation in humanmotor cortex. J. Neurophysiol. 79: 2149-2154, 1998. The corticalrepresentation of five simple hand and finger movements in thehuman motor cortex was determined in left- and right-handed peoplewith whole-head magnetoencephalography. Different movements werefound to be represented by spatially segregated dipolar sourcesin primary motor cortex. The spatial arrangement of neuronal sourcesfor digit and wrist movements was nonsomatotopic and varied greatlybetween subjects. As an estimator of hand area size in primarymotor cortex, we determined the smallest cuboid volume enclosingthe five dipole sources within the left and right hemisphere ofeach subject. Interhemispheric comparison revealed a significantincrease of this volume in primary motor cortex opposite to thepreferred hand. This asymmetry was due to a greater spatial segregationof neuronal dipole generators subserving different hand and fingeractions in the dominant hemisphere. Mean Euclidean distances betweendipole sources for different movements were 10.7 ± 3.5 mm in thedominant and 9.4 ± 3.5 mm in the nondominant hemisphere (mean± SD; P = 0.01, two-tailed t-test). The expansion of hand representationin primary motor cortex could not simply be attributed to a greaternumber of pyramidal cells devoted to each particular movementas inferred from current source amplitudes. The degree of hemisphericasymmetry of hand area size in the primary motor cortex was correlatedhighly with the asymmetry of hand performance in a standardizedhandedness test (r = $-$ 0.76, P < 0.01). These results demonstratefor the first time a biological correlate of handedness in humanmotor cortex. The expansion of hand motor cortex in the dominanthemisphere may provide extra space for the cortical encoding ofa greater motor skill repertoire of the preferred hand.

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