39 Clinical Trials for Various Conditions
In the present study, the investigators aim to investigate feasibility of utilizing noninvasive neuromodulation, specifically taVNS, as a nonpharmacologic approach to address insomnia in patients with stage I-IV breast cancer.
This study is one of the first studies to investigate a non-antibiotic approach to the treatment of symptoms that persist after antibiotic treatment for Lyme disease (PTLS). Transcutaneous auricular vagus nerve stimulation (taVNS) offers the potential of being an effective and non-toxic approach to reduce the burden of multisystem symptoms in patients with PTLS. This study seeks to address an important goal: to assess the safety, feasibility, and tolerability of a new non-invasive, non-pharmacologic treatment for patients with symptoms that persist despite prior antibiotic treatment for Lyme disease.
To determine whether treatment with transauricular vagus nerve stimulation (taVNS) during the training of an affected upper limb of a patient with chronic stroke on a robotic motor task alters the motor impairment.
This study explores the use of transcutaneous auricular vagus nerve stimulation (taVNS), a new form of neuromodulation which stimulates the ear. 24 healthy subjects without a past medical or psychiatric history will be recruited to participate in a phone screen followed by 1 lab visit. During the lab visit, subjects will participate twice in a validated stress induction technique called the cold pressor test, while concurrently receiving either active or sham taVNS. The cold pressor test consists of subjects placing their feet in an ice bath for a short period of time. Researchers will measure participant's heart rate while they receive taVNS (ear stimulation) and participate in the cold pressor test. Assessments of mood, anxiety, and stress will be collected at the beginning and end of the visit.
This study seeks to conduct a randomized, double-blind pilot study, to determine whether the Transcutaneous Auricular Vagus Nerve Stimulation and study procedure are feasible and acceptable for use with World Trade Center responders with Post Traumatic Stress Disorder.
In this research study we want to learn more about if transcutaneous electrical nerve stimulation (TENS), a safe electrical stimulation tool, can relieve Fibromyalgia pain. A total of 60 subjects with Fibromyalgia will be enrolled in this study at Massachusetts General Hospital, Charlestown Navy Yard campus.
30 patients will participate in a prospective randomized clinical trial to test the safety, tolerability and efficacy of transcutaneous auricular vagus nerve stimulation (taVNS) for autonomic nervous system (ANS) dysfunction in the chronic kidney disease (CKD) stage 3-5 setting.
The goal of this clinical trial is to learn the feasibility and safety of using home-based taVNS in young adults with IBS to manage their IBS-related pain and symptoms. It will also learn about participants' experience in using the home-based taVNS intervention. The main questions it aims to answer are: * Is it feasible to use a home-based taVNS intervention for pain and symptom management among YAs with IBS? * Is it safe and reported satisfactory to use a home-based taVNS intervention for pain and symptom management among YAs with IBS? Researchers will compare Active to Sham taVNS (a look-alike intervention that contains minimal stimulation) to see if Active taVNS works on managing IBS-related pain and symptoms. Participants will: * Take Active or Sham taVNS intervention for a 6-week treatment (twice daily, 30 minutes per session) * Visit the research lab at the initial setup and the end of the 6-week treatment for checkups and tests * Keep a diary of their symptoms and the number of times they use the taVNS.
The purpose of this study is to explore whether a non-invasive form of ear stimulation called transcutaneous auricular vagus nerve stimulation (taVNS) can manage symptoms in patients with autism spectrum disorder (ASD). Additionally, this study also uses magnetic resonance imaging (MRI) to capture images of participants' brains and apply an image processing method called INSCAPE to track brain state changes during taVNS treatment in ASD. Investigators will recruit up to 16 participants with ASD.
Early evidence suggests the benefits of post-stroke motor rehabilitation may be enhanced by applying electrical stimulation to the ear. This study aims to test the new approach of pairing ear stimulation with motor rehabilitation in the home setting in stroke survivors with upper limb motor function deficits.
