Neuromodulation

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112 Neuromodulation Trials Near You

Power is an online platform that helps thousands of Neuromodulation patients discover FDA-reviewed trials every day. Every trial we feature meets safety and ethical standards, giving patients an easy way to discover promising new treatments in the research stage.

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No Placebo
Highly Paid
Stay on Current Meds
Pivotal Trials (Near Approval)
Breakthrough Medication
This is a single-site open-label clinical trial of the Stanford Accelerated Intermittent Neuromodulation Therapy (SAINT®) protocol. The goal of this clinical trial is to learn if a new form of transcranial magnetic stimulation (TMS)-known generally as accelerated intermittent theta burst stimulation (aiTBS) and specifically as SAINT®-is effective as a first-line therapy in treating adolescents aged 14-19 years-old in their first episode of depression who have not undergone a full course of depression treatment prior to starting the trial and who remain antidepressant-free throughout the trial. The main questions this trial aims to answer are: * Does SAINT® relieve symptoms of depression as a first-line therapy in adolescents? * Is SAINT® a feasible option as a first-line treatment for adolescent depression? Researchers will measure the depression symptoms in adolescent participants before and after SAINT®. Parents of the adolescent participant will also participate in the study providing information about their experience and preference for TMS as a first-line treatment. Adolescent participants will: * Remain antidepressant-free throughout the study period of 6-7 weeks. * Receive an MRI of their head for precision targeting * Receive 5 days of aiTBS (SAINT®)
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:14 - 19

40 Participants Needed

The purpose of this research study is to learn how a wearable nerve stimulation device, the Spark Biomedical's Sparrow Ascent System™, impacts the development of spatial disorientation and/or motion sickness in a healthy population. Spatial disorientation is when there is a "mismatch" between where a person is, and where the sense organs in their body tell them where they are. These sense organs include the inner ear (the vestibular system), the eyes (the visual system), the sense of where one's legs, back, and neck are (proprioceptive system), and one's higher thinking (cognitive centers). If spatial disorientation is severe or occurs in motion-naïve individuals, spatial disorientation can lead to motion sickness. The Sparrow Ascent System™ is a wearable, battery-operated transcutaneous auricular (ear) neurostimulation (tAN) device. This means that it uses electrical pulses to stimulate branches of nerves on and/or around the ear, specifically the "vagus" and "trigeminal" nerves. These nerves are also responsible for your sensation of nausea and your heart rate (vagus nerve), as well as headaches (trigeminal nerve). The Sparrow System utilizes a flexible earpiece with embedded hydrogel electrodes that stick to the skin, the earpiece is disposable after use. This device is already Food and Drug Administration (FDA) approved for use in humans and is safely used for control of symptoms in a variety of other medical conditions, such as opioid withdrawal and acute stress reaction. In this study, we will determine if the Sparrow Ascent System™ impacts the development of spatial disorientation or motion sickness.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:18 - 50

36 Participants Needed

This study will evaluate a new form of non-invasive brain stimulation for individuals with depression. Personalized low-intensity transcranial focused ultrasound stimulation will be delivered using a range of stimulation parameters during psychological and physiological monitoring. Individualized optimal targets will be selected using structural MRI and diffusion tractography. Brain target engagement will be evaluated using functional MRI.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Phase 1, 2
Age:18 - 65

30 Participants Needed

Participants will be chosen at random to receive a 30-minute stimulation of a specialized nerve (called a vagus nerve). The aim of this study is to determine whether a battery-operated portable device (current adjustable) attached to the outer ears (tragus) makes one more likely to improve on their sleep and quality of daily life. Participants will visit the lab on 2 occasions (one with a stimulating device and one without), 3 weeks apart for detailed instruction on setting up the ear stimulation and sleep kit in their home. Researchers will compare the sleep results from a PSG sleep device from the 2 sessions to determine the effect, if any on sleep.
No Placebo Group

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Unphased
Age:18 - 50

50 Participants Needed

Fluoroscopy is performed when placing a lead during a sacral neuromodulation procedure. During lead placement, subjects will receive either conventional or experimental fluoroscopic settings. The radiation exposure will be compared between the two groups.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

