Skip Navigation Links
  • What's New?
Invited Speakers
» Nobel Laureates
» List of Speakers
Registration
» Registration Fees
» Registration Form
» Registration Login
BVA.NXT 2010
» What is TWAS/BVA.NXT?
» Program
» List of Speakers
» Registration Form
» Registration Login
BioFair
» Exhibitor
» Technical Guidelines
» Floor Plan
Poster Session
» Invitation
» Guidelines
» Poster Session Form
  • Program
Accommodation & Tours
» Accommodation
» Pre/Post Conference Tours
Sponsors
» Call for Sponsors
» List of Sponsors
BA Resources
» Audio Visual Materials
» Books
» Journals
» Reference Materials
» Subject Guides
  • BVA in the Press
  • Statistical Data
Visitor Information
» Visas
» Airports
» Transportation
» Weather
» Banking and Currency
» Tourist Information
» Arabic Language
» Visiting the Library
» Other Tips
  • FAQ
  • Photo Gallery

Speaker Details

 
 

Prof Miguel Nicolelis

 print  
   Biography
 
Dr. Miguel Nicolelis is the Anne W. Deane Professor of Neuroscience and Professor of Neurobiology, Biomedical Engineering and Psychology at Duke University. He is also Co-Director of Duke Center for Neuroengineering; and Co-Founder and Scientific Director of the Edmond and Lily Safra International Institute for Neuroscience of Natal. Dr. Nicolelis is a native of Sao Paulo, Brazil where he received his M.D. and Ph.D. in Neurophysiology from the University of Sao Paulo. Although for the past decade, Dr. Nicolelis is best known for his pioneering studies of Brain Machine Interfaces (BMI) and Neuroprosthetics in human patients and non-human primates, he has also developed an integrative approach to studying neurological and psychiatric disorders including Parkinson’s disease, Epilepsy, Schizophrenia and Attention Deficit Disorder. He has also made fundamental contributions in the fields of sensory plasticity, gustation, sleep, reward and learning. Dr. Nicolelis believes that this approach will allow the integration of molecular, cellular, systems, and behavioral data in the same animal, producing a more complete understanding of the nature of the neurophysiological alterations associated with these disorders.
 
 
  Abstract
 
Principles of Neural Ensemble Physiology
In this talk, I will review a series of recent experiments demonstrating the possibility of using real-time computational models to investigate how ensembles of neurons encode motor information. These experiments have revealed that brain-machine interfaces can be used not only to study fundamental aspects of neural ensemble physiology, but they can also serve as an experimental paradigm aimed at testing the design of modern neuroprosthetic devices. I will also describe evidence indicating that continuous operation of a closed-loop brain machine interface, which utilizes a robotic arm as its main actuator, can induce significant changes in the physiological properties of neurons located in multiple motor and sensory cortical areas. This raises the hypothesis of whether the properties of a robot arm, or any other tool, can be assimilated by neuronal representations as if they were simple extensions of the subject's own body.
 

Bibliotheca Alexandrina - P.O. Box 138 - Chatby, Alexandria 21526, EGYPT
Phone: +(203) 4839999 General E-mail: cssp@bibalex.org