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 study is to explore whether stimulating different outer parts of the ear using a non-invasive form of ear stimulation called transcutaneous auricular vagus nerve stimulation (taVNS) will create different brain activation images. Investigators will recruit 24 healthy participants. The ear stimulation will be delivered while taking brain images using a magnetic resonance imaging (MRI) machine.
The purpose of this study is to explore whether a non-invasive form of ear stimulation called transcutaneous auricular vagus nerve stimulation (taVNS) can change the way participants perceive pain. Investigators will recruit up to 20 participants with chronic post-stroke upper extremity pain. The goal is to determine if there is a pain reduction after ear stimulation.
Investigators aim to improve the skills of premature or sick term infants in breastfeeding by boosting motor learning with transcutaneous vagus nerve stimulation. Investigators will recruit 10 premature, ≥ 35 weeks gestational age, or convalescing sick term infants admitted to the NICU at MUSC to participate in this study. Infants will receive taVNS treatments once a day with breastfeeding's for up to 14 days. Before each treatment, the researcher will determine how much electrical stimulation is needed for the infant to feel a slight tingle without discomfort, and during daily treatment paired with breastfeeding the infant will continue to receive this level of electrical stimulation, coinciding with latching and sucking, repeated over the duration of the feed. Investigators will collect information about the pre- and post-feed weights, the length of time for each feed, and observations of latch, suck, and swallow techniques by the infant from parents and the lactation consultant. Investigators will also evaluate parental satisfaction associated with their infant's ability to breastfeed after taVNS by providing parental satisfaction surveys at the beginning, after 1 and 2 weeks, and at 3 months after the end of the study to assess infants' progress in and maintenance of breastfeeding abilities. If the pairing of breastfeeding with taVNS is able to result in improved outcomes of effective breastfeeding in infants in the neonatal intensive care units, this intervention could be further utilized by NICUs to increase the rate of premature and sick term infants who are successfully able to breastfeed at the time of discharge and maintain breast feeding longer after discharge. This would allow premature infants to acquire the many benefits of breastmilk as well as contribute towards the strengthening of the maternal-infant bond that breastfeeding has been shown to enhance.
The purpose of this research study is to investigate the effects of different forms of a gentle form of electrical stimulation applied to the ear, known as transcutaneous auricular vagus nerve stimulation (taVNS). The research team is interested in how the different forms affect comfort and tolerability, as well as how well it works.
Transcutaneous electrical nerve stimulation (TENS) is a non-invasive modality that utilizes electrical currents to modulate pain in populations with acute and chronic pain. TENS has been demonstrated to produce hypoalgesic effects in postoperative pain, fibromyalgia, knee osteoarthritis, and healthy subjects. Transcutaneous auricular vagus nerve stimulation (TaVNS) is a non-invasive modality that modulates the vagus nerve by stimulating its auricular branches. The effects of the combination of TENS and TaVNS on producing an analgesic response have not been studied. Considering that TENS and TaVNS both stimulate similar analgesic pathways but through different means of activation, the investigators can hypothesize that a combination of both methods can produce a more pronounced analgesic response. Therefore, the objective of this study is to assess the hypoalgesic effect of a combination of TENS and TaVNS in pain-free subjects. The study will be a simple crossover design conducted at the University of Hartford. Subjects will be recruited from the University of Hartford population via oral communication, digital flyers, and posters on campus. Thirty participants will undergo two sessions in a crossover manner with one week in between. During one session, the participants will receive TENS with active TaVNS and the other session will be a placebo procedure (TENS with placebo TaVNS). The order of these sessions will be randomized. Importantly, the pressure pain threshold (PPT) and heat pain threshold (HPT) assessors will be blinded to the treatment category. For active TaVNS, a frequency of 25 Hz will be applied with a pulse duration of 200 µs. For placebo TaVNS, the intensity will be increased to a sensory level and then decreased to 0 mA. High frequency TENS of 100Hz will be applied in both sessions, with a pulse duration of 200 µsec, asymmetrical biphasic square waveform, and intensity of maximal tolerance without pain. TENS and TaVNS will be turned on for 30 minutes after a baseline measurement of outcomes. TENS and TaVNS will then be turned off, but the electrodes will remain on until completion of post-treatment assessment. Pressure pain threshold, heat pain threshold, blood pressure, oxygen saturation and heart rate will be tested 4 times: Once pre-intervention, once during intervention, once immediately after the intervention and once 15 minutes post-intervention.
