View clinical trials related to Tinnitus.
Filter by: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.
Tinnitus is the awareness of a sound in the ear or head without any outside source. It affects around 15% of people in the UK. About 20% of people with tinnitus experience symptoms that negatively affect their quality of life including sleep disturbances, difficulties with hearing and concentration, social isolation, anxiety, depression, irritation or stress. Most common clinical management strategies for tinnitus include education and advice combined with some form of sound therapy. The effects of these management options are, however, variable. Currently, the exact aetiology of tinnitus is unknown although maladaptive plasticity due to sensorineural hearing loss is thought to play a big role. Neuroimaging studies have pointed to over-activation or excessive spontaneous activity within the central auditory cortex. Furthermore, electrophysiological techniques have confirmed the frontal cortex's role in tinnitus through dysfunctional top-down modulation. Transcranial direct current stimulation (tDCS) is a neurostimulation technique in which weak currents (1-2 mA's) are delivered to the brain, thereby depolarising or hyperpolarising neurons within the desired region of cortex. tDCS is a non-invasive and easy to apply tool, delivered by applying two surface electrode to a patients head. It has previously been used as a treatment for depression, stroke rehabilitation, and cognitive enhancement. Some studies have indicated potential benefit of tDCS in tinnitus patients, but this has not yet been investigated within the UK. Neuromodulation therapies should deliver a permanent reduction in tinnitus percept by driving the neuroplastic changes necessary to interrupt abnormal levels of oscillatory cortical activity and restore typical levels of activity. This change in activity should alter or interrupt the tinnitus percept (reduce or extinguish) and this should be concomitant with a change in the level of self-reported tinnitus handicap. The currently ongoing Cochrane review of neuromodulation (desynchronisation) for tinnitus in adults found mixed evidence for the electrical stimulation therapies for tinnitus, including tDCS. However, the review also found that the most recent tDCS trials that have used greater numbers of treatment sessions found significant reductions in tinnitus symptom severity, anxiety, and depression. Authors concluded that these findings warrant further trials of tDCS. Research studies using electroencephalography (EEG) or magnetoencephalography (MEG) suggested changes in oscillatory activity in different frequency bands that might be associated with tinnitus, however a consistent picture has not yet emerged. Reduction of this abnormal activity might signify a reduction in the level or perceived severity of TI and could potentially be used as a valuable indicator of the course of TI treatment. In this project specific changes in brain activity that happen during a new treatment approach for tinnitus - transcranial Direct Current Stimulation (tDCS)- will be investigated. This will help to determine how the treatment might work, whether specific brain activity may be a meaningful biological indicator or objective measure of tinnitus, and provide a reliable measure of treatment-related change; this has not yet been achieved in tinnitus research but is crucial.
Scuba Diving has become a popular hobby, for a leisure activity, diving puts the auditory system at the risk of a wide variety of complaints including tinnitus, Low level laser therapy is a new modality in treatment of tinnitus. This study evaluates effect of laser therapy on tinnitus of Scuba divers in Red Sea.
A European cross-sectional study was conducted with the aims of: i) examining inter-country differences in prevalence of tinnitus by comparing prevalence estimates in countries with relatively low versus high gross domestic product (GDP) per capita and comparing prevalence estimates in countries within different European regions (i.e., Northern, Southern, Eastern and Western Europe); ii) understanding the effect of sex, age, socio-economic variables, body mass index (BMI), and marital status on overall prevalence of tinnitus; iii) assessing the effect of hearing difficulty on tinnitus prevalence; and iv) exploring the effect of tinnitus severity on use of healthcare resource for tinnitus Overall, approximately 12,000 individuals aged 18 years or over are enrolled in 12 different European countries (BG, DE, ES, FR, GR, IE, IT, LV, PL, PT, RO, UK). Survey sample from each country were representative of the country-specific population in terms of sex, age, and socio-economic characteristics.
Tinnitus, the perception of sound in the absence of an external acoustic stimulus. Tinnitus is often perceived inside the head rather than the ear and is a common condition with a prevalence estimated between 10 and 15% in adults. Between 1 and 3% of this population are having a significant impact on their quality of life. Despite its high prevalence, the underlying mechanisms of tinnitus still remain unclear. The majority of tinnitus cases associated with some degree of hearing loss, making hearing loss the biggest risk factor for tinnitus. Recently, it has been suggested that hearing deficits, such as speech-in-noise difficulty, can exist in the absence of any overt hearing loss within the audiometric range (0.125-8 kHz). This is referred to as "hidden hearing loss" and has been suggested to be associated with hearing loss at above-audiometric (> 8 kHz) frequencies. This project is aimed at studying the underlying mechanisms of tinnitus and the possible relation with overt or hidden hearing loss. Specifically, the investigators want to test the hypothesis that tinnitus is caused by maladaptive plasticity arising as a result of auditory input deprivation. This idea is supported by the finding that tinnitus may disappear when the hearing, and thus auditory input, recover. Disruptions at lower levels of the auditory pathway could lead to alterations in synaptic transmission and neurotransmitter release in more central regions of the auditory system (e.g., in the auditory cortex). This may create an imbalance between neuronal excitation and inhibition, and re-routing of auditory pathways, leading to abnormal neural excitability and connectivity. In this study, the investigators question whether auditory cortex disinhibition is specifically related to tinnitus, or is a consequence of hearing loss. To answer this question, the investigators propose to conduct a study that aims to investigate the inhibition mechanism by quantifying GABA concentration level, neural activity and functional connectivity strength of auditory cortex using non-invasive imaging techniques, namely Magnetic Resonance Spectroscopy (MRS) and functional Magnetic Resonance Imaging (fMRI). The investigators expected to possibly provide a tinnitus biomarker, and this may help to direct future treatments.
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.
The primary aim of this study is to investigate the effectiveness of cervical spine kinesiotherapy and massage in tinnitus treatment. Furthermore, we investigate if there is a link between cervical spine range of motion and cervical muscles tension and tinnitus.
The study includes a 12-week treatment trial for chronic tinnitus patients using 4 different types of interventions (hearing aids, sound therapy, structured counseling, cognitive behavioral therapy) either as a single treatment or a combination of two treatments. There are several aims of the study: compare 1) single vs. combined treatments, 2) single treatments vs. other treatments, 3) ear and brain based interventions, 4) analyzing data of the clinical trial in combination with other recorded data (genetic and proteomic data, audiology data) to develop in silico models of tinnitus and a decision support system with the aim to aid in treatment decisions. This randomized controlled trial is harmonized over five clinical centers in Europe with the aim to include 100 patients per center and is part of the UNITI-project (UNification of treatments and Interventions for TInnitus patients) funded by the European Union's Horizon 2020 programme (grant agreement number 848261).
To determine the effectiveness of adding a physical therapy exercise program to low-level laser therapy on the treatment of chronic tinnitus treatment
Transcranial Direct Current Stimulation (tDCS) aims to induce cortical plasticity by modulating the activity of brain structures. The broad stimulation pattern, which is one of the main limitations of tDCS, can be overcome with the recently developed technique called High-Definition tDCS (HD-TDCS). The objective of the current study is to investigate the effect of HD-tDCS on tinnitus in a large patient cohort.