Title :
Somatotopy of the motor cortex after long-term spinal cord injury or amputation
Author :
Turner, Jessica A. ; Lee, Jae S. ; Martinez, Osvaldo ; Medlin, Adam L. ; Schandler, Steven L. ; Cohen, Michael J.
Author_Institution :
California Univ., Irvine, CA, USA
fDate :
6/1/2001 12:00:00 AM
Abstract :
Certain brain-computer interface (BCI) methods use intrinsic signals from the motor cortex to control neuroprosthetic devices. The organization of the motor pathways in those populations likely to use neuroprosthetic devices, therefore, needs to be determined; there is evidence that following disease or injury the representation of the body in the motor cortex may change. In this study, functional MRI measures of somatotopy following spinal cord injury (SCI) showed evidence of changes in limb representations in the motor cortex. Subjects with chronic SCI had unusual cortical patterns of activity when attempting to move limbs below their injury; amputees showed a more normal somatotopy. The functional reorganization may affect optimal implanted electrode placements for invasive BCI methods for these different populations.
Keywords :
brain; neurophysiology; prosthetics; amputation; body representation; brain-computer interface methods; disease; functional reorganization; intrinsic signals; long-term spinal cord injury; motor cortex somatotopy; motor pathways organization; neuroprosthetic devices; neuroprosthetic devices control; optimal implanted electrode placements; unusual cortical activity patterns; Brain computer interfaces; Deafness; Diseases; Electrodes; Laboratories; Magnetic resonance imaging; Neural prosthesis; Neuroimaging; Paper technology; Spinal cord injury; Adult; Amputation; Artificial Limbs; Female; Humans; Leg; Magnetic Resonance Imaging; Male; Middle Aged; Motor Cortex; Movement; Perception; Quadriplegia; Spinal Cord Injuries;
Journal_Title :
Neural Systems and Rehabilitation Engineering, IEEE Transactions on
DOI :
10.1109/7333.928575