44 Participants Needed

The primary goal of this clinical trial is to evaluate whether Personalized Augmented Cognitive Training (PACT) plus intermittent theta burst stimulation (iTBS) is effective for treating depression in Service Members, Veterans, and civilians who have sustained a mild TBI. Participants will receive PACT plus 20 sessions of iTBS or sham iTBS over 4 weeks. Assessments will occur at baseline, 2 weeks, 4 weeks, and 8 weeks. Researchers will compare the PACT+iTBS group to the PACT+sham iTBS group to see if PACT+iTBS is associated with more depression improvement.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:18 - 65

72 Participants Needed

Alcohol use disorder (AUD) is a major health concern amongst Veterans as it causes functional impairments and decreased quality of life. Current AUD treatments show limited effectiveness in reducing withdrawal-related psychological and physical distress, which drives the urge to drink to relieve these symptoms. The investigators propose the vagus nerve, which is the primary nerve of the "rest and digest" branch of the autonomic nervous system via its bidirectional connections between the brain and the body, as a novel treatment target for AUD. The goal of this study is to assess treatment efficacy and mechanism of action. Noninvasive neuromodulation technologies offer the possibility for innovative, low risk treatments to support the rehabilitation and community reintegration of Veterans with AUD.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:21 - 65

80 Participants Needed

This trial tests a small device placed near the neck's spinal cord to help people with severe spinal injuries who need ventilators. It aims to see if electrical signals from the device can improve their breathing. The study focuses on adults aged 18-75 with injuries between C2 and C7 vertebrae. The goal is to reduce the need for ventilators in these patients.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

15 Participants Needed

Several strategies or contexts help patients with Parkinson's disease to move more quickly or normally, however the brain mechanisms underlying these phenomena are poorly understood. The proposed studies use intraoperative recordings during DBS surgery for Parkinson's disease to understand the brain mechanisms supporting improved movements elicited by external cues. The central hypothesis is that distinct networks are involved in movement improvement depending on characteristics of the facilitating stimulus. Participants will perform movement tasks during awake surgery performed exclusively for clinical indications. The identified biomarkers may provide targets for future neuromodulation therapies to improve symptoms that are refractory to current treatments, such as freezing of gait.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

40 Participants Needed

eTNS for ADHD

Los Angeles, California
This trial tests a treatment called TNS, which sends a small electrical signal to the forehead during sleep, in children aged 7-12 with ADHD. The signal helps activate brain areas that improve attention and impulse control.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:7 - 12

280 Participants Needed

The goal of this study is to investigate a new treatment for chronic symptoms after concussion or mild traumatic brain injury in people aged 18-65 years old. Chronic symptoms could include dizziness, headache, fatigue, brain fog, memory difficulty, sleep disruption, irritability, or anxiety that occurred or worsened after the injury. These symptoms can interfere with daily functioning, causing difficulty returning to physical activity, work, or school. Previous concussion therapies have not been personalized nor involved direct treatments to the brain itself. The treatment being tested in the present study is a noninvasive, personalized form of brain stimulation, called transcranial magnetic stimulation (TMS). The investigators intend to answer the questions: 1. Does personalized TMS improve brain connectivity after concussion? 2. Does personalized TMS improve avoidance behaviors and chronic concussive symptoms? 3. Do the improvements last up to 2 months post-treatment? 4. Are there predictors of treatment response, or who might respond the best? Participants will undergo 14 total visits to University of California Los Angeles (UCLA): 1. One for the baseline symptom assessments and magnetic resonance imaging (MRI) 2. Ten for TMS administration 3. Three for post-treatment symptom assessments and MRIs Participants will have a 66% chance of being assigned to an active TMS group and 33% chance of being assigned to a sham, or inactive, TMS group. The difference is that the active TMS is more likely to cause functional changes in the brain than the inactive TMS.

