Abstract
Neuroprosthetic approaches have tremendous potential for the treatment of injuries to the brain and spinal cord by inducing appropriate neural activity in otherwise disordered circuits. Substantial work has demonstrated that stimulation applied to both the central and peripheral nervous system leads to immediate and in some cases sustained benefits after injury. Here we focus on cervical intraspinal microstimulation (ISMS) as a promising method of activating the spinal cord distal to an injury site, either to directly produce movements or more intriguingly to improve subsequent volitional control of the paretic extremities. Incomplete injuries to the spinal cord are the most commonly observed in human patients, and these injuries spare neural tissue bypassing the lesion that could be influenced by neural devices to promote recovery of function. In fact, recent results have demonstrated that therapeutic ISMS leads to modest but sustained improvements in forelimb function after an incomplete spinal cord injury (SCI). This therapeutic spinal stimulation may promote long-term recovery of function by providing the necessary electrical activity needed for neuron survival, axon growth, and synaptic stability.
Highlights
CERVICAL INTRASPINAL MICROSTIMULATION Artificial stimulation via electrodes placed within the spinal cord parenchyma, termed intraspinal microstimulation (ISMS), is a promising technique for activating the spinal cord distal to an injury
Cervical ISMS evokes a rich variety of forelimb movement both before and after injury (Sunshine et al, 2013), and confers modest but sustained improvements in forelimb function that persist beyond the period of stimulation (Kasten et al, 2013)
We focus on cervical intraspinal stimulation and highlight its potential for restoring critical movement to the hands and arms, both directly and via re-regulation of spinal circuits surrounding an injury
Summary
CERVICAL INTRASPINAL MICROSTIMULATION Artificial stimulation via electrodes placed within the spinal cord parenchyma, termed intraspinal microstimulation (ISMS), is a promising technique for activating the spinal cord distal to an injury. Cervical ISMS evokes a rich variety of forelimb movement both before and after injury (Sunshine et al, 2013), and confers modest but sustained improvements in forelimb function that persist beyond the period of stimulation (Kasten et al, 2013). We focus on cervical intraspinal stimulation and highlight its potential for restoring critical movement to the hands and arms, both directly and via re-regulation of spinal circuits surrounding an injury.
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