Initiating extension of the lower limbs in subjects with complete spinal cord injury by epidural lumbar cord stimulation
Autor: | Milan R. Dimitrijevic, Heinrich Binder, M. M. Pinter, Karen Minassian, F. Gerstenbrand, Frank Rattay, B. Jilge |
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Rok vydání: | 2004 |
Předmět: |
Adult
Epidural Space Male Movement Population Action Potentials Electric Stimulation Therapy Synaptic Transmission Tonic (physiology) Interneurons Reflex Reaction Time medicine Humans Muscle Skeletal education Muscle Spindles Spinal cord injury Spinal Cord Injuries Retrospective Studies Paraplegia Afferent Pathways Leg education.field_of_study Electromyography business.industry General Neuroscience Body movement medicine.disease Spinal cord body regions Motor unit medicine.anatomical_structure Spinal Cord Female Nerve Net Spinal Nerve Roots business Neuroscience Lumbosacral joint Muscle Contraction |
Zdroj: | Experimental Brain Research. 154:308-326 |
ISSN: | 1432-1106 0014-4819 |
DOI: | 10.1007/s00221-003-1666-3 |
Popis: | We provide evidence that the human spinal cord is able to respond to external afferent input and to generate a sustained extension of the lower extremities when isolated from brain control. The present study demonstrates that sustained, nonpatterned electrical stimulation of the lumbosacral cord--applied at a frequency in the range of 5-15 Hz and a strength above the thresholds for twitches in the thigh and leg muscles--can initiate and retain lower-limb extension in paraplegic subjects with a long history of complete spinal cord injury. We hypothesize that the induced extension is due to tonic input applied by the epidural stimulation to primary sensory afferents. The induced volleys elicit muscle twitches (posterior root muscle-reflex responses) at short and constant latency times and coactivate the configuration of the lumbosacral interneuronal network, presumably via collaterals of the primary sensory neurons and their connectivity with this network. We speculate that the volleys induced externally to the lumbosacral network at a frequency of 5-15 Hz initiate and retain an "extension pattern generator" organization. Once established, this organization would recruit a larger population of motor units in the hip and ankle extensor muscles as compared to the flexors, resulting in an extension movement of the lower limbs. In the electromyograms of the lower-limb muscle groups, such activity is reflected as a characteristic spatiotemporal pattern of compound motor-unit potentials. |
Databáze: | OpenAIRE |
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