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Phase 2
Age:18 - 65

75 Participants Needed

Current disease-modifying therapies for multiple sclerosis (MS) aim to prevent the development of new lesions; unfortunately, no current FDA-approved therapies promote central nervous system (CNS) repair mechanisms. Thus, strategies to promote functional recovery from lesion-related deficits in adults with MS remain an unmet need. This is a pilot study designed to test the feasibility, safety and preliminary efficacy of non-invasive (transcutaneous, applied by surface electrodes over the skin) electrical spinal cord stimulation combined with occupational therapy for restoring upper extremity sensorimotor function in adults with multiple sclerosis. Participants with multiple sclerosis and impaired upper extremity function will complete two separate 6-week intervention sessions: 6 weeks of occupational therapy combined with transcutaneous spinal cord stimulation and 6 weeks of occupational therapy alone. The order of these interventions will be randomized, and each intervention will be separated by a 6-week washout period. The investigators hypothesize that: 1. transcutaneous spinal cord stimulation combined with therapy will be feasible and acceptable by participants 2. transcutaneous spinal cord stimulation combined with therapy will lead to improvements in upper extremity function compared to occupational therapy alone 3. transcutaneous spinal cord stimulation combined with therapy will lead to improvements in symptoms related to quality of life (pain, spasticity, and bladder symptoms) compared to occupational therapy alone
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Phase 1
Age:21 - 70

4 Participants Needed

This study evaluates the effects of an accelerated schedule of theta-burst stimulation, termed accelerated intermittent theta-burst stimulation (aiTBS), on the neural networks underlying explicit and implicit suicidal cognition in inpatients with major depressive disorder.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

100 Participants Needed

rTMS for Depression

Stanford, California
This study evaluates the antidepressant effects of an accelerated schedule of theta-burst stimulation, termed accelerated intermittent theta-burst stimulation (aiTBS), in individuals with borderline personality disorder (BPD) or trait and comorbid mood depressive disorder (MDD) or bipolar II disorder in a current mood depressive episode (MDE).

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

45 Participants Needed

This study is being done to test whether low-intensity focused ultrasound (LIFU) (low energy sound waves) cause temporary changes in brain activity and behavior when directed at particular parts of the brain. By targeting LIFU to the parts of the brain thought to be responsible for essential tremor (ET), and measuring any associated improvement in tremor, the investigators hope to show that LIFU can be a useful tool for studying the brain circuits responsible for tremor and other brain disorders.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

60 Participants Needed

The goal of this clinical trial is to learn if adaptive deep brain stimulation (DBS) can decrease or prevent freezing of gait in participants with Parkinson's disease.
No Placebo Group

Trial Details

Trial Status:Enrolling By Invitation
Trial Phase:Unphased
Age:21 - 75

20 Participants Needed

The primary purpose of this pilot study is to investigate a novel approach to the treatment of cognitive symptoms that persist despite prior antibiotic treatment for Lyme disease (Post treatment Lyme Disease or PTLD). Aim 1: The primary aim of this study is to assess whether the processing speed of individuals with PTLD can be enhanced by combining transcranial direct current stimulation (tDCS) with computer based cognitive training games. To achieve this aim, over a 4-week period, all individuals with PTLD will participate in at home adaptive cognitive training combined with either active stimulation or sham stimulation. Aim 2: To determine if treatment benefit in processing speed is sustained, the study will compare the sham and active groups 8 weeks after completion of study treatment.

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Unphased
Age:18 - 65

55 Participants Needed

NettleEndo for Endometriosis

San Francisco, California
The goal of this clinical trial is to learn if a wearable brain stimulation device called NettleEndo can reduce chronic pelvic pain and improve wellbeing in women with endometriosis. The study also aims to assess the safety and usability of the device when used at home over several months. The main questions it aims to answer are: 1. Does at-home transcranial direct current stimulation (tDCS) reduce daily pain intensity in women with endometriosis? 2. Does the device also improve mood and sleep quality? Researchers will compare two groups-one receiving active brain stimulation and one receiving a sham (placebo) stimulation-to see if the active device provides greater improvements in symptoms. Participants will: 1. Use the NettleEndo device at home for 20 minutes per session, five times per week for 12 weeks 2. Be randomly assigned to receive either real or sham stimulation through the device 3. Complete daily and weekly symptom ratings through a mobile app 4. Wear an optional fitness tracker to collect data on sleep, movement, and heart rate variability 5. Be followed for 60 days after completing the intervention to monitor longer-term effects All activities are completed remotely using a smartphone app. Participants can contact the study team with questions at any time. The study is double-blind, meaning neither participants nor the researchers assessing outcomes will know who received active or sham treatment until the end of the trial.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:22 - 45
Sex:Female

