Browsing by Author "Robertson, Nicole M."
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Item Closed-Loop Neuromodulation Restores Network Connectivity and Motor Control After Spinal Cord Injury(eLife Sciences Publications Ltd) Ganzer, Patrick D.; Darrow, Michael J.; Meyers, Eric C.; Solorzano, Bleyda R.; Ruiz, Andrea D.; Robertson, Nicole M.; Adcock, Katherine S.; James, Justin T.; Jeong, Han S.; Becker, April M.; Goldberg, Mark P.; Pruitt, David T.; Hays, Seth A.; Kilgard, Michael P.; Rennaker, Robert L. II; Ganzer, Patrick D.; Darrow, Michael J.; Meyers, Eric C.; Solorzano, Bleyda R.; Ruiz, Andrea D.; Robertson, Nicole M.; Adcock, Katherine S.; James, Justin T.; Jeong, Han S.; Pruitt, David T.; Hays, Seth A.; Kilgard, Michael P.; Rennaker, Robert L. IIRecovery from serious neurological injury requires substantial rewiring of neural circuits. Precisely-timed electrical stimulation could be used to restore corrective feedback mechanisms and promote adaptive plasticity after neurological insult, such as spinal cord injury (SCI) or stroke. This study provides the first evidence that closed-loop vagus nerve stimulation (CLV) based on the synaptic eligibility trace leads to dramatic recovery from the most common forms of SCI. The addition of CLV to rehabilitation promoted substantially more recovery of forelimb function compared to rehabilitation alone following chronic unilateral or bilateral cervical SCI in a rat model. Triggering stimulation on the most successful movements is critical to maximize recovery. CLV enhances recovery by strengthening synaptic connectivity from remaining motor networks to the grasping muscles in the forelimb. The benefits of CLV persist long after the end of stimulation because connectivity in critical neural circuits has been restored.Item Vagus Nerve Stimulation Reverses the Extinction Impairments in a Model of PTSD with Prolonged and Repeated Trauma(Taylor and Francis Ltd, 2019-04-23) Souza, Rimenez R.; Robertson, Nicole M.; Pruitt, David T.; Gonzales, Phillip A.; Hays, Seth A.; Rennaker, Robert L.; Kilgard, Michael P.; McIntyre, Crista K.; 0000-0003-4225-241X (Hays, SA); 13146094343400332984 (Hays, SA); Souza, Rimenez R.; Robertson, Nicole M.; Pruitt, David T.; Gonzales, Phillip A.; Hays, Seth A.; Rennaker, Robert L.; Kilgard, Michael P.; McIntyre, Crista K.We have shown that vagus nerve stimulation (VNS) enhances extinction of conditioned fear and reduces anxiety in rat models of PTSD using moderate stress. However, it is still unclear if VNS can be effective in enhancing extinction of severe fear after prolonged and repeated trauma. Severe fear was induced in adult male rats by combining single prolonged stress (SPS) and protracted aversive conditioning (PAC). After SPS and PAC procedures, rats were implanted with stimulating cuff electrodes, exposed to five days of extinction training with or without VNS, and then tested for extinction retention, return of fear in a new context and reinstatement. The elevated plus maze, open field and startle were used to test anxiety. Sham rats showed no reduction of fear during extensive extinction training. VNS-paired with extinction training reduced freezing at the last extinction session by 70% compared to sham rats. VNS rats exhibited half as much fear as shams, as well as less fear renewal. Sham rats exhibited significantly more anxiety than naive controls, whereas VNS rats did not. These results demonstrate that VNS enhances extinction and reduces anxiety in a severe model of PTSD that combined SPS and a conditioning procedure that is 30 times more intense than the conditioning procedures in previous VNS studies. The broad utility of VNS in enhancing extinction learning in rats and the strong clinical safety record of VNS suggest that VNS holds promise as an adjuvant to exposure-based therapy in people with PTSD and other complex forms of this condition. ©2019 Informa UK Limited, trading as Taylor & Francis Group.