Somatotopic organization of corticospinal and corticotrigeminal neurons in the rat

Abstract

The method of retrograde axonal transport of horseradish peroxidase was employed to examine the topographic organization of corticospinal and corticotrigeminal neurons in the rat. In both the first somatic sensory (SI) area and the motor (MI) area of the cortex these labeled corticofugal neurons, all of which are found in layer V, are grouped in a well organized, somatotopic pattern. Corticospinal projections which extend to lumbar levels of the spinal cord originate only from neuronal somata located in the hindlimb representation of SI and MI. Those neurons projecting to the cervical enlargement have somata mainly in the forelimb representation of SI and MI and the ventrolateral part of the trunk representation within SI. Cortical projections to the rostral cervical spinal segments appear to originate mainly from the neck and posterior head representations of SI and MI, though this conclusion is clearest for SI. Finally, neurons located exclusively within the head, muzzle, and vibrissal representation of SI project to the spinal trigeminal complex. Corticofugal neurons near the frontal pole and in an area of cortex ventrolateral to SI also project to the spinal cord. The areas involved are probably homologous to the supplementary motor (MII) and second somatic sensory (SII) areas respectively. The corticospinal and corticotrigeminal projections from these areas also appear to be organized in a somatotopic manner. It is concluded that in the rat, as in other species, the corticospinal and corticotrigeminal neurons in the sensorimotor cortex are arranged somatotopically. The somatotopic pattern found correlates remarkably well with that determined by single unit, evoked potential and cortical stimulation techniques.