Study of Sound and Speech Perception in New Cochlear Implanted Subjects Using or Not an Anatomy-based...
Sensorineural Hearing LossBilateralMain objective: Compare the recognition of environmental sounds with an anatomy-based fitting and with a default fitting adult patients newly implanted with a MED-EL cochlear implant. Secondary objectives: Compare speech recognition in quiet with an anatomy-based fitting and with a default fitting in adult patients newly implanted with a MED-EL cochlear implant. Compare speech recognition in noise with an anatomy-based fitting and with a default fitting in adult patients newly implanted with a MED-EL cochlear implant.
Hear Again, Work Again
Hearing LossSensorineural10 moreProject synopsis: This prospective cohort study investigates impact of (1) hearing loss and (2) cochlear implantation on cost and health state on one hand, and employment, productivity and social wellbeing on the other hand in a professionally active group using validated questionnaires. Participants: The investigators aim to include 100 professional active adults between 18 and 65 years old. All participants have a bilateral severe-to-profound sensorineural or mixed hearing loss. Due to several reasons such as an optimal hearing aid fitting, the presence of a residual hearing or physical contra-indications, half of these participants will not be implanted with CI. Additionally, 100 participants with a single-sides deafness (SSD) in the acute or chronic setting (SDD present for at least three months) will be included. Study design Study measures: All audiological tests and patient-reported outcome measures will be included in this test protocol and repeated throughout the follow-up visits depending on aided or unaided setting. The cognitive evaluation will be executed during the first and last test moment. The investigators anticipate that the protocol will take 1 hour per follow-up in the hospital (audiological testing and to go over the questionnaires), plus an extra hour at home to fill out the questionnaires. For the cognitive tests, an extra hour in the hospital will be scheduled. Hypothesis As a primary endpoint, the investigators anticipate demonstrating that severe-to-profound hearing loss has a significant impact on sick leave and self-reported productivity. Health state will also be analyzed as a secondary endpoint because the investigators anticipate only marginal improvement (if any) on these instruments due to the lack of sensitivity and responsiveness, even in this population. The investigators will also determine the rate of usage and non-usage at this long-term follow-up to demonstrate the utility of cochlear implants. Statistical analysis IBM SPSS Statistics (IBM; Armonk, NY) will be used for the statistical analyses. The participants' hearing profiles will be summarized using descriptive statistics (median, and range). In view of the sample size, non-parametric tests and linear mixed models (to describe evolution in time and difference between groups) will be used. Quantitative data will be presented as median and range (minimum and maximum). Descriptives will be used to summarize the outcomes of the subjective data logging. For the speech perception in noise results, a Wilcoxon signed-rank test will be used. In addition, to correct for the multiple speech in noise test configurations, Holm's correction will be applied. The level of significance will be set at p.0.05. Data storage REDCap (Research Electronic Data Capture) is a secure, web-based application designed exclusively to support data capture for research studies. REDCap provides an interface for data entry (with data validation) and audit trails for tracking data manipulation and export procedures. Data will be pseudomized before storage in REDCap.
Assessment of The Efficacy of Intratympanic Platelet Rich Plasma for Treatment of Sensorineural...
Hearing LossSudden3 moreAssessment of the efficacy of Intratympanic platelet rich plasma injection for treatment of idiopathic suden sensorineural hearing loss
A Monocentric Study Evaluating Pupillometry as an Objective Measurement for CI Fittings
Hearing LossSensorineural5 moreThis trial is a monocentric, prospective and controlled study of the pupil response to detect hearing threshold and comfortable loudness of normal-hearing (NH) and CI-subjects.
National Registry of Rare Kidney Diseases
Adenine Phosphoribosyltransferase DeficiencyAH Amyloidosis85 moreThe goal of this National Registry is to is to collect information from patients with rare kidney diseases, so that it that can be used for research. The purpose of this research is to: Develop Clinical Guidelines for specific rare kidney diseases. These are written recommendations on how to diagnose and treat a medical condition. Audit treatments and outcomes. An audit makes checks to see if what should be done is being done and asks if it could be done better. Further the development of future treatments. Participants will be invited to participate on clinical trials and other studies. The registry has the capacity to feedback relevant information to patients and in conjunction with Patient Knows Best (Home - Patients Know Best), allows patients to provide information themselves, including their own reported quality of life and outcome measures.