Investigators will recruit up to 10 patients with Anxiety comorbid with Autism Spectrum Disorder (ASD) from the outpatient clinics at MUSC. This pilot trial will be an open-label investigation of the safety and feasibility of transcutaneous auricular vagus nerve stimulation (taVNS) as a nonpharmacological wearable intervention used to manage anxiety and other neuropsychiatric symptoms at home, with patients/caretakers self-administering treatments. Each subject will undergo an initial in-person screening and be consented prior to participating in the study. This will be followed by an in-person training session with the subject (and caretaker if applicable), where they will learn how to self-administer taVNS and ask any pertinent questions. Participants will self-administer taVNS at home twice daily for 4 weeks. These treatments will not interfere with other aspects of their mental health care. Our investigators, over the prior 8 years, have demonstrated that taVNS is safe and feasible in the outpatient setting. Furthermore, investigators have recently demonstrated that taVNS is well tolerated and safely self-administered at home with remote monitoring. The investigators hypothesize that taVNS will be safe and feasible to administer at home in this new population. Results from this study may lead to further exploration of taVNS in this unique population.
In the United States, more than 795,000 people have a stroke every year. Motor impairment after a stroke is common and can be debilitating. To date, there remain few treatments available to help improve motor recovery after a stroke, making this an important area of research. Novel use of neuromodulation such as Invasive Vagus Nerve Stimulation (VNS) has been shown to improve motor recovery in stroke patients. Vagus nerve stimulation (VNS), in which the nerve is stimulated with electrical pulses, has demonstrated success for a variety of conditions, including inflammation, depression, cognitive dysfunction, chronic fatigue, headaches/migraines, pain, insomnia, and cardiovascular issues. Very recently, non-invasive options have been developed and might be a promising alternative. The research in this area is still very limited and much more research is needed to investigate non-invasive/trancutaneous auricular vagus nerve stimulation (taVNS) related biomechanisms and to further support its efficacy in acute patients. The purpose of this study is to build upon the current research to investigate changes in electrical brain activity (using electrophysiology) related to improvements in both motor and cognitive recovery following the use of taVNS in acute stroke patients.
Transauricular vagus nerve stimulation (taVNS) is a newer delivery system, using a non-invasive stimulation device placed at the ear's concha. TaVNS is a portable, safe, and low-cost intervention, and according to some studies, taVNS may influence nociception and pain perception, which can lead to potential applications for various painful illnesses, including fibromyalgia (FM). This trial aims to investigate the clinical effects of taVNS on pain control in FM subjects.
This is a pilot study to establish feasibility of transcutaneous auricular vagus nerve stimulation (taVNS) for improving letter-learning in adolescents with dyslexia. The main goals of the study are to 1) evaluate whether children in this age range will tolerate low level stimulation over the course of multiple sessions, 2) determine whether low level taVNS improves novel letter learning in dyslexia, and 3) evaluate the effect of low level taVNS on the brain's response to letters. Participants will complete fMRI before training, immediately after training, and a few weeks after training ends. Training will consist of six 30-minute lessons during which participants will learn novel letter-sound relationships while receiving either active or sham taVNS. Researchers will compare stimulation conditions to determine effect of this device on learning and neural plasticity.
The goal of this clinical trial is to investigate the effects of non-invasive transcutaneous auricular vagus nerve stimulation (taVNS) in patients with persistent atrial fibrillation. taVNS is a treatment through which a small electrical current is applied to a specific location of the left ear. The main question to answer is whether taVNS will reduce the heart rate in patients with persistent atrial fibrillation. After appropriate training, participants will self-administer taVNS for 30 minutes every day for two weeks. During one of the two weeks (randomized order), the clip electrode, delivering the electrical current will be attached to the cymba conchae of the left ear, while during the other week the clip electrode will be attached to the lobule of the left ear. During both weeks, the electrocardiogram (ECG) will be monitored continuously through a small ECG patch that is placed on the chest. Participants will meet with the investigators at the beginning of the study, after 7 days and at the end of the study (after 14 days). Researchers will compare the ECG obtained during the two weeks and evaluate if the heart rate differs between the two study weeks.
