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Closed-Loop, Cervical, Epidural Stimulation Elicits Respiratory Neuroplasticity after Spinal Cord Injury in Freely Behaving Rats

Ian G. Malone, Mia N. Kelly, Rachel L. Nosacka, Marissa A. Nash, Sijia Yue, Wei Xue, Kevin J. Otto, Erica A. Dale

2022eNeuro14 citationsDOIOpen Access PDF

Abstract

Abstract Over half of all spinal cord injuries (SCIs) are cervical, which can lead to paralysis and respiratory compromise, causing significant morbidity and mortality. Effective treatments to restore breathing after severe upper cervical injury are lacking; thus, it is imperative to develop therapies to address this. Epidural stimulation has successfully restored motor function after SCI for stepping, standing, reaching, grasping, and postural control. We hypothesized that closed-loop stimulation triggered via healthy hemidiaphragm EMG activity has the potential to elicit functional neuroplasticity in spinal respiratory pathways after cervical SCI (cSCI). To test this, we delivered closed-loop, electrical, epidural stimulation (CLES) at the level of the phrenic motor nucleus (C4) for 3 d after C2 hemisection (C2HS) in freely behaving rats. A 2 × 2 Latin Square experimental design incorporated two treatments, C2HS injury and CLES therapy resulting in four groups of adult, female Sprague Dawley rats: C2HS + CLES ( n = 8), C2HS ( n = 6), intact + CLES ( n = 6), intact ( n = 6). In stimulated groups, CLES was delivered for 12–20 h/d for 3 d. After C2HS, 3 d of CLES robustly facilitated the slope of stimulus-response curves of ipsilesional spinal motor evoked potentials (sMEPs) versus nonstimulated controls. To our knowledge, this is the first demonstration of CLES eliciting respiratory neuroplasticity after C2HS in freely behaving animals. These findings suggest CLES as a promising future therapy to address respiratory deficiency associated with cSCI.

Topics & Concepts

MedicineSpinal cord injuryNeuroplasticityStimulationAnesthesiaRespiratory systemSpinal cordBreathingVentilation (architecture)Control of respirationParalysisNeuroscienceNeuromodulationRespiratory centerTetraplegiaMotor functionCentral nervous systemDiaphragmatic breathingCentral nervous system diseasePhysical medicine and rehabilitationDiaphragm (acoustics)Respiratory rateRehabilitationSpinal Cord Injury ResearchNeuroscience of respiration and sleepVagus Nerve Stimulation Research
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