94 Clinical Trials for Various Conditions
The study examines the efficacy of a mindfulness-based neurofeedback protocol designed to improve academic performance and reduce performance anxiety in racial and ethnic minority college students. Using NeuroSky and BrainTrain technology, the intervention incorporates mindfulness principles to enhance participants' self-regulation skills. Continuous heart rate variability (HRV) data is collected to assess stress levels, sleep, and exercise. The research aims to explore the acceptability and feasibility of this approach, with the goal of addressing academic performance and anxiety in this population.
The goal of this clinical trial is to learn if training with the Prism system can reduce PTSD symptoms in US military Veterans and civilians with PTSD. Prism is a form of neurofeedback training that uses EEG signals to promote self-regulation of brain function. The main question this study aims to answer is: Does Prism training lead to decreased PTSD symptoms in US Veterans and civilians when used in addition to usual PTSD treatment? Researchers will compare Prism training to a sham training (a look-alike training that does not provide real feedback on brain activity) to see if Prism training decreases PTSD symptoms. Participants will: * Complete two one-hour in-person training sessions a week for about 8 weeks (15 sessions) * Complete two booster training sessions one month and two months after finishing the main training course * Participate in three detailed interviews: one before training, a second after nine weeks of training, and a third one month after the last booster training session (about 20 weeks after the initial visit)
The goal of this open-label single-arm study is to test a meditative neurofeedback intervention for depressed mood.
The purpose of this study is to develop a technique called real time fMRI neurofeedback. This technique uses a regular MRI scanner, except that special software allows the researchers to measure activity in participants brain, using fMRI, and then give information, in the form of a feedback signal, which indicates brain activity in real time, while in the MRI scanner. The larger goal of this study is to develop ways to help people, including those with depression, better regulate brain activity. The researchers think that this may be helpful in managing psychiatric symptoms. This study design has three phases, however, only two phases (phase 2 and 3) are considered to be a clinical trial. Phase 2 (part 2) was registered and is NCT05934604. This is the phase 3 (part 3) for this project and is funded by the National Institutes of Health.
The purpose of this study is to develop a technique called real time fMRI neurofeedback. This technique uses a functional MRI scanner, except that special software allows the researchers to measure activity in participants brain, using fMRI, and then give information, in the form of a feedback signal, which indicates brain activity in real time, while in the MRI scanner. The larger goal of this study is to develop ways to help people, including those with depression, better regulate brain activity. The researchers think that this may be helpful in managing psychiatric symptoms. This study design has three phases, however, only two phases (phase 2 and 3) are considered to be a clinical trial. Therefore, this registration will include phase 2 at this time.
The proposed study accelerates the translational aspect of neurofeedback-based attention training using novel technologies, algorithms, and neuromarkers. The presented brain training intervention and approaches will not only be applicable to attention remedy in patients with attention deficits but also can be applied to treatment of other neurocognitive (mental) disorders such as anxiety, depression, and addiction.
The goal of this study is to evaluate whether rtfMRI-nf training to increase the amygdala response to positive memories may serve as a stand-alone intervention for major depressive disorder
The purpose of this study is to learn more about improving the quality of treatments for people who have chronic low back pain. Participants will complete interviews with Duke researchers at four different time points: the beginning of the study, at 3 months, at 6 months, and at 9 months. Participants will be asked to use a mobile app and a headset that are designed to train the brain to be more relaxed. Participants will use the mobile app for 10 minutes at a time, four times a week for three months. The study team will also check in with participants about app use six times throughout the study, via phone or video conference.
The goal of this clinical study is to test the effectiveness of a supplemental fMRI neurofeedback and/or TMS intervention in individuals seeking treatment for Alcohol Use Disorder. After an initial visit, participants will come in once a week for four (4) weeks for an intervention session, which may or may not include TMS and MRI. Participants will be contacted for monthly follow-ups (remotely) for up to 12 months and will be asked to come in for two MRI follow-ups at 6 and 12 months.
Neurofeedback intervention aimed to regulate the superior temporal gyrus (STG) activation and default mode network (DMN) connectivity as well as to reduce the auditory hallucinations (AH) schizophrenia patients with medication resistant AH.
The purpose of this study is to assess the feasibility and efficacy of real-time fMRI neurofeedback for rumination.
The purpose of this study is to develop and test the feasibility of a commercially-ready mobile neurofeedback app for individuals with chronic pain. Thirty (30) participants who are prescribed opioids for chronic pain will use the new mobile neurofeedback app and an EEG headset for 10 minutes at a time, 4 times a week for 12 weeks and provide feedback about using the app.
