Sensory input to the motor fields of the agranular frontal cortex: A comparison of the precentral, supplementary motor and premotor cortex

Arm displacements applied to the passive, but awake monkey are powerful stimuli for activating neurones in somatotopically appropriate areas of the precentral cortex. We have found that neurones in medial area 6 (SMA) and in lateral area 6 (PMC) may likewise be activated by such kinesthetic stimuli, at latencies which are only slightly longer than in area 4. Confirming previous findings, PMC neurones were sometimes also responsive to visual stimuli. The 'somatosensory' cells in the SMA were found in the microexcitable zone of the more posterior part of the SMA from where motor effects were elicited in arm and trunk muscles. These sensory neurones tended to be clustered together and they were only exceptionally excited antidromically by peduncular stimulation. Thus, somatosensory signals have access to both the PMC and SMA suggesting that both areas may be implicated in sensory-guided or sensory-triggered movements.

[1]  C. Brinkman,et al.  Supplementary motor area in the monkey: activity of neurons during performance of a learned motor task. , 1979, Journal of neurophysiology.

[2]  E. Skinhøj,et al.  Cortical activation during somatosensory stimulation and voluntary movement in man: a regional cerebral blood flow study. , 1980, Electroencephalography and clinical neurophysiology.

[3]  J Tanji,et al.  Comparison of movement-related activity in two cortical motor areas of primates. , 1982, Journal of neurophysiology.

[4]  G. Rizzolatti,et al.  Afferent properties of periarcuate neurons in macaque monkeys. I. Somatosensory responses , 1981, Behavioural Brain Research.

[5]  M. Wiesendanger,et al.  The Supplementary Motor Area in the Light of Recent Investigations , 1984 .

[6]  G. Rizzolatti,et al.  Afferent properties of periarcuate neurons in macaque monkeys. II. Visual responses , 1981, Behavioural Brain Research.

[7]  Allan M. Smith The activity of supplementary motor area neurons during a maintained precision grip , 1979, Brain Research.

[8]  J. Tanji,et al.  Supplementary and precentral motor cortex: Contrast in responsiveness to peripheral input in the hindlimb area of the unanesthetized monkey , 1981, The Journal of comparative neurology.

[9]  H. Künzle,et al.  The Supplementary Motor Area — Control System for Posture? , 1973 .

[10]  M Wiesendanger,et al.  Recent developments in studies of the supplementary motor area of primates. , 1986, Reviews of physiology, biochemistry and pharmacology.

[11]  M. Imbert,et al.  Polysensory and cortico-cortical projections to frontal lobe of squirrel and rhesus monkeys. , 1969, Electroencephalography and clinical neurophysiology.

[12]  Edward V. Evarts,et al.  Electromyography in CNS Disorders , 1985, Neurology.

[13]  J. Wolpaw Correlations between task-related activity and responses to perturbation in primate sensorimotor cortex. , 1980, Journal of neurophysiology.