120 Participants Needed

TMS for Neuropathic Pain

San Francisco, California
Chronic neuropathic pain is defined as pain caused by a lesion or disease of the somatosensory nervous system. It is highly prevalent, debilitating, and challenging to treat. Current available treatments have low efficacy, high side effect burden, and are prone to misuse and dependence. Emerging evidence suggests that the transition from acute to chronic neuropathic pain is associated with reorganization of central brain circuits involved in pain processing. Repetitive transcranial magnetic stimulation (rTMS) is a promising alternative treatment that uses focused magnetic pulses to non-invasively modulate brain activity, a strategy that can potentially circumvent the adverse effects of available treatments for pain. RTMS is FDA-approved for the treatment of major depressive disorder, obsessive-compulsive disorder, and migraine, and has been shown to reduce pain scores when applied to the contralateral motor cortex (M1). However, available studies of rTMS for chronic neuropathic pain typically show variable and often short-lived benefits, and many aspects of optimal treatment remain unknown, including ideal rTMS stimulation parameters, duration of treatment, and relationship to the underlying pain etiology. Here the investigators propose to evaluate the efficacy of high frequency rTMS to M1, the region with most evidence of benefit in chronic neuropathic pain, and to use functional magnetic resonance imaging (fMRI) to identify alternative rTMS targets for participants that do not respond to stimulation at M1. The central aim is to evaluate the pain relieving efficacy of multi-session high-frequency M1 TMS for pain. In secondary exploratory analyses, the investigator propose to investigate patient characteristic that are predictive of responsive to M1 rTMS and identify viable alternative stimulation targets in non-responders to M1 rTMS.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

32 Participants Needed

This is a single-center phase I clinical study aiming to improve gait functions in patients with Parkinson's disease (PD) by using adaptive neurostimulation to the pallidum. The investigators will use a bidirectional deep brain stimulation device with sensing and stimulation capabilities to 1) decode the physiological signatures of gait and gait adaptation by recording neural activities from the motor cortical areas and the globus pallidus during natural walking and a gait adaptation task, and 2) develop an adaptive deep brain stimulation (DBS) paradigm to selectively stimulate the pallidum during different phases of the gait cycle and measure improvements in gait parameters. This is the first exploration of network dynamics of gait in PD using chronically implanted cortical and subcortical electrodes. In addition to providing insights into a fundamental process, the proposed therapy will deliver personalized neurostimulation based on individual physiological biomarkers to enhance locomotor skills in patients with PD. Ten patients with idiopathic Parkinson's disease undergoing evaluation for DBS implantation will be enrolled in this single treatment arm study.
No Placebo Group

Trial Details

Trial Status:Active Not Recruiting
Trial Phase:Unphased

10 Participants Needed

Why Other Patients Applied

"I changed my diet in 2020 and I’ve lost 95 pounds from my highest weight (283). I am 5’3”, female, and now 188. I still have a 33 BMI. I've been doing research on alternative approaches to continue my progress, which brought me here to consider clinical trials."

WR
Obesity PatientAge: 58

"My orthopedist recommended a half replacement of my right knee. I have had both hips replaced. Currently have arthritis in knee, shoulder, and thumb. I want to avoid surgery, and I'm open-minded about trying a trial before using surgery as a last resort."

HZ
Arthritis PatientAge: 78

"I have dealt with voice and vocal fold issues related to paralysis for over 12 years. This problem has negatively impacted virtually every facet of my life. I am an otherwise healthy 48 year old married father of 3 living. My youngest daughter is 12 and has never heard my real voice. I am now having breathing issues related to the paralysis as well as trouble swallowing some liquids. In my research I have seen some recent trials focused on helping people like me."

