R. A. Maunz scite author profile

Extracellular microelectrodes were used to record the activity of reticulospinal neurons within the medial ponto-medullary reticular formation in the cat. In one series of experiments reticulospinal neurons were activated from electrodes in the ventro-medial reticulospinal tract (RSTm) and in the ipsi- and contralateral lateral reticulospinal tracts (RSTi, RSTc) at spinal levels C1--2, C4, Th1 and L1. RSTm neurons were found primarily in n.r. pontis caudalis and the rostro-dorsal part of n.r. gigantocellularis. 71% of these neurons projected as far as the lumbar spinal cord. RSTi neurons projecting to C4 and beyond were clustered in the caudo-ventral part of n.r. gigantocellularis, but those RSTi neurons projecting to the first three cervical segments were located more rostro-dorsally. In all, 63% of the RSTi neurons projected to the lumbar spinal cord. RSTc neurons, which comprised only 5% of the reticulospinal population, were found throughout n.r. gigantocellularis. RSTm neurons had a median conduction velocity of 101 m/sec whereas RSTi and RSTc had median conduction velocities on the order of 70 m/sec. In a second series of experiments microstimulation was used to activate branches of reticulospinal neurons within the gray matter of the cervical enlargement. Twenty-two of thirty-three neurons found to project to the cerivcal ventral horn were branching neurons that also sent axons to the lumbar spinal cord. Thus much of the teticulospinal activity reaching the cervical enlargement also acts at one or more other spinal levels. Detailed investigation of the course of reticulospinal axons within the cervical gray matter indicated that a single axon may traverse wide areas of the ventral horn including regions on both sides of the spinal cord.

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Responses of primate spinothalamic tract neurons to natural stimulation of hindlimb.

Willis

Trevino

Coulter

et al. 1974

Journal of Neurophysiology

334

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Properties of a new vestibulospinal projection, the caudal vestibulospinal tract

1978

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Neurons in the caudal portions of the medial and descending vestibular nuclei and in vestibular cell group f that project to the cervical or lumbar spinal cord were located by antidromic spinal stimulation. These caudal vestibulospinal tract (CVST) neurons have a median conduction velocity of 12 m/sec, which is well below the conduction velocities of typical lateral or medial vestibulospinal tract (LVST, MVST) axons. The descending fiber trajectories of CVST neurons, determined by comparing thresholds for activation of each neuron from six points in the spinal white matter, were remarkably diverse. Unlike LVST and MVST axons, which are located in the ipsilateral ventral funiculi, CVST axons can be found in both the ventral and dorsolateral funiculi on both sides of the spinal cord. The CVST system is thus both anatomically and physiologically different from the LVST and MVST.

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Effects of stimulation of sensorimotor cortex on primate spinothalamic neurons

1974

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Location of cells of origin of the spinothalamic tract in the lumbar enlargement of cat

Trevino¹,

Maunz²,

Bryan³

et al. 1972

Experimental Neurology

129

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R. A. Maunz

Patterns of projection and branching of reticulospinal neurons

Responses of primate spinothalamic tract neurons to natural stimulation of hindlimb.

Properties of a new vestibulospinal projection, the caudal vestibulospinal tract

Effects of stimulation of sensorimotor cortex on primate spinothalamic neurons

Location of cells of origin of the spinothalamic tract in the lumbar enlargement of cat

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