Population Reconstruction of the Locomotor Cycle From Interneuron Activity in the Mammalian Spinal Cord

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J Neurophysiol 83: 1972-1978, 2000;
0022-3077/00 $5.00

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The Journal of Neurophysiology Vol. 83 No. 4 April 2000, pp. 1972-1978
Copyright ©2000 by the American Physiological Society

Population Reconstruction of the Locomotor Cycle From Interneuron Activity in the Mammalian Spinal Cord

Matthew C. Tresch and Ole Kiehn

Department of Physiology, Section of Neurophysiology, The Panum Institute, 2200 Copenhagen N, Denmark

Tresch, Matthew C. and Ole Kiehn. Population Reconstruction of the Locomotor Cycle From Interneuron Activity in the Mammalian Spinal Cord. J. Neurophysiol. 83: 1972-1978, 2000. Lesion studies have shown that neuronal networks in the ventromedial regions of the neonatal rat spinal cord are criticalfor the production of locomotion. We examined whether the locomotorcycle could be accurately predicted based on the activity recordedin a population of spinal interneurons located in these regionsduring pharmacologically induced locomotion. We used a Bayesianprobabilistic reconstruction procedure to predict the most likelyphase of locomotion given the observed activity in the neuronalpopulation. The population reconstruction was able to predictthe correct locomotor phase with high accuracy using a relativelysmall number of neurons. This result demonstrates that althoughthe spike activity of individual spinal interneurons in the ventromedialregion is weak and varies from cycle to cycle, the locomotor phasecan be accurately predicted when information from the populationis combined. This result is consistent with the proposed involvementof interneurons within these regions of the spinal cord in theproduction oflocomotion.

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