11 Clinical Trials for Tinnitus
The goal of this remote interventional clinical study is to investigate the use of mild therapeutic hypothermia devices for the symptomatic relief of chronic tinnitus. The main aims of the study are: 1. Ascertain the effects of MTH in chronic tinnitus patients using questionnaires measuring tinnitus severity and intervention-related change. 2. Ascertain the comfort and acceptability of the hypothermia device and therapy. Participants with chronic tinnitus will wear the mild therapeutic hypothermia therapy devices for a single 30 minute session. Researchers will compare results from those receiving the therapy to those from a sham group (individuals receiving a sham therapy).
Tinnitus represents one of the most common and distressing otologic problems, and it causes various somatic and psychological disorders that interfere with the quality of life. Despite too many research projects on finding the mechanism of tinnitus, its pathophysiology remains poorly understood. It is well understood that many factors, such as poor education, lower income, or occupational, and recreational activity associated with high noise exposure, influence the prevalence and risk of tinnitus. Although the economic and emotional impact of tinnitus is large, there is currently no FDA-approved medication to treat this condition. However, there are pharmacological options to address the stress, anxiety, and depression that are caused by tinnitus. In this project, the investigators intend to use medications for patients with acute tinnitus to decrease the impact of tinnitus in their daily lives and activities. There are some studies on medications treating tinnitus; however, there are few randomized clinical trials to prove the efficacy of the treatment. The frequency and loudness of tinnitus will be measured before and after the course. Functional MRI of the brain will be obtained to view any changes that may occur before and after the treatment.
The goal of this survey is to assess several aspects related to patient preferences regarding interventions for alleviating tinnitus through invasive electrical brain stimulation (neuromodulation). This survey covers the acceptance of a surgically-placed brain implant, of its associated risks related to the neurosurgical procedure, usability considerations, and the willingness/ability to pay for such a treatment. Neurosoft Bioelectronics will use the collected patients' feedback and usability preferences data for the development of a novel minimally invasive brain implant aimed at alleviating tinnitus.
Research in clinical neuroscience is founded on the conviction that a better understanding of tinnitus related changes of brain function will improve our ability to diagnose and treat tinnitus. Although considerable advances have been made in understanding the mechanisms of tinnitus, the clinical management of tinnitus remains largely based on a 'trial and error' approach. The identification and validation of a biomarker for tinnitus is thought to be the crucial step in the development of a personalized approach to the diagnosis and treatment of tinnitus. The overarching goal of this study is to incorporate advanced technologies to provide an objective, data-driven, personalized approach to the diagnosis of chronic tinnitus. This should lead to a clinically applicable tool that can be widely and easily used.
Children with "bothersome" tinnitus and misophonia have elevated anxiety and depression symptoms. The mainstay therapy for adults and children with these disorders is cognitive behavioral therapy (CBT). CBT resources are expensive and scarce for the pediatric population. Immersive virtual reality (IVR) has been shown in the adult population to be a proxy for CBT for several mental health disorders. There is sufficient published evidence that IVR is useful in treating adults with anxiety and depression disorders. However, the evidence in children in treating either anxiety and depression symptoms or disorder is scant. Our group views IVR application as a promising medical device to decrease anxiety and depression scores in children with tinnitus and misophonia disorders. This is a randomized placebo control (single-blinded to the study subjects) study in which there will be a 2:1 ratio between the experimental and placebo subjects, receiving either active IVR or placebo exposure. A total of 30 subjects with 20 experimental (10 tinnitus, 10 misophonia subjects) and 10 placebo (5 tinnitus and 5 misophonia subjects) will enroll in this randomized clinical trial. Assessment of change of quality of life, anxiety and depression symptoms will be based on 5 validated instruments. The 5 validated instruments are: Tinnitus Functional Index (TFI), Amsterdam Misophonia Scale (A-MIS-S), Pediatric Quality of Life PEDQL), Screen for Child Anxiety Related Emotional Disorders (SCARED) and Short Mood and Feelings Questionnaire (SMFQ).
