Area 4 and area 5: differences between the load direction-dependent discharge variability of cells during active postural fixation

SummaryPrevious experiments have shown that the activity of cells in both areas 4 and 5 is strongly modulated in a continuously-graded manner for movements of the arm in 8 different directions away from a central starting position. However, it is reported here that there is a clear difference between these two areas during postural fixation of the arm in one position against loads applied in 8 different directions. Area 4 cell activity shows large variations when the monkey holds its arm at the central position by exerting forces in different directions to counteract the loads. The activity of cells in area 5 is much less strongly modulated under the same isometric conditions. These observations suggest that cell activity in area 5 is less related to the level and pattern of force output than are cells in area 4. Area 5 may produce instead a signal related more to the limb position, per se, during actively maintained posture.

[1]  A. M. Smith,et al.  Relation of activity in precentral cortical neurons to force and rate of force change during isometric contractions of finger muscles , 1975, Experimental Brain Research.

[2]  John F. Kalaska,et al.  Spatial coding of movement: A hypothesis concerning the coding of movement direction by motor cortical populations , 1983 .

[3]  V. A. Jennings,et al.  Somatosensory cortex activity related to position and force. , 1983, Journal of neurophysiology.

[4]  K. Mardia Statistics of Directional Data , 1972 .

[5]  A. P. Georgopoulos,et al.  Cortical mechanisms related to the direction of two-dimensional arm movements: relations in parietal area 5 and comparison with motor cortex , 1983, Experimental Brain Research.

[6]  J. Murphy,et al.  Responses to active and passive wrist rotation in area 5 of awake monkeys , 1978, Neuroscience Letters.

[7]  E. Fetz,et al.  Functional classes of primate corticomotoneuronal cells and their relation to active force. , 1980, Journal of neurophysiology.

[8]  E. Evarts,et al.  Motor Cortex control of finely graded forces. , 1983, Journal of neurophysiology.

[9]  A. Georgopoulos,et al.  Static spatial effects in motor cortex and area 5: Quantitative relations in a two-dimensional space , 1984, Experimental Brain Research.

[10]  A P Georgopoulos,et al.  On the relations between the direction of two-dimensional arm movements and cell discharge in primate motor cortex , 1982, The Journal of neuroscience : the official journal of the Society for Neuroscience.