Transcranial Electrical Stimulation

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17 Transcranial Electrical Stimulation Trials Near You

Power is an online platform that helps thousands of Transcranial Electrical Stimulation 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
The two goals of the proposed study are: (1) To determine how brain activity changes with cognitive recovery over time from acute to chronic phases of traumatic brain injury (TBI). (2) To determine how the time of anodal transcranial electrical stimulation (A-tES) administration affects cognitive performance and brain activity in TBI. To achieve these study goals, the investigators will conduct a pilot clinical trial over three years in which the investigators aim to recruit 60 patients with moderate to severe TBI at the University of Cincinnati Medical Center (UCMC). During the acute phase of TBI, all participants will complete clinical questionnaires and perform 2 cognitive computer tasks while their brain activity is recorded. Half of the participants will be randomly selected to receive A-tES for 15 minutes while performing cognitive tasks and the other half will receive sham stimulation. All participants will be followed for 6 months. During their 3-month follow-up, the investigators will perform another session where all participants complete the questionnaires and receive A-tES while performing cognitive tasks during brain recording. In their last visit at 6 months post-injury, all participants will complete the questionnaires and cognitive tasks with brain recording but no stimulation treatment. From the collected data, the investigators will determine if time from brain injury correlates with brain activity during performance of cognitive tasks. The investigators will also assess the efficacy of early A-tES treatment for improving cognitive task performance and clinical test ratings at 6 months post-injury in comparison to A-tES delivered during the 3-month follow-up visit.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

60 Participants Needed

This trial tests if combining brain and muscle electrical stimulation helps people with partial spinal cord injuries walk better by improving muscle strength and coordination. Functional electrical stimulation (FES) has been used to assist walking and improve muscle strength in individuals with spinal cord injuries.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

14 Participants Needed

The purpose of this study is to understand the neurophysiological mechanisms of peripheral electrical stimulation (PES) in modulating supraspinal tremorogenic input to motoneurons. For this purpose, the investigators will use transcutaneous PES, high-density electromyography (HD-EMG), transcranial magnetic stimulation (TMS), electroencephalography (EEG), magnetic resonance imaging (MRI), and neuromusculoskeletal modelling. This study will be carried out in both healthy participants and patients with essential tremor (ET) and Parkinson's disease (PD).
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

180 Participants Needed

The goal of this clinical trial is to learn about the ability of non-invasive brain stimulation during sleep to enhance people's deep sleep and its potential benefit on memory in people with mild cognitive impairment via home use sleep therapy device (SleepWISP) as well as learn about biomarkers associated with Alzheimer disease (AD). The clinical trial aims to answer the following main questions: 1. Whether the non-invasive transcranial electrical stimulation (TES) delivered by SleepWISP could provide short-term enhancement of deep sleep in a single night in the target population. 2. Whether TES delivered by SleepWISP could enhance deep sleep over multiple nights in the target population. 3. Whether enhance on deep sleep could improve memory performance in the target population. Participants will be asked to wear non-invasive and painless devices that record their brain activity during sleep along with an actigraphy watch that measures their movement throughout the day. In addition, blood samples or nasal swab assays will be collected from participants multiple times during the study.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:40 - 85

60 Participants Needed

This study is looking at a new non-invasive brain stimulation methods called transcranial alternating current stimulation (tACS) to see if it can improve working memory and thinking processes in people with Mild Cognitive Impairment (MCI). tACS is a low-risk, non-painful, low electrical current that circulates through the brain of awake participants and stimulates their brain cells. Participants must be 60 years of age and have a diagnosis of mild cognitive impairment. Participants will undergo treatment sessions that range from 1 to 1.5 hours at CAMH, 5 days a week, over a total of 2 weeks. In addition, participants will complete clinical and cognitive assessments and bloodwork at baseline and again after treatment.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:60+

20 Participants Needed

The goal of this clinical trial is to learn about the effects of transcranial electric stimulation on attentional control and brain dynamics in healthy adults. The main questions are: Does stimulation affect how subjects exert attentional control? Do mathematical models predict brain activity changes in response to stimulation? Participants will have electroencephalography (EEG) brain data recorded while: They sit relaxed They receive stimulation, while relaxed They receive stimulation while completing computerized tasks to measure cognitive abilities ("cognitive tasks") They receive sham (ineffective) stimulation during cognitive tasks
No Placebo Group

