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Literature DB >> 25999506

Neurophysiology. Decoding motor imagery from the posterior parietal cortex of a tetraplegic human.

Tyson Aflalo¹, Spencer Kellis¹, Christian Klaes¹, Brian Lee², Ying Shi¹, Kelsie Pejsa¹, Kathleen Shanfield³, Stephanie Hayes-Jackson³, Mindy Aisen³, Christi Heck², Charles Liu², Richard A Andersen⁴.

Abstract

Nonhuman primate and human studies have suggested that populations of neurons in the posterior parietal cortex (PPC) may represent high-level aspects of action planning that can be used to control external devices as part of a brain-machine interface. However, there is no direct neuron-recording evidence that human PPC is involved in action planning, and the suitability of these signals for neuroprosthetic control has not been tested. We recorded neural population activity with arrays of microelectrodes implanted in the PPC of a tetraplegic subject. Motor imagery could be decoded from these neural populations, including imagined goals, trajectories, and types of movement. These findings indicate that the PPC of humans represents high-level, cognitive aspects of action and that the PPC can be a rich source for cognitive control signals for neural prosthetics that assist paralyzed patients.

Entities: Disease Gene Species

Mesh：

Year: 2015 PMID： 25999506 PMCID： PMC4896830 DOI： 10.1126/science.aaa5417

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

21 in total

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Authors: Grant H Mulliken; Sam Musallam; Richard A Andersen
Journal: J Neurosci Date: 2008-11-26 Impact factor: 6.167

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Authors: Sung-Phil Kim; John D Simeral; Leigh R Hochberg; John P Donoghue; Michael J Black
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Authors: Richard A Andersen; Spencer Kellis; Christian Klaes; Tyson Aflalo
Journal: Curr Biol Date: 2014-09-22 Impact factor: 10.834

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151 in total

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2. Object discrimination using electrotactile feedback.

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10. Three-Dimensional Brain-Computer Interface Control Through Simultaneous Overt Spatial Attentional and Motor Imagery Tasks.

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