Article Information
- Received October 1, 2004
- Revision received March 22, 2005
- Accepted March 23, 2005
- First published May 11, 2005.
- Version of record published May 11, 2005.
Author Information
- Mikhail A. Lebedev1,3,
- Jose M. Carmena1,3,
- Joseph E. O'Doherty2,
- Miriam Zacksenhouse5,
- Craig S. Henriquez2,3,
- Jose C. Principe6, and
- Miguel A. L. Nicolelis1,2,3,4
- Departments of 1Neurobiology and 2Biomedical Engineering, 3Center for Neuroengineering, 4Department of Psychological and Brain Sciences, Duke University, Durham, North Carolina 27710, 5Department of Mechanical Engineering, Israel Institute of Technology, Haifa 32000, Israel, and 6Department of Electrical Engineering, University of Florida, Gainesville, Florida 32611
Author contributions
Disclosures
- Received October 1, 2004.
- Revision received March 22, 2005.
- Accepted March 23, 2005.
This work was supported by grants from the Defense Advanced Research Projects Agency, the James S. McDonnel Foundation, the National Institutes of Health, the National Science Foundation (M.A.L.N.) and the Christopher Reeve Paralysis Foundation (J.M.C.). We thank Dragan F. Dimitrov for conducting the neurosurgery, Gary Lehew for manufacturing multielectrode arrays and engineering the experimental set-up, Roy E. Crist and Ming Qian for programming experimental software, Parag G. Patil, Erin Phelps, Laura M. Oliveira, Kristen Shanklin Dewey, and Aaron J. Sandler for surgical assistance and animal care, Sung-Phil Kim for evaluating additional adaptive filters, and Susan A. Halkiotis and Nathan Fitzsimmons for manuscript preparation.
Correspondence should be addressed to Dr. Miguel Nicolelis, Department of Neurobiology, Duke University Medical Center, Bryan Research Building, Box 3209, Durham, NC 27710. E-mail: nicoleli{at}neuro.duke.edu.
Copyright © 2005 Society for Neuroscience 0270-6474/05/254681-13$15.00/0
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