Tinnitus
Conditions
Keywords
Tinnitus, EEG neurofeedback, fMRI neurofeedback, Cognitive behavioral therapy
Brief summary
The present project involves research on humans with the aim to characterize the reduction of chronic, continuous, non-pulsatile and debilitating tinnitus in humans by comparing neurofeedback (fMRI or EEG) to the current gold standard behavioral cognitive therapy.
Detailed description
Chronic tinnitus is affecting 10-15% of people typically for many decades, with increasing prevalence with aging. Multiple therapy forms for tinnitus exist (including cognitive behavioral therapy, external white noise stimulation, meditation, and various kinds of alternative approaches), but up to now, no generally accepted successful treatment exists. Previously, it was shown that voluntary control of the activation of the auditory cortex can be learned by means of real-time functional Magnetic Resonance Imaging (fMRI) neurofeedback, and that it may alleviate tinnitus symptoms. The same seems to hold for learned increase of alpha activity localized in the auditory cortex through electroencephalography (EEG) neurofeedback. Given the high prevalence of chronic tinnitus, its significant burden for affected individuals, and given the absence of generally effective therapy, neurofeedback training for tinnitus has the potential to become a clinical application. The main goal of this project is to comparatively assess tinnitus reduction using neurofeedback (fMRI or EEG) compared to cognitive behavioral therapy in participants with chronic severe tinnitus. * The participants are assigned to 3 different experimental groups (EEG neurofeedback, fMRI neurofeedback, or cognitive behavioral therapy). The participation per subject will last from 4 to 12 months. * The participants undergo medical tests including audiological tests as well as questionnaires related to tinnitus and quality of life at different timepoints of the study (pre and post training visits). * At the end of the experimental visits, each participant will have one early and one late post-assessment evaluation visits. * In order to evaluate the longer-term evolution of tinnitus over time, long-term follow-ups will be scheduled starting at 9 months after the final experimental visit, and will occur every 4.5 months thereafter, until research ends (for a maximum of 5 years).
Interventions
OTHERfMRI Neurofeedback
15 intervention sessions on a 3T MRI scanner.
OTHEREEG Neurofeedback
15 intervention sessions with a standard EEG-cap with 64 active electrodes.
BEHAVIORALCognitive Behavioral Therapy
10 intervention sessions of CBT group therapy, as per local university hospital standard of care.
Sponsors
Ecole Polytechnique Fédérale de Lausanne
Wyss Center for Bio and Neuroengineering
Study design
Allocation
RANDOMIZED
Intervention model
PARALLEL
Primary purpose
TREATMENT
Masking
NONE
Intervention model description
Prospective research with 3 independent research arms.
Eligibility
Sex/Gender
ALL
Age
18 Years to 80 Years
Healthy volunteers
No
Inclusion criteria
1. Age between 18 to 80 years 2. Tinnitus Handicap Inventory ≥ 48 3. Chronic, persistent, non-pulsatile tinnitus for minimum 6 months 4. Functional hearing 5. Normal inner ear structure assessment using an ear microscope, normal tympanic membrane mobility 6. Participant willing, able and available to participate in the entire research, including completion of questionnaires and traveling to research sites for the duration of the trial
Exclusion criteria
1. Contraindication to MRI (e.g. non compatible cochlear implant, pacemaker, deep brain stimulation) 2. Conductive hearing loss exceeding 20 dB at two or more frequencies 3. Known diagnoses causing tinnitus or hearing loss: * Known systemic disease (vestibular schwannoma, endolymphatic hydrops) * Lesion in central nervous system, including history of severe cranio-cerebral trauma * Acute ear canal or middle ear inflammation or effusion 4. Significant neurologic disease, psychiatric disease, substance abuse or acute allergic disease 5. Ongoing medication that is known to treat, influence, or cause tinnitus (e.g. high-dose aspirin, quinidine, aminoglycosides) 6. Ongoing or recent (completed since less than 4 weeks) tinnitus therapy (e.g. tinnitus maskers, acupuncture) 7. Participation in competitive or pharmacological study 8. Pregnant woman
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| Behavioral improvement of tinnitus as measured by the Tinnitus Handicap Inventory (THI) | 8 months | To show that behavioral improvement of tinnitus after intensive neurofeedback training is equivalent or better than improvement obtained after attending group cognitive behavioral therapy, as measured by Tinnitus Handicap Inventory (THI) scores reported before experiment and at late post-assessment (significant difference, p-value \< 0.05). THI ranges from low scores (grade 1 - slight or no handicap), to highest scores (grade 5 - catastrophic handicap). |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| Audiological measures | 8 months | If reported tinnitus scores correlate with audiological measures during research for each experimental group; |
| Other factors | 8 months | If there are external parameters influencing reported tinnitus levels for each group during the research, based on participant questionnaires (i.e., placebo effect of the trainer/CBT professional provider, motivation levels); |
| Training effect | 8 months | If significant behavioral change as shown by a THI grade reduction is observed before/after experiment in each group; |
| Correlation with alpha activity | 8 months | Specifically for group 2 - EEG neurofeedback, whether evolution of audiological and tinnitus measures at different research timepoints correlate with alpha activity of the auditory cortex; |
| Acceptance of intensive schedule | 8 months | Specifically for group 1 and 2, acceptance of neurofeedback intensive schedule of visits by participants. |
| Correlation with BOLD signal | 8 months | Specifically for group 1 - fMRI neurofeedback, whether evolution of audiological and tinnitus measures at different research timepoints correlate with BOLD signal of the auditory cortex; |
Countries
Switzerland
Outcome results
None listed