Mild cognitive impairment (MCI) has been identified as an early phase of Alzheimer's disease (AD), a neurodegenerative disorder expected to affect 13.9 million Americans by 2060. AD causes a progressive cognitive decline, including problems related to learning and memory, that adversely affects life quality. Treatment intervention at the MCI stage of the disease could potentially slow down the rate at which people may convert from MCI to AD. Increasing evidence suggests that abnormal activity in frontal regions of the brain is associated with cognitive deficits observed in AD. Furthermore, previous research has shown that neurofeedback (NFB) training targeting these regions can improve memory, making it a potential treatment for AD. NFB is a technique where an individual learns to change his/her brain function in a particular direction, once that function has been made accessible through a visual or auditory metaphor. We are proposing a novel, computer-based brain-training program to enhance frontal gamma oscillatory activity in individuals with MCI. Results from this study will build the scientific foundation necessary for larger clinical trials dedicated to improving treatment options and outcomes for patients with MCI.
Military deployment is associated with increased risk of mild cognitive impairment (MCI). Combat stress related memory deficits has been well documented. Mild cognitive impairment such as memory deficits are the most common and earliest symptoms of Alzheimer's disease and related dementia (ADRD). The complaints about declined memory are common in healthy and cognitively intact civilian older adults, but less understood in aging Veterans. Brain training strategies to enhance cognitive skills and especially memory processes are unmet needs in aging Veterans who are at additional risk for MCI induced by ADRD. Since currently there is no effective drug treatment to stop cognitive decline, non-invasive brain training to boost memory functions in older Veterans is an increasingly attractive option to attenuating decline in memory.
This study will evaluate neurofeedback (NFB) training as a low risk, non-invasive, effective treatment for Veterans diagnosed with mild traumatic brain injury (mTBI) and experiencing chronic post-concussive symptoms (PCSs). It is being funded by the Department of Veterans Affairs. Doing this study will help to determine if NFB will reduce chronic headaches and enhance sleep, attention and quality of life in Veterans with mTBI. NFB is like other biofeedback processes in which information about a person's specific body functioning is made known to the person through a special computer program, which can help that person make the specific body function work better through training. This type of training is usually fun and easy with the help of a coach and a computer. Nothing is ever put into a person's body with biofeedback and it is natural and safe. When a person becomes focused, calm and alert while training on an NFB system, the computer will recognize this and let the trainee know by automatically displaying on the computer screen the positive progression of the game they are playing, such as the plane moving forward or a flower opening. The brain really likes to be in this pattern and when it is happening, people feel good. As a result, any discomforts, like headaches or insomnia, experienced may decrease. After learning about the study, Veterans who agree to participate will be randomly placed into one of two groups, either an intervention group (who will receive NFB) or a control group (who will receive only usual care plus once a week 15-minute calls on health topics). Veterans will have an equal chance of being in either group. Those placed in the control, will also receive NFB after completion of the control group activities. Veterans who are placed in the intervention or delayed intervention group will receive NFB up to 5 times a week, but usually 3 times a week for a total of 20 sessions. Each session is an hour long. Both the intervention and control group will participate in four assessment sessions (lasting up to 2 1/2 hours each) that involve completing 12 questionnaires and a 20-minute attention evaluation. The assessment sessions will occur at the beginning of the study, at 4-6 weeks, at 8-10 weeks, and 2-months later. The participant will receive financial compensation for taking the baseline assessment, 4-6 week, 8-10-week assessments, and for the 2-month follow-up assessment. A participant will receive financial compensation for gas, time and valet parking for each intervention and assessment session. Participation in this research will last about 4 months for those in the intervention and 8 months for those in the delayed intervention group. All participants will receive the NFB treatment by the end of the study. A person who participates in this study may experience a reduction in his or her chronic headaches, and an enhancement of sleep, attention and quality of life. There may be a worsening of symptoms until the individualized training plan for a person can be identified. During an NFB session, brief moments, lasting only seconds or minutes, of dizziness while sitting, muscle tension, or tingling may be experienced. Most people feel relaxed and calm during and after NFB training. This project will be an important step towards a broader implementation of an evidence-based treatment solution for Veterans experiencing chronic headaches, insomnia and attention disorders. The experience of these chronic symptoms can lead to debilitation in all areas of Veterans' lives. This project will provide evidence for the use of NFB with Veterans to alleviate their chronic symptoms and enhance their quality of life. If supported, NFB will offer the investigators' Veterans an effective and non-invasive treatment option. NFB is a patient focused intervention that enables Veterans the opportunity for self-health management.
The proposed study is to test and validate a novel intervention that integrates computerized cognitive training with real-time neuromonitoring and neurofeedback to enhance working memory by probing the individualized neural systems underlying working memory. We will test the proposed intervention on children with ADHD with working memory deficits. The R61 proof-of-concept phase will assess the target engagement, effective dose and feasibility.
The primary purpose of this study is to investigate the efficacy of neurofeedback (NF) of real-time functional magnetic resonance imaging (rt-fMRI) data of the amygdala with regards to the reduction of post-traumatic stress disorder (PTSD) symptoms. A secondary purpose of this study is to use fMRI as a method of investigating brain function in individuals with PTSD. This study approach provides a tool for probing the neurobiology of PTSD by (1) testing the critical role of the amygdala in this disorder, and by (2) examining how amygdala connectivity is related to both amygdala regulation and clinical symptoms.