ACEMg (Soundbites) is a neuroprotectant dietary supplement designed to block the initiating biological events in the inner ear leading to sensorineural hearing loss, SNHL, which accounts for more than 90% of all hearing loss. SNHL is so common it is called hearing loss. There is no cure for SNHL. The 24-week OTIS Study aims to validate findings from the previous two-year real-world study demonstrating ACEMg (Soundbites) preserved or improved auditory function (hearing) for 75.3% of participants who used it daily, with most improvement occurring within six months. Additionally, the study aims to assess the potential of ACEMg to relieve tinnitus symptoms in people with tinnitus. SNHL and tinnitus are related, but tinnitus relief was not measured in the previous two-year study. The OTIS study aims to answer two questions. First, does the real-world data demonstrate that hearing loss is stabilized or improved at the end of the test among participants with sensorineural hearing loss (SNHL or inner ear hearing loss) at the beginning? Second, do participants who self-report tinnitus symptoms at the start of their test report reduced symptoms at the end? Participants must be eighteen years of age and older and self-report hearing loss and/or tinnitus. The study is conducted at home using a smartphone app and a web-based assessment and data reporting tool developed for this study. The study starts with a baseline hearing assessment. Participants with tinnitus complete a baseline tinnitus survey. Then, each participant takes ACEMg softgel capsules daily, repeating the hearing assessment and the tinnitus survey after about 12 and 24 weeks. Assessment scores at the beginning of the study will be compared with scores at the end. Participation in the study is free.
The purpose of this study is to learn more about a type of tinnitus (ringing in the ears) known as "somatosensory tinnitus." This type of tinnitus is suspected when the tinnitus perception changes following head and/or neck movements. This study is also exploring a possible way to treat somatosensory tinnitus.
Tinnitus represents one of the most common and distressing otologic problems, and it causes various somatic and psychological disorders that interfere with the quality of life. It is well-understood that many factors, such as poor education, lower income, or occupational, and recreational activity associated with high noise exposure, influences the prevalence and risk of tinnitus. Although the economic and emotional impact of tinnitus is large, there is currently no FDA-approved medication to treat this condition. However, there are pharmacological options to address the stress, anxiety, and depression that are caused by tinnitus. In this project, we intend to use medications for patients with tinnitus in order to decrease the impact of tinnitus on their daily life and activities.
This is an exploratory pilot open-label study to identify the signal changes on fMRI of patients with tinnitus and with temporary suppression of the tinnitus with IV lidocaine. Patients will include those with hearing loss (both unilateral and bilateral) and tinnitus, subjects with normal hearing and tinnitus, and control subjects with normal hearing and no tinnitus. Eligible subjects will have functional and subjective data collected at baseline, receive an IV lidocaine infusion, and have functional and subjective data collected post-infusion for comparison and identification of involved neural networks.
The purpose of this multi-site research study is to determine if Etanercept, compared to a placebo, significantly reduces the severity of tinnitus (ringing in the ears) associated with history of blast and/or noise exposure or associated with Traumatic Brain Injury (TBI) and/or concussion. Individuals who qualify will be randomized into one of two groups: The group receiving the medication Etanercept or the group receiving a saline solution placebo.
The Apple Hearing Study is a partnership between the University of Michigan and Apple to study sound exposure and its impact on hearing health. This groundbreaking study will advance the understanding of how hearing could be impacted over time by exposure to sound at certain levels. The investigators will measure headphone and environmental sound exposures over time among participants, and determine how these exposures impact hearing and stress levels. US residents who own an iPhone, download the Apple Research app and consent to participate will be randomly assigned to two groups, one with a "Basic" user interface in the Research app, and one with an "Advanced" user interface. Users in the "Advanced" group will receive additional information about their exposures and be given additional surveys and hearing tests based on their music and environmental sound exposures. The study will provide investigators with a better understanding of listening behavior and its overall impact on hearing health. This information will in turn help guide public health policy and prevention programs designed to protect and promote hearing health in the US and globally.