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Prolonged disorders of consciousness (pDOC) are defined as DOC lasting \>1 year post injury for patients with Traumatic Brain Injury (TBI) and \>3 months post injury for patients with non-TBI and at present there are limited treatments that reliably lead to enhanced prognosis. The rehabilitation process throughout the continuum of care for patients with pDOC necessitates restorative strategies to facilitate arousal and functional recovery and coordinated medical management. Rehabilitation interventions for patients with DOC and pDOC have evolved in the past decade, with an emerging body of evidence highlighting the benefits of rehabilitation intervention even in the acute. While there is data to support the individual utility of these modalities, no work to date has investigated the benefits of pairing transauricular vagus nerve stimulation (taVNS) and robotic tilt table mobilization (RTTM) to maximize functional recovery in patients with pDOC. This study will report on the safety, feasibility, and preliminary short- and long-term outcomes of RTTM with simultaneously paired Transcutaneous auricular vagus nerve stimulation (taVNS) for Severe Acquired Brain Injury (SABI) patients with pDOC . Fifteen (15) participants will be recruited and complete a 12-week rehabilitation protocol using paired taVNS and RTTM. Once participants have been screened and enrolled in the study, they will complete three study phases: T1: a baseline observation of standard of care T2, intervention, and T3 longitudinal follow up.
The purpose of this study is to assess the effects of non-invasive vagus nerve stimulation (nNVS) on cognitive functioning in the users of e-cigarettes or vaping products. The investigators will use a digital wellness companion product (TRUVAGA™ device) that provides mild transcutaneous nVNS. The participants will be randomized to receive either a 2-min nNVS stimulation or control stimulation in the neck region followed by completion of three cognitive tests of attention and executive function.
This clinical trial aims to evaluate whether transcutaneous auricular vagus nerve stimulation (taVNS), a non-invasive brain stimulation method, can improve attention and memory in veterans with traumatic brain injury (TBI) and depression and/or posttraumatic stress disorder (PTSD). The study seeks to answer two main questions: 1. Can active taVNS improve attention and memory compared to sham (placebo) stimulation? 2. Does taVNS affect heart rate variability (HRV)? taVNS delivers a gentle electrical current to the vagus nerve through electrodes placed on the ear, targeting brain areas involved in attention and memory without requiring surgery. This study uses a crossover design, meaning all participants will experience two sessions: one with active taVNS and one with sham stimulation. The sham session feels similar but does not deliver actual stimulation, allowing researchers to compare the two and understand taVNS's effects on the brain. In a single visit, participants will: * Complete eligibility screening (questionnaires and vital signs). * Undergo two sessions (one active and one sham), randomly assigned. * Perform attention tasks before and after each session. * Have their heart rate monitored during the sessions. The findings will help determine whether taVNS could be an effective treatment for improving attention and memory in veterans with TBI.
In this mechanistic study, 40 individuals with chronic stroke will be implanted with a small vagus nerve stimulation (VNS) device. The study will use a randomized, blinded, crossover design to deliver two conditions in six-week blocks: active VNS or sham VNS, each paired with upper extremity (UE) motor rehabilitation. Assessment visits will occur before and after each block, and will examine neural pathway strength, functional connectivity, and motor and non-motor behaviors. Investigators will test for VNS-induced changes in motor, cognitive, and affective systems, and will identify biomarkers predictive of clinical response.
The goal of this clinical trial is to learn if stimulating the vagus nerve in combination with a motor task in people with multiple sclerosis can improve motor function. The main questions it aims to answer are: * Is stimulating the vagus nerve safe and feasible after demyelinating episodes? * Does a paired motor task with vagus nerve stimulation improve motor function with someone who has multiple sclerosis? Researchers will compare active vagus nerve stimulation to a sham stimulation to see if the paired vagus nerve stimulation can improve motor control. Participants will: * Come in for study visits over a six month period. Study visits are three times weekly for the first month, then single follow up visits at two, three, and six months. * During study visits, participants will complete 30 minutes of the paired vagus nerve stimulation with a motor task, specifically the grooved peg test. * At various timepoints in the study, motor and disability tests will be administered to see if there are any changes in motor control for that participants. These tests include the timed 25 foot walk test, expanded disability scale, the upper extremity portion of the Fugl-Meyer Assessment, and the Multiple Sclerosis Impact Scale - 29.
The purpose of this study is to find out if investigators can stimulate the vagus nerve (a nerve in the body that runs from your brain to the large intestine), and influence insulin, C-peptide, and glucose levels. C-peptide is a substance that is created when insulin is produced and released into the body. The vagus nerve is a largely internal nerve that controls many bodily functions, including stomach function. Investigators hope that by stimulating the vagal nerve using the TeNS behind the ear, this stimulation can affect insulin levels, and this will help innovate treatment of patients with nausea, vomiting, and disordered stomach function, and patients with diabetes. Researchers hope to be able to measure the activity of the vagus nerve when it is stimulated in other ways. This could help investigators learn more about studying this nerve in the future.
The purpose of this research is to test if Auricular Vagal Nerve Stimulation (aVNS) is safe in persons with spinal cord injury (SCI).
The purpose of this study is to evaluate the safety and feasibility of transcutaneous auricular Vagus Nerve Stimulation (taVNS) paired with upper-limb rehabilitation in adults with tetraplegia caused by cervical spinal cord injury.
This is a single-center, pilot study of up to 25 subjects with residual upper extremity deficits at least six months after an ischemic stroke. The purpose of the study is to evaluate the initial clinical safety, device functionality, and treatment effect of non-invasive electrical stimulation of the trigeminal and/or vagus nerves (nTVNS) using the NeuraStasis Stimulator System adjunctive to rehabilitation. Subjects will either receive the intervention or control-sham stimulation. The study will inform the design and implementation of a pivotal study.
The goal of the VNS4PWS clinical study is to test the efficacy, safety, and acceptability of transcutaneous vagus nerve stimulation (tVNS) treatment in people with PWS.