Restoration of neural output from a paralyzed patient by a direct brain connection
- 1 June 1998
- journal article
- case report
- Published by Wolters Kluwer Health in NeuroReport
- Vol. 9 (8) , 1707-1711
- https://doi.org/10.1097/00001756-199806010-00007
Abstract
PATIENTS with severe paralysis of limbs, face and vocal apparatus may be intelligent and aware and yet, tragically, unable to communicate. We describe a communication link for such a ‘locked-in’ patient with amyotrophic lateral sclerosis. We recorded action potentials in her brain over several months by means of an electrode that induces growth of myelinated fibers into its recording tip. She was able to control the neural signals in an on/off fashion. This result is an important step towards providing such patients with direct control of their environment by interfacing with a computer. Additionally, it indicates that restoration of paralyzed muscles may be possible by using the signals to control muscle stimulators.Keywords
This publication has 10 references indexed in Scilit:
- Teaching the Spinal Cord to WalkScience, 1998
- Activity of single action potentials in monkey motor cortex during long-term task learningBrain Research, 1997
- The EasyGuide Neuro Image-Guided Surgery SystemNeurosurgery, 1997
- The cone electrode: Ultrastructural studies following long-term recording in rat and monkey cortexNeuroscience Letters, 1992
- Behavioral correlates of action potentials recorded chronically inside the Cone ElectrodeNeuroReport, 1992
- The cone electrode: a long-term electrode that records from neurites grown onto its recording surfaceJournal of Neuroscience Methods, 1989
- An implantable multielectrode array with on-chip signal processingIEEE Journal of Solid-State Circuits, 1986
- Interneuronal synchrony in precentral cortex of monkeys during operant conditioningExperimental Neurology, 1983
- Short-term changes in cell activity of areas 4 and 5 during operant conditioningExperimental Neurology, 1982
- Operantly conditioned patterns on precentral unit activity and correlated responses in adjacent cells and contralateral muscles.Journal of Neurophysiology, 1973