View clinical trials related to Hearing Loss.
Filter by:The current study is a randomized multi-center clinical trial that investigates the role an intraoperative hearing monitoring system (electrocochleography) has on helping to save residual hearing in patients undergoing cochlear implantation (CI).
Pilot phase. Monocentric, non-controlled, non-randomized, open-label study evaluating the capacity of the functional near-infrared functional neuroimaging (fNIRS) technique to translate temporal cortical activity in response to a speech stimulus in normo-hearing and deaf children with cochlear implants. Hemodynamic changes are expected to be observed that indicate brain activity following the stimuli, resulting in a change in the concentration of oxygenated hemoglobin (HbO) and deoxygenated hemoglobin (HbR) recorded by the fNIRS. The use of the FNIRS in the evaluation of hearing aid effectiveness could contribute to a more adapted management of childhood hearing loss since conventional methods in young children are not adapted to the needs of children with hearing loss.
This project will address quality of care issues associated with hearing loss in adults who have mild-to-moderate hearing loss and who have no access to hearing healthcare. Through the use of three different interventions involving over-the-counter hearing aids, it will lead to options that will increase access and affordability of hearing healthcare for adults with mild-to-moderate hearing loss.
The current project proposes a multi-center prospective follow-up cohort study aiming to realize an international framework to classify human functioning and disability in Cochlear Implant (CI) recipients using a standardized ICF framework. For this, ICF qualifiers which denote the magnitude of the level of health or severity of the problem will be quantified to enable comparison of data across countries and health-care disciplines. Adult subjects (≥18 years old) eligible for cochlear implantation, considering the local criteria of reimbursement, will be assessed one month preoperatively and six months post the activation of the speech processor using three audiological examinations, evaluating the participants' localization abilities, speech recognition and hearing thresholds, and six questionnaires, each evaluating different aspects of daily life functioning and disability in hearing-impaired persons.
This is a prospective study designed to evaluate the safety and performance of the HiResTM Ultra Cl HiFocusTM MS Electrode and HiResTM Ultra 3D Cl HiFocusTM MS Electrode (Ultra X) under normal conditions of use as it is approved for this device.
Main objective: Investigate on new cochlear implanted patients whether the FineHearing strategy of the MED-EL cochlear implant gives better results on musical perception if the depth of stimulation (stimulation or not of the apical areas) is greater. Secondary objectives: Evaluate the effect of stimulation depth on vocal audiometric results, results of differential frequency threshold test and on qualitative sound perception.
The objective of this application is to develop and evaluate Spanish-language hearing education materials for adults. Our hypothesis is that participants will demonstrate better understanding of their hearing loss and associated difficulties, and will be better able to identify options for self-management following delivery of culturally and linguistically appropriate patient education materials.
Age-related hearing loss, presbycusis, affects up to 50% of American adults. There are two main causes for presbycusis: 1) Progressive death of hair cells in the inner ear, and 2) Central hearing loss, or the reduced ability to decipher the sound source of interest from other competing sounds in a multi-source complex environment. The first cause is better understood and treatment options, such as hearing aids and cochlear implants, are available. However, central hearing loss is not as well understood and there is not a treatment available at this time. This study aims to advance our understanding of central hearing loss by evaluating the abilities of younger and older listeners in two primary outcome measures: to 1) neurologically process sound stimuli and 2) focus on conversational speech in the presence of spatially-separated competing background noise. A test using Auditory Brainstem Responses (ABR) will be used to evaluate the brain's response to clicking sounds. This study will assess all waveform data, but will focus particularly on wave III. Sentence in noise tests will be used to assess each subject's ability to process speech in noisy situations. Both the ABR and sentence in noise tests are non-invasive and are commonly used in audiology practices to diagnosis and treat a variety of audiological pathologies.
The purpose of the study is to evaluate the long-term safety and effectiveness of cochlear implantation of the approved population in adults and children with single-sided deafness and asymmetric hearing loss.
Background: Hereditary hearing loss is one of the most common sensory disabilities affecting newborns. The main options for people with hereditary hearing loss are hearing aids and cochlear implants. Both options have their limitations and do not restore biological hearing. Researchers want to learn if gene editing might be a treatment option. Objective: To understand the genes that cause non-syndromic autosomal dominant hearing loss (DFNA) in people with DFNA as well as their family members. Eligibility: People age 3 99 who have DFNA, affected family members of enrolled participants with DFNA, and unaffected family members of enrolled participants Design: Participants will be screened with a medical and hearing history. Their medical records will be reviewed. Participants will have hearing tests. They will wear headphones or earplugs. They will listen to tones, sounds, and words and may be asked to describe what they hear. Participants will have balance tests. For these, they will wear googles as they watch moving lights or as cold or warm air is blown into their ears. They will sit in a spinning chair in a quiet, dark booth. From a reclined position, they will raise their head while listening to clicking sounds. Participants will have blood drawn through a needle in the arm. Some blood will be used for gene testing. Some participants will have 2 skin biopsies. The skin will be washed, and a numbing medicine will be injected. Two small pieces of skin will be removed. Participants may have a physical exam. Participation will last for up to 20 years. Participants may give medical updates once a year.