View clinical trials related to Tinnitus.
Filter by:The research objective of the proposed usability study is to assess the compliance and acceptance/satisfaction of using a bimodal stimulation device with the ability to self-adjust the sound stimulus presented to the ears via headphones. In particular, the CE marked bimodal stimulation portable device, Lenire, which is developed by Neuromod Devices Limited (Dublin, Ireland) to alleviate the symptoms of chronic subjective tinnitus, is currently configured according to a tinnitus person's audiogram (i.e., hearing threshold profile for different sound frequencies) during fitting in a hearing center. Lenire device is a non-invasive stimulation device that consists of a controller that connects to headphones for sound delivery to the ears and connects to a mouth component that provides gentle electrical stimulation to the tongue surface. Individuals are recommended to use the device for 60 minutes daily (two 30-minute sessions consecutively or at different times of the day) for at least 10 weeks. Lenire is already commercialized across Europe and available by audiologists or hearing technicians in numerous hearing centers for treating tinnitus. It has also been evaluated in two large-scale clinical trials in over 500 tinnitus participants, demonstrating tinnitus benefit and minimal risk with high compliance and satisfaction rates. The primary objective of the proposed usability study is to first assess compliance and satisfaction with the Lenire device that does not require an audiogram for fitting and that can be implemented mostly through virtual visits (except for the first visit). These modifications to the Lenire fitting process will reduce the time and personnel effort required for its implementation, enabling a broader patient population to access bimodal stimulation for tinnitus treatment, including military personnel and those who are not nearby hearing centers for in-person sessions. High compliance and satisfaction rates from this small proof-of concept usability study will then justify and guide a larger clinical study to assess efficacy and performance of this newly implemented Lenire device process.
This study will improve the understanding of the cerebral mechanisms that underlie the control of auditory selective attention and evaluate the potential of neuromodulation to enhance neural attention control as a possible way to overcome hearing impairment. First, electroencephalography (EEG) will be applied to identify neural marker of auditory attention in individuals with hearing loss (HL), tinnitus (TI) and normal hearing (NH). Afterwards, the importance of the identified markers for attention control will be tested using non-invasive transcranial alternating current stimulation (tACS) and neurofeedback (NF).
Post-acute COVID-19 tinnitus has not been treated successfully. As tinnitus may be related to SARS-CoV-2 neurological manifestations. This study aims to investigate if the dopamine receptor antagonists can be used effectively treat COVID-19 induced tinnitus.
The proposed research is a non-interventional study made to evaluate different measurements on 1 group of participants, before and after taking a nap, aiming to potentially guide future investigations on nap-modulated tinnitus to better understand this phenomenon. The main hypothesis is that sleep apneas could be correlated with an increase of tinnitus intensity.
Abnormal activity in the central auditory system is the cause of subjective experience of tinnitus. Electrical stimulation can inhibit the abnormal activity of auditory related neurons in patients with tinnitus. In recent years, the application of electrical stimulation in the treatment of tinnitus is a hot research topic, and has made some progress. However, its treatment is still in the discussion stage, and there is no best scheme suitable for clinical practice. At present, scholars have found that cochlear electrode stimulation can inhibit tinnitus, but its mechanism is not clear. It is difficult to locate the origin of tinnitus, and the location of electrode stimulation and stimulation parameters still need to be further optimized. Because the implanted part of the cochlear implant contains magnets, the patients cannot perform functional MRI. However, the prevalence of tinnitus in this group is very high (67.0~100.0%, with an average of 80.0%), so it is of great value and significance to study the effect of tinnitus treatment in such patients. In this study, a new clinical electroencephalogram (EEG) technique was used to make up for the lack of MRI imaging in patients with electrode implantation. EEG analyzes the functional connection of different brain regions through EEG test electrodes, uses the traceability function of EEG software to locate the location of tinnitus, analyzes the process of tinnitus inhibition by electrical stimulation, and explains the mechanism of tinnitus inhibition by electrical stimulation from a new perspective.
This study seeks to pilot an evaluation of whether an external jugular vein compression collar approved by the US Food and Drug Administration (FDA) for contact sports can provide symptomatic relief of venous pulsatile tinnitus. Furthermore, the study will evaluate quality of life impacts of the device and adherence by users.
The study was designed to evaluate a therapeutic effect of tDCS in the treatment of tinnitus and its comorbidities (anxiety, depresion) and to evaluate the associated quality of life. In the randomized, double-blinded, sham-controlled trial, 39 participants (active n=19, sham n=20) underwent bilateral dorsolateral prefrontal cortex (DLPFC) tDCS (anode over right DLPFC, cathode left DLPFC, current of 1.5 mA, 20 minutes, 6 sessions in 2 weeks). Tinnitus Functional Index (TFI), Iowa Tinnitus Handicap Questionnaire (ITHQ), Beck Anxiety Inventory (BAI), Zung Self-Rating Depression Scale (SDS), and WHO-Quality of Life-BREF were employed in 4 evaluation points, including the follow-ups of 6 weeks and six months.
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.
This clinical study is a prospective, multicenter, randomized, controlled, double-blind clinical study. Sun Yat Sen Memorial Hospital of Sun Yat sen University was the central unit, and Nanjing First Hospital, Sun Yat Sen people's Hospital, Guanfzhou Panyu central Hospital and Zhuhai integrated traditional Chinese and Western medicine hospital were the cooperative units. In this study, 388 patients with chronic subjective tinnitus were recruited. In view of chronic subjective tinnitus, a common ear disease, the study gave the patients three months of treatment with transcutaneous vagus nerve stimulation paired with tailor-made notched music therapy or tailor-made notched music training alone. By comparing the changes of subjective scale scores related to tinnitus before and after treatment in patients receiving two different therapies, such as THI, VAS, BAI, BDI, PSQI, to evaluate the efficacy of the two therapies, so as to judge whether transcutaneous vagus nerve stimulation paired with tailor-made notched music therapy is better than tailor-made notched music training alone. In addition, the study will continue to follow up the patients after the treatment for one year to observe the difference in the long-term sustained efficacy of the two therapies. This clinical study will also evaluate the two therapies from the perspective of compliance and safety, and explore the factors that affect the efficacy of the two therapies.
120 male and female patients aged between 18-65 years who apply to the outpatient clinic and diagnosed with TMD will be included in the study. Patients will be divided into 3 groups as Muscle Disorders (Group 1), Temporomandibular Joint Disorders (Group 2) and degenerative joint diseas (osteoarthrosis) (Group 3) according to DC/TMD axis I diagnostic criteria. maximum mouth opening, TMJ sound, pain levels, tinnitus, and dizziness are evaluated.