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Dissociation between hand motion and population vectors from neural activity in motor cortex

Author

Listed:
  • Stephen H. Scott

    (CIHR Group in Sensory-Motor Systems, Centre for Neuroscience Studies, Queen's University)

  • Paul L. Gribble

    (CIHR Group in Sensory-Motor Systems, Centre for Neuroscience Studies, Queen's University
    The University of Western Ontario)

  • Kirsten M. Graham

    (CIHR Group in Sensory-Motor Systems, Centre for Neuroscience Studies, Queen's University)

  • D. William Cabel

    (CIHR Group in Sensory-Motor Systems, Centre for Neuroscience Studies, Queen's University)

Abstract

The population vector hypothesis was introduced almost twenty years ago to illustrate that a population vector constructed from neural activity in primary motor cortex (MI) of non-human primates could predict the direction of hand movement during reaching1,2,3,4,5,6. Alternative explanations for this population signal have been suggested7,8 but could not be tested experimentally owing to movement complexity in the standard reaching model. We re-examined this issue by recording the activity of neurons in contralateral MI of monkeys while they made reaching movements with their right arms oriented in the horizontal plane—where the mechanics of limb motion are measurable and anisotropic. Here we found systematic biases between the population vector and the direction of hand movement. These errors were attributed to a non-uniform distribution of preferred directions of neurons and the non-uniformity covaried with peak joint power at the shoulder and elbow. These observations contradict the population vector hypothesis and show that non-human primates are capable of generating reaching movements to spatial targets even though population vectors based on MI activity do not point in the direction of hand motion.

Suggested Citation

  • Stephen H. Scott & Paul L. Gribble & Kirsten M. Graham & D. William Cabel, 2001. "Dissociation between hand motion and population vectors from neural activity in motor cortex," Nature, Nature, vol. 413(6852), pages 161-165, September.
  • Handle: RePEc:nat:nature:v:413:y:2001:i:6852:d:10.1038_35093102
    DOI: 10.1038/35093102
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    Cited by:

    1. Jonathan A Michaels & Benjamin Dann & Hansjörg Scherberger, 2016. "Neural Population Dynamics during Reaching Are Better Explained by a Dynamical System than Representational Tuning," PLOS Computational Biology, Public Library of Science, vol. 12(11), pages 1-22, November.

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