Deep Brain Stimulation for Tinnitus

Status Active, not recruiting

Clinical Trial Summary

Tinnitus is the perception of a sound in the absence of an audible source. Currently up to 15% of the general population suffers chronically from tinnitus. The most severe degree of tinnitus ís experienced by 2.4% of the population and is associated with insomnia, depression; anxiety and even suicide. Up to date there is no effective standard therapy. Current therapies mostly focus on treating the distress caused by tinnitus instead of reducing the actual phantom sound. Nevertheless, many patients do not benefit from the current approaches and become severe and chronic tinnitus sufferers. In these patients neuromodulation-based treatments can be a promising option. Tinnitus perception is associated with many complex changes in several different brain structures. The general accepted hypothesis is that neuronal changes occur in both auditory and non-auditory brain structures, most often as a compensating mechanism on reduced input from the auditory nerve caused by cochlear hair cell damage. These central neuronal changes include an increase in spontaneous firing rate, synchronized activity, bursting activity and tonotopic reorganization. In high-frequency deep brain stimulation (DBS) a reversible lesion-like effect is mimicked. From findings in Parkinson's disease patients who also had tinnitus and were treated with DBS, it is known that stimulation can alter or even completely diminish perception of tinnitus. It can be expected that modulation of specific structures within the complex tinnitus pathways can disrupt pathological neuronal activity and thereby alter tinnitus perception or distress caused by this phantom sensation. The investigators found in animal studies that DBS in the central auditory pathway can indeed significantly decrease tinnitus-like behavior. In a questionnaire study the investigators found that around one-fifth of the patients would be reasonably willing to accept invasive treatments and one-fifth would be fully willing to undergo invasive treatment like DBS. Based on preclinical studies and human case studies, the investigators expect that DBS of the central auditory pathway will inhibit tinnitus perception and distress caused by this phantom sensation. Based on studies performed within Maastricht University Medical Center (MUMC), the investigators selected the medial geniculate body of the thalamus (MGB) as the most potential target to treat tinnitus with DBS.

Clinical Trial Description

n/a

Study Design

Related Conditions & MeSH terms

Tinnitus

Clinical Trial Details

NCT number	NCT03976908
Study type	Interventional
Source	Maastricht University Medical Center
Contact
Status	Active, not recruiting
Phase	N/A
Start date	January 6, 2021
Completion date	January 31, 2025

View Details

See also
Status	Clinical Trial	Phase
Recruiting	`NCT05963542` - Efficacy of Online Acceptance and Commitment Therapy and Sound Therapy for Patients With Tinnitus and Insomnia	N/A
Recruiting	`NCT04987502` - Virtual Reality and Subjective Tinnitus	N/A
Recruiting	`NCT04404439` - Treatment of Tinnitus With Migraine Medications	Phase 4
Recruiting	`NCT05533840` - Establishment and Application of a New Imaging System for Otology Based on Ultra-high Resolution CT
Completed	`NCT03552302` - Effects of Yoga Exercise on Participates With Tinnitus
Enrolling by invitation	`NCT02617953` - Objective Diagnosis Method and Efficacy of Repetitive Transcranial Magnetic Stimulation as a Treatment for Tinnitus	N/A
Completed	`NCT02269839` - A Feasibility Study Assessing the Effectiveness of rTMS in Tinnitus	N/A
Completed	`NCT02974543` - Somatosensory Stimulation to Alleviate Tinnitus	N/A
Withdrawn	`NCT01663467` - Efficacy of Internet and Smartphone Application-delivered Tinnitus Retraining Therapy	N/A
Completed	`NCT01929837` - Tinnitus rTMS 2013	N/A
Completed	`NCT01927991` - Internet-based Self-help for Tinnitus: The Role of Support	N/A
Completed	`NCT01857661` - The Influence of the Sound Generator Combined With Conventional Amplification for Tinnitus Control: Blind Randomized Clinical Trial	N/A
Terminated	`NCT01412918` - Inhibitor Masking Device & Sodium Channel, Voltage Gated, Type IX Alpha Subunit (SCN9) Gene Expression	N/A
Completed	`NCT01480193` - New Therapy for Patients With Severe Tinnitus	N/A
Completed	`NCT00371436` - Progressive Intervention Program for Tinnitus Management	N/A
Completed	`NCT00748475` - Countering Stimulus-Induced Alpha-Desynchronization to Treat Tinnitus	N/A
Completed	`NCT00733044` - Cost-effectiveness of Multidisciplinary Management of Tinnitus	N/A
Active, not recruiting	`NCT05518682` - Assessment of Bimodal Stimulation Device Compliance and Satisfaction in Individuals With Tinnitus	N/A
Recruiting	`NCT05212298` - Effects of Herbal Sleep Formula on Patients With Insomnia and Tinnitus	N/A
Completed	`NCT06025097` - Intra-Tympanic Steroid With PRP Combination in Sensorineural Hearing Loss and Tinnitus.	Early Phase 1

Clinical trials are conducted in a series of steps, called phases - each phase is designed to answer a separate research question.

Phase 1: Researchers test a new drug or treatment in a small group of people for the first time to evaluate its safety, determine a safe dosage range, and identify side effects.
Phase 2: The drug or treatment is given to a larger group of people to see if it is effective and to further evaluate its safety.
Phase 3: The drug or treatment is given to large groups of people to confirm its effectiveness, monitor side effects, compare it to commonly used treatments, and collect information that will allow the drug or treatment to be used safely.
Phase 4: Studies are done after the drug or treatment has been marketed to gather information on the drug's effect in various populations and any side effects associated with long-term use.