137 Clinical Trials for Various Conditions
The overarching hypothesis to be evaluated using this protocol is that age-related hearing loss (ARHL) leads to shifts in the functional spatial boundaries between segregated and integrated auditory streams, and that hearing aid intervention that relies on directional processing schemes is most effective for those that have the poorest spatial sensitivity. One key component of the research design is to measure both behavioral and neurophysiological indices of an individual's spatial segregation boundary. The second key component is to measure the cost or benefit associated with hearing aid intervention in older hearing-impaired listeners. The final component is to relate cost and benefit of hearing aid intervention to spatial sensitivity measures that might predict the efficacy of clinical intervention.
The purpose of this early feasibility study is to explore several facets of hearing performance that may show improvements for alternative modes of stimulation compared to Monopolar (MP stimulation) in cochlear implant recipients. This study will iteratively evaluate different parameter sets that intend to maximize hearing performance benefits within technical requirements. This study is exploratory in nature and will achieve its objectives through ongoing review and adjustment of device parameters and fitting
This current translational project, funded by NIH, aims to better understand the impact of various signal modification strategies for older adults with Alzheimer's dementia and its potential precursor, known as amnestic mild cognitive impairment. The investigators hypothesize that adults with Alzheimer's dementia represent an extreme case of restricted cognitive ability, such that very low working memory capacity and overall reduced cognitive capacity will limit benefit from advanced signal processing. Thus, the investigators hypothesize that adults with Alzheimer's dementia will receive greater benefit from acoustically simple, high-fidelity hearing aid processing that minimally alters the acoustic signal.
Although hearing aids are the most common treatment for hearing loss, and have the potential to help seniors stay active and productive, almost 50% of them who receive hearing aids rarely if ever use them, a state of affairs sometimes referred to as "the hearing aid in the drawer" syndrome. clEAR's customized auditory brain training has been shown to be effective in improving adults' abilities to recognize speech, in reducing their perceptual effort associated with listening with a hearing loss, and in increasing their confidence to engage in everyday conversations. In the proposed research, we will determine whether older adults who receive hearing aids for the first time report higher satisfaction with their new hearing aids and have longer daily use time as a result of having completed clEAR's auditory brain training program for new hearing aid users.
The objectives of the current project aim to determine whether a more controlled amplification method or a visual administration has an effect on hearing impaired older individuals' cognitive test scores.
The goal of this clinical trial is to learn if hearing aid settings that are customized to individual listening strategies result in better speech understanding than non-customized hearing aid settings. The main question it aims to answer is: Do customized hearing aid settings result in better speech understanding? Researchers will compare hearing aid settings that match individual listening strategy to a general setting. Participants will: Wear hearing aids for a 2-hour visit to our laboratory. Listen to some sentences in noise and repeat the sentences they hear, with two different hearing aid settings Listen to some sentences in noise and rate how understandable they think those sentences are, with two different hearing aid settings
Evaluation of the Automated Integration of a Robotics and ECochG System for Use with Cochlear Implant Surgery
Measuring user-reported satisfaction with the latest behind-the-ear (BTE) audio processor model.
This goal of this study is to learn if a new audiology treatment process called the self-efficacy-based auditory rehabilitation (SEBAR) can improve confidence and success with over-the-counter (OTC) hearing aids. The main questions it aims to answer are: * Can the SEBAR improve participants' confidence related to managing their over-the-counter hearing aids? * Can the SEBAR improve participants' willingness to adopt over-the-counter hearing aids, their satisfaction, quality of life, and their emotional state? Researchers will compare these outcomes of the SEBAR with and without wearing OTC hearing aids. Participants will: * Visit for one appointment to complete a few questionnaires without OTC hearing aids * Wear a pair of ITC hearing aids for a week and use an app to answer questions about their experiences * Visit for a second appointment to complete the same questionnaires with OTC hearing aids.
Hearing aids can improve hearing, communication, and overall quality of life for people with hearing loss. However, not many people use hearing aids. A common reason is that hearing aids are expensive and hard to get. The traditional way to get hearing aids involves multiple visits to licensed audiologists for identifying hearing loss, customizing the aids, and ongoing maintenance. This traditional method is called the AUD pathway. Over-the-counter (OTC) hearing aids offer a different approach. They aim to make hearing aids more affordable and accessible, encouraging earlier use. In the OTC pathway, users diagnose their own hearing loss and fit and program the hearing aids themselves. Little is known about long-term effects of OTC hearing aids on users. This study aims to compare the experiences of people who choose the OTC pathway with those who choose the AUD pathway. It takes place in two locations: Iowa City, IA, and Nashville, TN. Participants, who have mild-to-moderate hearing loss, choose their preferred pathway and are followed for 12 months. In the OTC pathway, participants buy their hearing aids directly from OTC companies or retailers. In the AUD pathway, prescription hearing aids and fitting services are provided by audiology clinics at the University of Iowa and Vanderbilt University Medical Center. Participants are contacted 1, 6, and 12 months after starting to use their hearing aids. Researchers measure their satisfaction about hearing aids and other outcomes. If participants stop using their hearing aids, researchers assess their engagement with post-amplification hearing care. The results from both pathways are then compared.
This study aims to evaluate the safety and efficacy of cochlear implantation for adults with bilateral sensorineural hearing loss who currently do not meet the FDA-approved indications for cochlear implantation. Following cochlear implantation, participants will complete speech perception assessments and questionnaires over the course of seven visits.