AG
Paralysis PatientAge: 50

"I've been struggling with ADHD and anxiety since I was 9 years old. I'm currently 30. I really don't like how numb the medications make me feel. And especially now, that I've lost my grandma and my aunt 8 days apart, my anxiety has been even worse. So I'm trying to find something new."

FF
ADHD PatientAge: 31

"I've tried several different SSRIs over the past 23 years with no luck. Some of these new treatments seem interesting... haven't tried anything like them before. I really hope that one could work."

ZS
Depression PatientAge: 51
This trial is testing a new method called transcutaneous spinal cord stimulation (tSCS) for people with chronic low back pain. tSCS uses electrical currents applied through the skin to help reduce pain. The goal is to see if this non-invasive treatment can improve pain and movement without the need for surgery.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:21 - 85

50 Participants Needed

The goal of this clinical trial is to assess the effectiveness of a sound-based passive treatment for reducing stress and annoyance induced by tinnitus, and how this therapy may improve tinnitus sufferers' quality of life. The main questions it aims to answer are: • \[question 1: to assess the efficacy of the LUCID/VIBE in managing the tinnitus handicap (measured by the reducing of the annoyance/stress response to tinnitus) contributing to the improvement of the quality of life of people living with tinnitus\] and • \[question 2: assess the efficacy of LUCID/VIBE in providing temporary relief through masking, such that it results in a reduction of the perceived loudness of tinnitus\]. Participants will \[use the VIBE app for 24 minutes a day for a period of 4 weeks. There will be two conditions, a Noise condition (the control condition in which the investigator will administer white noise) and the VIBE condition (the treatment condition). One approach involves broad-band masking with noise (Noise Condition), while the other uses music (LUCID Condition). Implementation of the noise condition will mirror the LUCID condition in terms of ease of access, look, feel, so that one condition does not look less professional than the other. Both conditions will be administered through the same app, and only the sound conditions will differ (white noise vs. LUCID music). All participants will be exposed to both the treatment and control conditions with the order of conditions counter-balanced (i.e., a cross-over design).

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:50 - 79

50 Participants Needed

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Frequently Asked Questions

How much do Neuromodulation clinical trials pay?

Each trial will compensate patients a different amount, but $50-100 for each visit is a fairly common range for Phase 2–4 trials (Phase 1 trials often pay substantially more). Further, most trials will cover the costs of a travel to-and-from the clinic.

How do Neuromodulation clinical trials work?

After a researcher reviews your profile, they may choose to invite you in to a screening appointment, where they'll determine if you meet 100% of the eligibility requirements. If you do, you'll be sorted into one of the treatment groups, and receive your study drug. For some trials, there is a chance you'll receive a placebo. Across Neuromodulation trials 30% of clinical trials have a placebo. Typically, you'll be required to check-in with the clinic every month or so. The average trial length for Neuromodulation is 12 months.

How do I participate in a study as a "healthy volunteer"?

Not all studies recruit healthy volunteers: usually, Phase 1 studies do. Participating as a healthy volunteer means you will go to a research facility several times over a few days or weeks to receive a dose of either the test treatment or a "placebo," which is a harmless substance that helps researchers compare results. You will have routine tests during these visits, and you'll be compensated for your time and travel, with the number of appointments and details varying by study.

What does the "phase" of a clinical trial mean?

The phase of a trial reveals what stage the drug is in to get approval for a specific condition. Phase 1 trials are the trials to collect safety data in humans. Phase 2 trials are those where the drug has some data showing safety in humans, but where further human data is needed on drug effectiveness. Phase 3 trials are in the final step before approval. The drug already has data showing both safety and effectiveness. As a general rule, Phase 3 trials are more promising than Phase 2, and Phase 2 trials are more promising than phase 1.

Do I need to be insured to participate in a Neuromodulation medical study?

Clinical trials are almost always free to participants, and so do not require insurance. The only exception here are trials focused on cancer, because only a small part of the typical treatment plan is actually experimental. For these cancer trials, participants typically need insurance to cover all the non-experimental components.

What are the newest Neuromodulation clinical trials?

Most recently, we added Brain Interchange System for Epilepsy, taVNS for Fibromyalgia and Nerve Stimulation + Local Anesthetic for Pain After Amputation to the Power online platform.

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