This study will examine whether combining a single dose of psilocybin with non-invasive transcutaneous auricular vagus nerve stimulation (taVNS), a potential inducer of neuroplasticity and enhanced memory formation, will enhance the long-term beneficial behavioral effects of psilocybin when compared to sham taVNS or no VNS by allowing memory for insights gained during the psychedelic experience to remain vivid after they will have faded in subjects who receive psilocybin followed by sham taVNS or no VNS.
Newborns who are born premature or suffer brain injury at birth are at risk for motor problems that may cause weakness in reaching and grasping on one side of the body. In older children, therapists may use a hand mitt and restraint for the stronger arm, to encourage use of the weaker side, called constraint-induced movement therapy (CIMT). Even with the high intensity therapy of CIMT, it typically takes between 40-120 hours total treatment time for most children to improve their motor skills. A non-invasive form of nerve stimulation, transcutaneous auricular vagus nerve stimulation (taVNS), stimulates a nerve by the ear that enhances learning motor skills. taVNS stimulation will be triggered by EMG sensors which detect muscle activity. The purpose of this study is to evaluate the safety and effectiveness of taVNS to improve motor skills when paired with CIMT in infants with one-sided weakness at 6-18 months of age.
This is a research study to find out if mental health symptoms in patients admitted to the Institute of Psychiatry are affected by a form of ear stimulation called transcutaneous auricular vagus nerve stimulation, or taVNS. Participants will receive ear stimulation during their inpatient treatment at the Institute of Psychiatry. Participants will be randomly assigned to either receive ear stimulation for 1 day (up to 9 treatments over the course of a single day) or 3 days (up to 3 treatments per day), and will have a 50:50 chance of being in either group (like the flip of a coin). Each treatment will last up to 30 minutes and there will be a break of at least 30 minutes in between treatments. The study team will ask participants to complete a group of questionnaires at the beginning and end of the study. In addition, there are several questionnaires that will be completed daily while participants are receiving ear stimulation. Participants in the 1 day stimulation group will also receive 2 days of follow up questionnaires after the initial day of stimulation. The questionnaires will ask questions about mental health symptoms that subjects may or may not be experiencing, including questions about mood, anxiety, and sleep. The ear stimulation treatments will not interfere with the care subjects are receiving from the medical team. In order to qualify for this study, participants must be actively receiving inpatient care at the MUSC Institute of Psychiatry.
The purpose of the research is to test out a combined treatment for depression where the investigators stimulate a nerve in the ear while at the same time stimulate the brain with magnets. These treatments are called transcutaneous (through the skin) auricular (ear) vagus nerve stimulation (taVNS) and transcranial (through the skull) magnetic stimulation (TMS). For participants who already have a cervical VNS device, the investigators will not change their treatment and will use this in place of the taVNS. The investigators think this combined method might treat depressive symptoms better than either alone. This study is in person at the Institute of Psychiatry in downtown Charleston on the MUSC campus. First, participants will have a screening session and then will have 6 treatment days total where participants will receive either VNS treatment alone, TMS treatment alone, or both at the same time. The treatment that participants start with will be randomized, and they will have 2 treatment days of each combination.