Trial Details

Trial Status:Recruiting
Age:18 - 45

72 Participants Needed

The objectives of this study are to (1) determine the effects of neuromodulation techniques on mobility in persons with chronic SCI, as measured by subjective and objective measures, and (2) to determine the optimal combination of techniques that modify mobility and movement in an individual. The neuromodulation techniques explored will be methods of electromagnetic stimulation - that is, electrical stimulation and magnetic stimulation.
No Placebo Group

Trial Details

Trial Status:Enrolling By Invitation
Trial Phase:Unphased

10 Participants Needed

This trial uses a technique that applies a weak electrical current to the scalp to help patients with psychotic disorders who experience hallucinations. The treatment targets a specific brain area involved in processing sensory information to reduce abnormal activity and alleviate hallucinations. This non-invasive brain stimulation technique enhances the precision of the treatment by using smaller electrodes.
Stay on current meds

Trial Details

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

20 Participants Needed

Walking is a complex and continuous task that entails repetitive motions of the body. Relatively high gait variability sensitively predicts falls and cognitive decline in older adults. Previous work has identified an unique brain network relationship linked to gait variability and its relevant cognitive function (i.e., sustained attention). This project aims to develop a non-invasive brain stimulation montage designed to modulate the shared brain networks dynamics and to demonstrate its effects on resting state functional connectivity, gait and cognitive performance in older adults at risk for falls.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:65+

30 Participants Needed

Working memory (WM) is the ability to hold relevant information in mind in the absence of sensory input. The capacity for WM is a foundation for cognitive control and higher cognitive function more broadly. Previous research demonstrated that during the delay period of WM tasks, oscillatory electrical activity in the prefrontal cortex in the theta-frequency band (4-8 Hz) increased in amplitude. However, other groups found that the slope of the aperiodic signal in the brain was positively correlated with individual differences in WM capacity. Since low-frequency power and a steeper slope of the aperiodic signal are confounded in many analyses, it is not clear whether the slope of the aperiodic signal or the amplitude of low-frequency oscillations underlie WM capacity. With many studies investigating the causal role of theta oscillations in WM, the purpose of this project is to investigate the role of the aperiodic signal in WM performance.

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:18 - 35

30 Participants Needed

Dementia is a prevalent condition with no known cure. It affects not only the person with dementia but also the family. This study will investigate the effects of applying different transcranial electrical stimulation (tES) waveforms to find the optimal stimulation when paired with cognitive exercise on older adults with dementia. It is a placebo-controlled double-blind study with statistical rigor. In addition, the investigators will investigate technological methods to monitor changes due to the intervention. These include functional near infrared spectroscopy (fNIRS), electroencephalography (EEG), electrovestibulography (EVestG), and balance measurements using accelerometers. fNIRS measures oxygenated and deoxygenated blood flow to the brain and it may help to understand neuronal changes due to intervention. EEG measures the electrical activity of the brain via electrodes placed on the scalp to study the brain's response to different electrical stimulations treatments. EVestG is a non-invasive measure of the vestibuloacoustic system in both background (no motion) and in response to passive whole-body tilt stimuli. We hypothesize there is a direct link between vestibular system deficiencies and Alzheimer's. Lastly, the investigators will measure the effects of electrical stimulation on balance by measuring postural sway using two accelerometers. This study investigates the effects of transcranial alternating current stimulation (tACS) and transcranial direct current stimulation (tDCS) with different protocols for frequencies to determine the most effective treatment to improve cognitive abilities and working memory for people with dementia. The global objective of the proposed study is to investigate the effects of different tES in improving the cognitive status of older adults with dementia, when paired simultaneously with cognitive training. The general objectives include the following: 1. Run a human research randomized and double-blind study to address the global objective of the study with statistical rigor. 2. Investigate the correlation of fNIRS outcomes with those of the primary outcome measures of the study in Objective 1 as well as its predictivity to the treatment at baseline. 3. Investigate the effects of different tES on EEG recordings as well as its predictivity to the treatment at baseline. 4. Investigate the effects of different tES on balance for older adults with cognitive impairment. 5. Investigate the correlation of EVestG outcomes with those of the primary outcome measures of the study in Objective 1 as well as its predictively to the treatment at baseline. 6. Disseminate the project results and design the next follow up project.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased
Age:50 - 95

100 Participants Needed

The goal of this small (n=75) proof-of-concept randomized clinical trial is to test the effects of transcranial alternating current stimulation (tACS) during motivational interviewing (MI) sessions with participants who drink at above the low-risk level. Participants will be randomized to receive either MI with active stimulation, MI with sham stimulation, or a delayed treatment group that receives MI with no stimulation. Measures will include brain imaging, alcohol use, cannabis use, risk-taking behavior, emotions, and others. Participants who are randomized to the delayed-treatment group will not receive brain imaging.

