View clinical trials related to Tinnitus.
Filter by:The objectives of the study will be 1) to develop and show the feasibility of an internet-based Reiki therapy as an intervention for tinnitus, 2) to deliver Reiki therapy for tinnitus as a potential treatment, 3) to maintain a meaningful cohort of participants over a 6-month protocol, and 4) to collect pilot data on the potential benefit of internet-based Reiki therapy on tinnitus-related quality of life. Patients will also be provided with information on other potential tinnitus therapies.
Pilot study evaluating the feasibility of recruitment, retention, and compliance to a modified Heidelberg Model of Neuro-Music Therapy (mHNMT) in patients with Cisplatin-induced Tinnitus and relapsed Germ Cell Cancer (rGCC).
The investigators aim to study whether surgical resurfacing of the sigmoid sinus and jugular bulb will result in elimination of venous pulsatile tinnitus.
The purpose of this project is to validate a quick, easy-to-use and administer smartphone hearing-in-noise test. The Hearing-in-Noise Test (HINT) measures an individual's ability to hear speech in quiet and in noise. HINTs are traditionally done testing both ears together as binaural hearing ability is key in noisy settings and everyday, functional hearing. The app (called HearMe) can potentially be used to easily and quickly collect hearing-in-noise and speech-in-noise measurements. The smartphone app developed is a hearing-in-noise test that presents the subject with a series of stimuli consisting of a spoken three-digit sequence presented at a varying hearing-to-noise ratio. For each stimulus presentation, the user tap the three-digit sequence. The duration of the app is less than 3 minutes. For this project the investigators will test at least 50 subjects with hearing loss and 50 control subjects between the ages of 18-80. The subjects will be invited to take the app. The approach for this pilot study is to characterize hearing-in-noise thresholds (also referred to as a speech-reception threshold) as measured by the app in both subject groups, and relate it to the phenotype of each group as a preliminary evaluation of the app as well as a preliminary validation against their routinely collected measurements of hearing function (pure-tone audiometry thresholds). The study will assess the validity of the test construct in measuring hearing-in-noise thresholds, and serve as a foundation for further iterative designs of the app and future validation and characterization studies. This study seeks to validate a developed smartphone HINT on an initial cohort of patients and controls. It is anticipated that patients with hearing loss will display higher signal-to-noise ratio thresholds (as measured by the iPhone app) compared to controls.
The purpose of this study is to investigate whether it is possible to accelerate learning and improve memory performance in VNS implanted tinnitus participants by pairing VNS with a verbal paired-associate learning task.
This study investigates the effect of cervical physical therapy on tinnitus annoyance in patients with somatic tinnitus. This study specifically enrolls patients with co-varying tinnitus and neck complaints, with low-pitched tinnitus or patients who's tinnitus can be influenced by neck movements or positions. These inclusion criteria were chosen, since a prior study showed that these factors were good prognostic indicators for a positive treatment effect.
Characterizing the nature and severity of tinnitus in individuals presents a particular challenge. The nature of the sound (loudness and pitch) is not necessarily indicative of the effect on quality of life. Different methods are used to measure each parameter. Loudness is measured using a technique called "minimum masking," in which the subject is presented with a broadband white noise and asked to adjust the loudness level until they can no longer hear their tinnitus. Severity of tinnitus is commonly characterized using two questionnaires: the Tinnitus Handicap Inventory (THI) and the Tinnitus Functional Index (TFI). These questionnaires assess the perceived severity of the tinnitus and the effect on everyday activities and quality of life. A visual analog scale (a scale from 0-10) is used as a general subjective measurement of tinnitus severity. In the first part of this study, we will measure each of these parameters over a series of sessions to establish a baseline variability for each individual. The second part will look at the influence of context-specific visual information on auditory perception. This involves watching silent videos of a person speaking, with and without an additional tone designed to match the subject's tinnitus. The effect of this audiovisual feedback on the subject's perception of tinnitus will be assessed using a subjective rating scale and the minimum masking task.
The purpose of the study is to investigate different stimulation parameters for a new noninvasive approach for modulating the brain that could potentially be beneficial for decreasing tinnitus perception. The new approach is called Multimodal Synchronization Therapy (mSync). mSync uses a combination of acoustic stimulation played through headphones and low levels of electrical current delivered via electrodes placed on the surface of different body regions. The timing interval between the acoustic and body stimulation is varied in order to cause different types of changes in the brain. In addition to acoustic and body stimulation, noninvasive cortical stimulation will also be presented as part of mSync to attempt to further modulate or decrease the tinnitus percept. Cortical stimulation will be performed by placing a magnetic coil over a spot on the head and sending a brief magnetic pulse that can travel through the skin and bone to create electrical current inside the head. For this study, different body locations as well as specific timing intervals among acoustic, body, and cortical stimulation will be investigated to identify appropriate parameters that can modulate and potentially decrease tinnitus perception. Different mSync parameters will be investigated across multiple testing sessions (up to 16 weekly sessions) and the tinnitus percept will be closely monitored throughout the study.
The study is a double-blind study designed to evaluate the efficacy of deep transcranial magnetic stimulation (deep TMS) of the left auditory cortex using the HMCIPCC coil, in the treatment of patients with tinnitus
The hypothesis of the study is that the use of Cannabis will attenuate the tinnitus level as experienced by the patients.