Children with frequently relapsing nephrotic syndrome (FRNS) are exposed to prolonged courses of steroids and other immunosuppressant medications. Given the adverse side effect profiles and variable efficacy of these medications, there is an urgent need to identify novel and safe therapies to treat nephrotic syndrome in children. Stimulation of the vagus nerve, which can be activated non invasively by transcutaneous auricular vagus nerve stimulation (taVNS), has immunomodulatory effects mediated by the inflammatory reflex and spleen. taVNS has become a therapy of interest for treating chronic immune mediated illnesses. The aims of the study are (1) To determine the feasibility of protocol implementation and tolerability of taVNS in the treatment of nephrotic syndrome in children (2) To establish proof-of-concept and generate statistical estimates of variance parameters and effect sizes for treatment response outcomes in children with nephrotic syndrome randomized to taVNS therapy compared with sham therapy (3) To investigate the effects of taVNS on inflammatory markers in children with nephrotic syndrome.
Children with steroid resistant nephrotic syndrome (SRNS) are exposed to prolonged courses of immunosuppressant medications. Given the adverse side effect profiles and variable efficacy of these medications, there is an urgent need to identify novel and safe therapies to treat nephrotic syndrome in children. Stimulation of the vagus nerve, which can be activated noninvasively by transcutaneous auricular vagus nerve stimulation (taVNS), has immunomodulatory effects mediated by the inflammatory reflex and spleen. taVNS has become a therapy of interest for treating chronic immune mediated illnesses. The aims of the study are (1) To determine the feasibility of protocol implementation and tolerability of taVNS in the treatment of nephrotic syndrome in children (2) To establish proof-of-concept and generate statistical estimates of variance parameters and effect sizes for treatment response outcomes in children with nephrotic syndrome randomized to taVNS therapy compared with sham therapy (3) To investigate the effects of taVNS on inflammatory markers in children with nephrotic syndrome.
This study has two parts. The study team will evaluate transcutaneous auricular vagal nerve stimulation (taVNS) and two sham settings during a passive task while measuring pupillary response. Second, the study team will assign either taVNS, sham, or no intervention during a go/no-go task and evaluate perceptual learning over three sessions which will also include measuring the pupillary response and electroencephalogram (EEG).
The purpose of this research is to measure alterations in anxiety and brain activity associated with the use of an approved health device called Transauricular Vagal Nerve Stimulation (TaVNS) in distressed persons who work in a health care and distressed healthcare workers in the the Philadelphia, PA region. The Investigators will be using functional magnetic resonance imaging (or fMRI) to measure changes in each subject's brain function during the use of VNS. This study is designed to allow researchers to understand the changes in cerebral (brain) activity that occur when a subject uses VNS. Thus, the primary goal of the proposed study is to evaluate the ability of the TaVNS system to reduce distress and change neurophysiology among health care providers. The Investigators, hypothesize that using the TaVNS device will help reduce distress in individuals. In order to understand the mechanisms of change that occur while using the VNS study, the Investigators have added a substudy of participants who do not experience high levels of distress to evaluate the effects of the functional changes that may occur in the brain while using the TaVNS device. In addition to the primary aims of the overalll study to assess distress in workers while enrolled in a TaVNS program, a subgroup of 50 subjects will undergo functional magnetic resonance imaging (fMRI) while using the VNS device to assess the changes in the brain including neurophysiological effects of TaVNS. The goal of this substudy is to observe the changes in the brain while using the TaVNS earbuds in the MRI to increase our understanding of the mechanisms and processing involved while using TaVNS. In this substudy, which is amendment version 3.0, the investigators have increased the number of persons to include 50 subjects who will use the device in the MRI to evaluate the neural processes and cerebral blood flow while using TaVNS.
Newborns who are born premature or suffer brain injury at birth are at risk for motor problems that may cause weakness in reaching and grasping on one side of the body. In older children, therapists may use a hand mitt and restraint for the stronger arm, to encourage use of the weaker side, called constraint-induced movement therapy (CIMT). Even with the high intensity therapy of CIMT, it typically takes between 40-120 hours total treatment time for most children to improve their motor skills. A non-invasive form of nerve stimulation, transcutaneous auricular vagus nerve stimulation (taVNS), stimulates a nerve by the ear that enhances learning motor skills. The purpose of this study is to evaluate the safety and effectiveness of taVNS to improve motor skills when paired with CIMT in infants with one-sided weakness at 6-18months of age.