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Article
Neurons in the pontomedullary reticular formation signal posture and movement both as an integrated behavior and independently
Faculty of Health and Behavioural Sciences - Papers (Archive)
  • Benedicte Schepens, University Catholique de Louvain
  • Paul J Stapley, University of Wollongong
  • Trevor Drew, University of Montreal
RIS ID
38685
Publication Date
1-1-2008
Publication Details

Schepens, B., Stapley, P. J. & Drew, T. 2008, 'Neurons in the pontomedullary reticular formation signal posture and movement both as an integrated behavior and independently', Journal of Neurophysiology, vol. 100, no. 4, pp. 2235-2253.

Abstract
We have previously suggested that the discharge characteristics of some neurons in the pontomedullary reticular formation (PMRF) are contingent on the simultaneous requirement for activity in both ipsilateral flexor muscles and contralateral extensors. To test this hypothesis we trained cats to stand on four force platforms and to perform a task in which they were required to reach forward with one forelimb or the other and depress a lever. As such the task required the cat to make a flexion movement followed by an extension in the reaching limb while maintaining postural support by increasing extensor muscle tonus in the supporting limbs. We recorded the activity of 131 neurons from the PMRF of three cats during left, ipsilateral reach. Of these, 86/131 (66%) showed a change in discharge frequency prior to the onset of activity in one of the prime flexor muscles and 43/86 (50%) showed a bimodal pattern of discharge in which activity decreased during the lever press. Among the remaining cells, 28/86 (33%) showed maintained activity throughout the reach and the lever press. Most cells showed a broadly similar pattern of discharge during reaches with the right, contralateral limb. We suggest these results support the view that a population of neurons within the PMRF contributes to the control of movement in one forelimb and the control of posture in the other forelimb as a coordinated unit. Another population of neurons contributes to the control of postural support independently of the nature of the activity in the reaching limb.
Citation Information
Benedicte Schepens, Paul J Stapley and Trevor Drew. "Neurons in the pontomedullary reticular formation signal posture and movement both as an integrated behavior and independently" (2008) p. 2235 - 2253
Available at: http://works.bepress.com/pstapley/2/