Prospective, non-randomized, open-label study to evaluate the safety and efficacy of the iotaSOFT Insertion System when used to assist electrode array insertion during cochlear implant surgery in a pediatric population.
MED-EL Remote Care is a way for MED-EL cochlear implant users to check their hearing and cochlear implant device from any location, without the need for a scheduled, in-person appointment with their audiologist. This study will assess the effectiveness, efficiencies, and useability of MED-EL Remote Care.
Subjective listening effort and objective speech intelligibility will be evaluated with a new generation of a Phonak BTE (Behind-The-Ear) hearing aid.
This single-blind, placebo-controlled trial will be conducted to evaluate the safety of FX-345 administered as a single intratympanic injection in adults with acquired sensorineural hearing loss. The primary objectives are to assess the local safety, systemic safety, and pharmacokinetic (PK) profile to determine systemic exposure.
Pre-market Clinical Investigation whose primary purpose is to evaluate efficacy and effectiveness of self-fitting hearing aids
The protocol has two aims; Aim 1 involves two experiments and Aim 2 involves three experiments. Under Aim 1, the investigator will identify that the frequency and time ranges of consonants produce consonant enhancement (i.e., "target frequency range" and "target time range", respectively), and that the frequency and time ranges of consonants cause consonant confusions (i.e., "conflicting frequency range" and "conflicting time range", respectively). Aim 2 tests the effects of the frequency and time ranges, identified through Aim 1 on consonant recognition with each of the four signal processing conditions: no signal processing (i.e., control condition), the target frequency and time ranges intensified alone, the conflicting frequency and time ranges suppressed alone, and both target range intensification and conflicting range suppression.
Overhearing is important for vocabulary learning and speech and language development in young children. However, contemporary hearing aids are generally unable to provide adequate access to low-level auditory inputs from multiple talkers at a distance to capitalize on overhearing. A recent investigation by Jace Wolfe and colleagues showed that, even when aided, children with hearing loss had significantly poorer speech recognition at 40, 50 and 60 dBA compared to children with normal hearing. Furthermore, they showed that increasing hearing aid gain for very low-level inputs produced a statistically significant improvement in syllable-final plural recognition and a non-significant trend toward better monosyllabic word recognition at very low presentation levels. Additional research is needed to document low-level speech recognition ability of children with hearing loss as well as the potential benefit or detriment of increasing hearing aid gain for low-level inputs. A novel hearing aid technology known as Soft Speech Enhancer has been shown improve low-level speech perception in adults with hearing loss; however, the effect of Speech Enhancer on speech recognition in children is not yet known and will be evaluated.
Participants with hearing loss and Tinnitus will wear hearing aids with amplification-only or with an added sound, and have their tinnitus level evaluated before and after intervention.
Dysarthria and hearing loss are communication disorders that can substantially reduce intelligibility of speech and the addition of background noise adds a further challenge. This proposal utilizes an established signal processing technique, currently exploited for improved understanding of speech in noise for listeners with hearing loss, to investigate its potential application to overcome speech-in-noise difficulties for listeners understanding dysarthric speech. Successful completion of this project will demonstrate proof-of-concept for the application of this signal processing technique to dysarthric speech in noise, and inform the development of an R01 proposal to perform a large-scale evaluation of the technology, and clinically meaningful implications, in a broad range of disordered speech types and severities.
The present study will investigate the benefit of hearing aids for speech intelligibility (in both quiet and noisy environments) compared to the unaided condition. Participants will include adults with moderate to moderately severe hearing impairment. The participants will complete laboratory-based speech intelligibility assessments with binaural hearing aids and without hearing aids.
Participants will be comparing the sound quality of their own voice and the sound quality of streamed music using universal couplings and a custom earmold with a dynamic vent.
This clinical investigation is designed to compare audiological performance (i.e., measurements of sound quality and speech understanding) between Starkey's new receiver-in-canal device and a commercially available legacy receiver-in-canal device.
This is a Phase 2, prospective, randomized, double-blind, placebo-controlled, single-dose, multicenter study to evaluate the efficacy of FX-322, administered by intratympanic injection, in adults with acquired sensorineural hearing loss (SNHL).
Speech intelligibility in noise will be evaluated in adults with moderate to moderate-severe sensorineural hearing loss using a Phonak Roger microphone and hearing aid with compatible Phonak Roger receiver. Target speech will be presented from multiple directions while competing diffuse background noise is presented simultaneously. Participants will repeat back words and percent correct is calculated.
Participants will be fit with each of two hearing instruments in an ABA cross-over design. The study will consist of a total of three approximately 10-day home trials with the devices. Participants will be asked to provide qualitative feedback to investigators regarding the performance of and their preference for each hearing instrument.
This document describes a clinical validation study for a double-blind repeated-measures comparative study of the Great Nordic (GN) self-fitting method to a validated audiology-best-practices method when fitting the GN Self-fitting Hearing Aid, a device intended for persons aged 18-75 years old who have mild-to-moderate hearing loss. A crossover wear-time field trial will be conducted. The focus of the study is on the validity of the self-fitting process used to select appropriate frequency-gain characteristics for the GN Self-fitting Hearing Aid, and the safety and effectiveness of the device.
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).
This is a Phase 1b, prospective, randomized, double-blind, placebo-controlled, single-dose, multicenter, safety study of FX-322, administered by intratympanic injection, in adults with severe sensorineural hearing loss.
The goal of this project is to determine whether the selection of hearing aid settings should be based in part on an individual's cognitive characteristics (specifically, working memory). We anticipate the outcomes of this study to be applicable to realistic listening conditions.