Abstract
Vagus nerve stimulation (VNS) delivered during motor rehabilitation enhances recovery from a wide array of neurological injuries and was recently approved by the U.S. FDA for chronic stroke. The benefits of VNS result from precisely timed engagement of neuromodulatory networks during rehabilitative training, which promotes synaptic plasticity in networks activated by rehabilitation. Previous studies demonstrate that lesions that deplete these neuromodulatory networks block VNS-mediated plasticity and accompanying enhancement of recovery. There is a great deal of interest in determining whether commonly prescribed pharmacological interventions that influence these neuromodulatory networks would similarly impair VNS effects. Here, we sought to directly test the effects of three common pharmaceuticals at clinically relevant doses that target neuromodulatory pathways on VNS-mediated plasticity in rats. To do so, rats were trained on a behavioral task in which jaw movement during chewing was paired with VNS and received daily injections of either oxybutynin, a cholinergic antagonist, prazosin, an adrenergic antagonist, duloxetine, a serotonin-norepinephrine reuptake inhibitor, or saline. After the final behavioral session, intracortical microstimulation (ICMS) was used to evaluate reorganization of motor cortex representations, with area of cortex eliciting jaw movement as the primary outcome. In animals that received control saline injections, VNS paired with training significantly increased the movement representation of the jaw compared to naïve animals, consistent with previous studies. Similarly, none of the drugs tested blocked this VNS-dependent reorganization of motor cortex. The present results provide direct evidence that these common pharmaceuticals, when used at clinically relevant doses, are unlikely to adversely impact the efficacy of VNS therapy.
Highlights
We evaluated whether Vagus nerve stimulation (VNS) and drug treatment would influence cortical representation of unpaired movements or cortical excitability
These results suggest that VNS-mediated synaptic plasticity is specific to the paired movement, consistent with previous studies (Porter et al, 2012; Hulsey et al, 2016, 2019; Morrison et al, 2019, 2020)
VNS with daily injections of oxybutynin, prazosin, and duloxetine did not significantly change average stimulation thresholds required to elicit movement or total motor cortex area during intracortical microstimulation (ICMS), indicating no overall effect on cortical excitability [Figure 2B and Supplementary Figure 2A; Stimulation Threshold: One-way ANOVA, F(4,36) = 1.24, p = 0.311; Total Motor Cortex Area: One-way ANOVA, F(4,36) = 0.55, p = 0.698]
Summary
Vagus nerve stimulation (VNS) paired with rehabilitation has emerged as a therapeutic strategy to enhance recovery in a range of neurological disorders, including stroke (Khodaparast et al, 2013, 2014; Hays et al, 2014b, 2016; Dawson et al, 2016, 2021; Kilgard et al, 2018; Kimberley et al, 2018; Meyers et al, 2018; Pruitt et al, 2021), traumatic brain injury (Pruitt et al, 2016b), neuropathyCommon Neuromodulatory Drugs and VNS (Meyers et al, 2019; Darrow et al, 2020a, 2021), spinal cord injury (SCI; Ganzer et al, 2018; Darrow et al, 2020b; Kilgard et al, 2021), and post-traumatic stress disorder (PTSD; George et al, 2008; Pena et al, 2014; Noble et al, 2017; Kilgard et al, 2020; Souza et al, 2020). VNS rapidly activates cholinergic, noradrenergic, and serotonergic systems (Dorr, 2006; Roosevelt et al, 2006; Nichols et al, 2011; Hulsey et al, 2017) Coincident release of these proplasticity neuromodulators coupled with neural activity during rehabilitation promotes synaptic plasticity in task-specific activated circuits, leading to the strengthening of pathways mediating recovery (Dorr, 2006; Roosevelt et al, 2006; Seol et al, 2007; He et al, 2015; Hulsey et al, 2017). Duloxetine, a serotonin norepinephrine reuptake inhibitor (SNRI) used to treat major depressive disorder, generalized anxiety disorder, and neuropathic pain, is commonly prescribed to treat symptoms of stroke, neuropathy, SCI, and PTSD
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