Meniere Disease and Hearing Aids
Meniere DiseaseHearing Loss1 morePatients with unilateral Meniere Disease often a distortion that causes difficulties to provide hearing aids to these patients. Those patients have two main problems: disorders in noise comprehension due to interaural threshold difference and increase in the distortion during dizziness crisis. Due to these problems, some people cannot be fitting with hearing aids because the compression needed is too high or the discomfort in noise is not bearable for patients. Our aim is to evaluate and to propose a way to adjust hearing aids to restore binaural hearing with comfort.
Microtable® Method for Cochlear Implantation Investigational Device Exemption (IDE)
Hearing LossCochlearThe Microtable® Microstereotactic Frame and Drill Press and Associated Method for Cochlear Implantation consists of a patient-customized microstereotactic frame which targets the cochlea. The intended use of the device in this early feasibility study is to surgically access the cochlea, allowing placement of an intra-cochlear electrode array for cochlear implantation, thereby providing a less invasive surgical option than currently performed. Compared to traditional cochlear implantation (CI) surgery, the investigators hypothesize that the minimally invasive, image-guided approach may offer the following benefits: (1) shorter procedure time including shorter general anesthesia time, (2) less tissue removal potentially eliminating post-operative mastoid bone depression, decreased post-operative patient discomfort, and quicker wound healing, (3) better chance of preservation of taste secondary to preservation of the chorda tympani nerve, and (4) standardization of electrode placement potentially allowing more consistent placement within the scala tympani sub-compartment of the cochlea which has been shown to be associated with improved post-operative audiological performance. This early feasibility study will focus on the advantages of the new technology to the patient. Advantages to the healthcare delivery system will be examined during the pivotal study phase.
BEARS Training Package to Maximise Hearing Abilities in Older Children and Teenagers With Bilateral...
Hearing LossSensorineural3 moreThe goal of the BEARS clinical trial is to determine whether using the directional listening training delivered via the BEARS training package for 3-months alongside usual care compared to only receiving usual care improves speech-in-noise perception, hearing experiences, vocabulary and quality of life and reduces listening effort in young people between 8-16 years old (inclusive) with two cochlear implants. The participants will complete hearing assessments and questionnaires before completing the 3-month intervention. They will be followed up for the next 9-months through online and in-person appointments.
Preschool Hearing Screening
Hearing LossHearing Disorders in Children12 moreChildren who are deaf or hard-of-hearing (D/HH) are at risk of speech and language delays, which can be mitigated through early identification and intervention. Identifying hearing loss (HL) during preschool is crucial, but the most effective hearing screening method for preschoolers remains uncertain. The purpose of this study is to learn whether, compared to the gold-standard two-stage Pure-tone audiometry (PTA) + otoacoustic emissions (OAE) screening (TS-PO), single-stage OAE (SS-O) screening alone is not inferior at identifying hearing loss when performed in a community-based preschool setting. This study holds the potential to improve early hearing loss detection and intervention among D/HH children, reducing the likelihood of speech and language delays. A diverse group of 28,000 preschool-age children across community-based preschool centers will be recruited. The intervention involves all subjects undergoing both PTA and OAE screening, with the order determined through randomization. Children who show potential hearing issues based on screening results or teacher concerns will receive further testing to determine the final hearing outcome. Group allocation will be post-hoc, based on their screening results. In addition to the primary objective, the study will compare other hearing screening measures and outcomes between the two methods (TS-PO and SS-O). This approach aims to reflect the real-life effectiveness of hearing screening in a diverse population. Ultimately, the study seeks to provide insights into an optimal hearing screening method that could prevent speech and language delays among D/HH children.
Peripheral and Central Influences on Auditory Temporal Processing & Speech Perception in Older Cochlear...
Hearing LossCochlear Hearing Loss3 moreOlder adults who use cochlear implants to address hearing loss show wide variation in benefit. This research investigates the role of normal aging, the health of peripheral and central auditory pathways, and positioning of the cochlear implant electrode array in contributing to this variability. A range of input types from simple auditory signals to spoken sentences is used to examine these questions.