18 Clinical Trials for Various Conditions
The purpose of this study is to determine the efficacy of OTO-313 in subjects with unilateral tinnitus and to determine the safety and tolerability of OTO-313 in subjects with unilateral tinnitus.
This study will assess the effectiveness of highly bioavailable curcumin in suppressing subjective tinnitus based on pre- and post-treatment evaluations using the validated Tinnitus Functional Index (TFI) and Tinnitus Handicap Inventory (THI) surveys.
The purpose of this study is to evaluate the safety, tolerability, plasma pharmacokinetics (PK), and exploratory efficacy of OTO-313 administered as an intratympanic injection for the treatment of subjective tinnitus.
Tinnitus is the occurrence of an auditory sensation without the presence of an acoustic stimulus. Approximately, 50 million people in the United States experience chronic tinnitus and 15 million of these people have bothersome tinnitus. Several studies have shown that people who are bothered by their tinnitus have difficulty in concentration and focus. Through imaging modalities we have deranged neural networks responsible for attention. Only 20 percent of patients diagnosed with tinnitus are severely bothered. We seek the following: 1. Match a group of non-bothered tinnitus patients on age and hearing status to an existing cohort of bothered tinnitus patients. 2. Assess the resting-state neural connectivity in patients with non-bothersome tinnitus. Findings from the comparison of functional connectivity magnetic resonance imaging (fcMRI) from subjects with bothersome tinnitus in our current rTMS clinical trial to normal age-matched controls without tinnitus demonstrates that subjects with bothersome tinnitus have dramatic alterations in cortical attention and control networks. Our hypothesis is that the fcMRI-defined changes in the attention and control networks reflect the impact of excessive auditory stimulation in patients with bothersome tinnitus and explains the difficulty with concentration, short-term memory, and other common problems. To fully test this hypothesis we need to obtain fcMRI of the attention network among subjects with tinnitus but without bother and compare the status of their neural networks with those of tinnitus subjects with bother and with normal controls. 3. Compare the resting cortical networks in subjects with non-bothersome tinnitus to subjects with bothersome tinnitus and subjects without tinnitus Our null hypothesis is that there are no differences in the resting-state cortical networks, especially the attention and control networks, between tinnitus patients who do not experience bother, tinnitus patients who do experience bother, and subjects without tinnitus. Through fcMRI, we will examine correlations in blood oxygen level dependent (BOLD) signals in established auditory, attention, control, and other brain regions in the resting brain and compare these findings to already collected fcMRI scans of bothered tinnitus patients, and controls (patients without tinnitus).
The purpose of this study is to investigate the safety and efficacy of neramexane mesylate in the treatment of subjective tinnitus in comparison to placebo.
The purpose of this study is to investigate the long-term safety and tolerability and efficacy of neramexane mesylate in the long-term treatment of subjective tinnitus after a completed double-blind randomized placebo controlled study
The primary purpose of the Tinnitus Retraining Therapy Trial (TRTT) is to assess the efficacy of tinnitus retraining therapy (TRT) as a treatment for severe debilitating tinnitus. TRT is a non-medical intervention that uses directive counseling (DC) and sound therapy (ST)to habituate the patient's associated negative emotional reactions to tinnitus, its perception, and ultimately, its impact on the patient's life.
The goal of this trial to see if repetitive transcranial magnetic stimulation (rTMS) to the hearing area of the brain can lessen the perception of tinnitus. rTMS uses a strong magnet and when placed against the scalp generates a small electrical field within the brain. Depending on the frequency of the stimulation, this electrical field can either decrease or increase the electrical excitability of the brain. In this study, low-frequency stimulation will be used, which is thought to decrease nerve activity. It is this electrical excitability of the brain that is thought to be responsible for tinnitus. The hypothesis of this study is that rTMS can decrease the perception of tinnitus.
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.