Trial Details

Trial Status:Recruiting
Trial Phase:Phase 2
Age:21 - 60

75 Participants Needed

The study will be a non-randomized, non-blinded pilot study to analyze the safety and feasibility of a non-significant risk device, transcutaneous spinal cord stimulation. The aim is to include 30 total patients, 10 patients in each of 3 groups: 1. Non-traumatic spinal cord injury (ntSCI) with diagnosis of degenerative cervical myelopathy and offered surgical intervention. 2. Early tSCI screened during the hospital admission when cervical/thoracic spinal injury was diagnosed. 3. Delayed tSCI (control) screened 6-24 months after acute cervical/thoracic spinal injury.
No Placebo Group

Trial Details

Trial Status:Recruiting
Trial Phase:Unphased

30 Participants Needed

The purpose of this study is to develop the safety, feasibility, and tolerability of a personalized transcranial alternating current stimulation (tACS) approach in antenatal depression.
No Placebo Group

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Unphased
Age:18 - 45
Sex:Female

10 Participants Needed

The objective of this study is to determine the effects of a 6-month, home-based personalized transcranial direct current stimulation (tDCS) intervention targeting the left dorsolateral prefrontal cortex on cognitive function, dual task standing and walking, and other metrics of mobility in older adults with motoric cognitive risk syndrome (MCR).
No Placebo Group

Trial Details

Trial Status:Not Yet Recruiting
Trial Phase:Unphased
Age:65 - 90

128 Participants Needed

This study will determine whether electrical stimulation of an area of the brain called the dorsolateral prefrontal cortex, which is important in determining the feeling of fullness after eating, affects how much food a person eats and weight loss over 4 weeks. It will also compare weight changes in people who attend weight loss counseling sessions and those who do not over this period of time. Obese, non-diabetic people between 18 and 60 years of age who are in good health and who live in the Phoenix, AZ, metropolitan area are eligible for this study. Candidates must have a body mass index of 35 kg/m(2) or more and weigh less than 350 pounds. Participants are admitted to the NIH inpatient unit in Phoenix for the first 9 days of the study for tests, which include meal tests to determine eating behaviors and caloric intake, blood and urine tests, glucose tolerance test, weight measurement, psychological assessments and DEXA scan to measure body fat. For 3 of the days, they will be asked to eat all of their food from automated vending machines. Some subjects receive transcranial direct current stimulation (TDCS). For this procedure, electrodes that conduct electricity are placed on the head and arm and the current is turned on for 40 minutes. Some tingling may be felt under the electrodes. Other subjects receive sham TDCS, with the current turned on only very briefly. After the evaluations, subjects are discharged home from the NIH unit and instructed to eat 25 percent fewer calories than they consumed while on a weight maintenance diet the first 3 days of their inpatient stay. They maintain the lower calorie diet at home for 4 weeks. During this period they come to the NIH unit 3 days a week to receive either real or sham TDCS.

Trial Details

Trial Status:Recruiting
Trial Phase:Phase 2
Age:18 - 60

148 Participants Needed

This trial tests tDCS, a non-invasive brain stimulation technique, on patients with severe depression who haven't responded to multiple treatments. The goal is to see if tDCS can help improve their mood by using a small electrical current to stimulate specific brain areas. Transcranial direct current stimulation (tDCS) is a non-invasive brain stimulation technique that has been investigated for its potential to treat depression, especially in patients who do not respond well to medication.

Trial Details

Trial Status:Active Not Recruiting
Trial Phase:Unphased

60 Participants Needed

Why Other Patients Applied

"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 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 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

"As a healthy volunteer, I like to participate in as many trials as I'm able to. It's a good way to help research and earn money."

IZ
Healthy Volunteer PatientAge: 38

"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

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Why We Started Power

We started Power when my dad was diagnosed with multiple myeloma, and I struggled to help him access the latest immunotherapy. Hopefully Power makes it simpler for you to explore promising new treatments, during what is probably a difficult time.

Bask
Bask GillCEO at Power
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Frequently Asked Questions

How much do Transcranial Electrical Stimulation 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 Transcranial Electrical Stimulation 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 Transcranial Electrical Stimulation 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 Transcranial Electrical Stimulation 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 Transcranial Electrical Stimulation 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 Transcranial Electrical Stimulation clinical trials?

Most recently, we added Transcranial Direct Current Stimulation for Dementia, Transcranial Electrical Stimulation for Traumatic Brain Injury and Transcranial Alternating Current Stimulation for Prenatal Depression to the Power online platform.

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