Auditory hallucinations in schizophrenia are one of the major symptoms of this disease and a major source of psychological discomfort. They are often difficult or impossible to treat with existing methods. This study will test the use of real-time fMRI neurofeedback to mitigate auditory verbal hallucinations in patients whose hallucinations are resistant to medication. Half of the patients will receive real time fMRI neurofeedback from a brain region involved in auditory hallucinations and half will receive it from motor cortex.
The purpose of this study is to determine the clinical efficacy of real-time functional magnetic resonance imaging neurofeedback (rtfMRI-nf) training to increase the amygdala's response to positive autobiographical memories in patients with depression who are considered treatment-resistant
This project aims: * to further explore the effectiveness of a novel sonified Neurofeedback management therapy for children diagnosed with Autism Spectrum Disorder (ASD) * to determine if balance control is different before and after therapy
The purpose of this study is to determine the clinical efficacy of augmenting cognitive-behavioral therapy with real-time functional magnetic resonance imaging neurofeedback (rtfMRI-nf) training to increase the amygdala's response to positive autobiographical memories.
The purpose of the current study is to develop a better understanding of the brain mechanisms involved in psychological treatments for posttraumatic stress disorder (PTSD). This project will build on past research using script-driven imagery in our lab by investigating brain activity in areas activated during exposure to trauma-related cues. This project will also develop new knowledge concerning volitional control of those areas. The ultimate goal of this study is a better understanding of whether volitional control of these brain areas will improve therapeutic outcomes. This process will first be piloted in a sample of healthy controls. This will allow investigators to refine the methodology prior to recruiting a sample with PTSD.
Additional treatments with long-term benefit for attention-deficit/hyperactivity disorder (ADHD) are needed; one of the more promising is neurofeedback (EEG biofeedback), which has several randomized controlled trials showing significant benefit, but which are inconclusive because they were not double-blinded; the benefit could have been nonspecific (placebo response). Because of neurofeedback's labor-intensive cost (1 treatment costing as much as a month's medication), It is important to know how much specific benefit it yields. This 2- site placebo-controlled double-blind randomized clinical trial is the first to test for a specific benefit of neurofeedback with adequate power, the first designed and implemented collaboratively by experts in neurofeedback, ADHD, and clinical trials, the first to rigorously monitor quality not only of treatment, but also of placebo and blinding, and the first to follow up for 2 years to examine enduring effect; the results, whether positive or negative, will provide evidence for clinical practice and public policy regarding ADHD.
This study will determine whether brain activity can be modified and improves performance on a task by showing participants live 'video feed' of their brains on advanced imaging technology. The study is particularly interested in brain regions that have been shown to be relevant for emotions, specifically the anterior insula and the medial prefrontal cortex. Advanced technology will map the brain using magnetic pulses with a real-time functional Magnetic Resonance Imaging (rt-fMRI) machine.
The purpose of this study is to determine whether upregulating the left amygdala during positive autobiographical memory recall via real time functional magnetic resonance imaging neurofeedback will lead to an improvement in clinician administered ratings of depressive symptoms. The investigators predict that patients with major depressive disorder receiving left amygdala neurofeedback will increase their amygdala response during positive autobiographical memory recall compared to those receiving control feedback from a region not involved in emotional processing and that this ability will be associated with clinically significant improvement.
The aim of this study is to train patients with tic disorders to control activity in a region of their brain that has been associated with the urge to tic. Patients will be given direct feedback regarding activity in this brain area while they are undergoing functional magnetic resonance imaging (fMRI) scanning, and will try to learn to control activity in the region during these feedback sessions. In separate sessions, patients will be given sham feedback based on the brain patterns of a prior subject rather than their own brain patterns. Our primary hypothesis is that the biofeedback training will reduce their tic symptoms more than the sham feedback.
The goal of this study is to learn if using a non-invasive therapy called "neurofeedback training" can help teach patients ways to modify their own brain waves to decrease the perception of pain and improve quality of life.
Neurofeedback, a neuro-cognitive training method based on operant conditioning, will be employed with 90 children with the Autistic Spectrum Disorders (ASD) over a 60 session training period to improve the limiting behavioral and sensory symptoms Autism presents (with each collaborative site working with 45 of the 90 participants). This study seeks to demonstrate that Neurofeedback training, a non-invasive approach based on Learning Theory, will mitigate presenting symptoms of Autism, and ultimately render the person with Autism significantly more able to interact with his/her environment successfully, independently function on a day-to-day basis, and improve overall mental health.
A number of studies suggest that training to increase different types of brain waves is related to pain relief. The purpose of the second phase of this study is to see if neurofeedback training might help people with chronic pain control their pain better. The information from the study may help the investigators treat chronic pain better in the future.
Neurofeedback is increasingly advocated for treatment of ADHD despite a thin evidence base. The numerous open and partially controlled studies suffer serious design flaws. In particular, there is no published double-blind randomized clinical trial (RCT), which would control for experimenter and participant biases. The primary aim of this R34 pilot study is to conduct a small-scale pilot with 39 8-12 year-olds with ADHD to prepare for such a larger RCT.