The neurological basis of tinnitus is uncertain when there is no evidence of damage to the peripheral auditory system. However, neuroimaging studies of tinnitus patients show hyperactivity in several cortical regions, especially the auditory cortices and middle temporal regions. A potentially promising treatment modality for tinnitus is repetitive transcranial magnetic stimulation (rTMS). rTMS involves the application of frequent, repeated magnetic stimuli to the skull to induce electrical activity in the underlying cortical areas of the brain. When the magnetic device is placed on the skull, the resultant magnetic field passes through the skull and induces a small secondary current in the cortex. It has been hypothesized that the effect of the frequency used in rTMS differentially influences cortical activity with low-frequency (1Hz) stimulation decreasing and high-frequency stimulation (10-20 Hz) increasing cortical activity. Currently, reports on treating tinnitus with rTMS have focused on low-frequency stimulation of the left auditory cortex, an area that has been demonstrated to be hyperactive in tinnitus. The benefits of low-frequency auditory cortex stimulation are time limited however. Converging data implicate structures of the brain that are important for mood and attention as playing a role in the maintenance of tinnitus; suggesting an alternative rTMS treatment approach that targets these structures. A growing number of studies demonstrate involvement of the prefrontal cortex in the generation and maintenance of tinnitus. rTMS stimulation in the dorsolateral prefrontal cortex in association with stimulation in the temporoparietal cortex has been shown to increase the durability of the TPC stimulation. The independent effect of rTMS stimulation to the DLPFC is not known. Studies in depression suggest that increasing the intensity and duration of stimulation has beneficial treatment effects. However, the field is new and more work is needed to assess the effectiveness of this treatment, predictors and correlates of response, and safety. Herein, we propose an open-label pilot study investigating the effectiveness of rTMS stimulation of the dorsolateral prefrontal cortex, an area known to be important for mood and attention, in the treatment of tinnitus
The purpose of this research is to understand how a neurostimulation technique, transcranial electrical stimulation (tES), affects brain function in adults with chronic subjective tinnitus measured with functional magnetic resonance imaging (fMRI). This study targets a specific kind of tES called transcranial direct current stimulation (tDCS), where a mild, constant current is passed between electrodes placed on the scalp.
The goal of this study is to use non-invasive transcranial direct current stimulation (tDCS) combined with active listening therapy to treat tinnitus and hyperacusis and related conditions.
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.
The main goal of this study is to assess the effectiveness of the Resound Relief app in alleviating problems associated with tinnitus, using both behavioral assessment and brain imaging. Subjective tinnitus ("ringing in the ears") is the false perception of sound in the absence of an external stimulus. It often causes emotional distress and, in severe cases, interferes with daily activities and can lead to anxiety and depression. Sound therapy and relaxation techniques have been widely used as prominent interventions to ameliorate the adverse effects of tinnitus on overall health and psychological variables. The Resound Relief app combines the merit of these two kinds of therapy to allow the patients to alternate between therapies and manipulate them according to their specifics and needs. To assess the efficacy of the Resound Relief app in relieving tinnitus, the investigators will perform an interventional study in which tinnitus patients will use the app installed on their smart phones for six months. The effects of this intervention will be quantified via audiological and cognitive assessments, administering questionnaires and surveys, and MRI scanning sessions. Audiological and cognitive assessments, and MRI scanning will be conducted before and six months after the use of the Resound Relief app. Tinnitus-related questionnaires will be administered before, two, four, and six months after beginning use of the app. A short survey will be filled out every week regarding participants' experience with the app, tracking changes in the users' tinnitus, hearing loss and general emotional well-being.
The purpose of this research is to understand how a neuromodulation technique, transcranial electrical stimulation (tES), affects brain function in adults with chronic tinnitus measured with functional magnetic resonance imaging (fMRI). We hypothesize that multiple sessions of tES (5 consecutive days) will modulate: 1. Overall activity and local connectivity within brain regions near tES electrodes, and 2. Functional connectivity within brain networks associated with brain regions near tES electrodes. In exploratory analyses, we also measure the extent to which the hypothesized changes listed above a related to changes in tinnitus symptoms after tES.
The purpose of this mixed methods correlational study is to investigate the effects of meditation on the level of bother in tinnitus patients in the United States. The researchers seek to understand the changes in bother as compared to the amount of time spent meditating. Data is obtained through the Insight Timer mediation application. Outcome measures will include several validated and reliable measures.
The objective of this study is to examine the efficacy of tinnitus retraining therapy (TRT) as a treatment of chronic tinnitus in people with limited hearing loss. The study design is prospective, randomized, double-blind, with repeated measures. The null hypothesis states there will be no difference in subjective measures of tinnitus severity between subjects treated with standard TRT and subjects treated with sham TRT.
Tinnitus, commonly referred to as "ringing in the ears", affects 50 million people in the United States and is recognized as a major public health concern. Tinnitus is the most frequent cause of service-connected disability claims among war veterans. Tinnitus remains a subjectively diagnosed entity. There is no standardized objective method of diagnosing tinnitus or describing the functional impact of the condition. Currently, physicians have to rely on patient-based self reports. Without an objective method of diagnosing tinnitus and describing the functional implications, adequate treatment delivery is also hampered since there is no way to objectively stratify patients into severity groups and assess response to treatment. Because tinnitus is known to negatively affect cognition through the ventral attention networks and the prefrontal cortex, measuring cognitive processing speed is a possible way to objectively measure tinnitus. This study builds on previous work the investigators have done that utilized a quick, easily accessible measure of auditory processing speed. That earlier study showed a correlation between that measure and self reported measures of tinnitus severity, and this study attempts determine a more precise estimate of that correlation. It also better validates those results by including a traditional neurocognitive measuring cognitive speed and by controlling for the presence of depression and somatoform disorders.