View clinical trials related to Hearing Loss.
Filter by:The rationale of this study is to find out the surgical outcome and success rates of tragal cartilage and temporalis fascia, subsequently to develop guide line in light of the results of this study for our department as our institute is going to follow one patient in one bed policy in future. The purpose of this study is to compare the graft success rate of cartilage versus temporalis fascia in tympanoplasty type I in our institute, as no such study has been conducted in our province before.
The objective of the study is to compare the outcomes after a surgical procedure with minimally invasive Ponto surgery (MIPS, test group) and tissue preservation surgery (control) for placing Oticon Medical Ponto implants and abutments.
A methodical evaluation of novel sound changing principles in CE-labelled Sonova brand hearing instruments (e.g. Phonak hearing instruments) is intended to be conducted on hearing impaired. These sound changing principles are enabled by respective hearing instrument algorithms. The aim of the study is to investigate and asses strength and weaknesses of these novel sound changing principles in terms of hearing performance to determine their application in hearing instruments (Phase of development). Both, objective laboratory measurements as well as subjective evaluations in real life environment will be carried out. This will be a controlled, single blinded and randomized active comparator clinical evaluation which will be conducted mono-centric at Sonova AG Headquarter based in Staefa.
The purpose of this study is to evaluate the efficacy of OpenSound Navigator (OSN), a hearing aid speech-enhancement algorithm developed by Oticon, as treatment for pediatric hearing aid users. Using a double-blind experimental design, the investigators aim to compare two treatment groups of pediatric (ages 6-12) patients with symmetrical sensorineural hearing losses ranging from the mild to moderately-severe degree. One group will be fit with bilateral Oticon OPN™ behind-the-ear hearing aids set with an omni-directional microphone setting. The other group will be fit with the same hearing aid model with the OSN algorithm enabled. Participants from the groups will be age and audiogram-matched. The investigators will evaluate hearing aid benefit through word recognition in noise (behavioral testing) and everyday hearing/listening abilities (parental/legal guardian reported) at hearing aid fitting and 6-8 months post fitting.
Patients implanted with a Bonebridge will be asked to be part of the study. The study subjects are enrolled into the study according to inclusion criteria. Patients will be asked to wear an adhesive bone conduction device an adapt to it for 30-60 min. After this time period patients will be asked to use the adhesive device instead of the Bonebridge for 3 weeks. Audiologic Tests and quality of life questionnaires will be assessed at the beginning of the study and at the end of three weeks.
Participants will perform two different listening tasks: (1) listening to, and repeating back, sentence lists presented in noise, and (2) listening to short radio excerpts and answering subsequent comprehension questions. At the same time participants are required to perform a manual target-tracking task on a touch screen. During this study, continuous, non-invasive physiological measurements (heart rate, skin conductance and hemoencephalography) will be made from participants. Using this paradigm we will be assessing the effect of different hearing aid processing algorithms on listening effort. The study takes the form of a three factor (listening task x algorithm x signal-to-noise ratio), within-subjects design. Each participant performs each listening task (about 4min long each) with each algorithm (reference, noise reduction I, noise reduction II), at two signal-to-noise ratios (+4 decibel and 0 decibel) twice (test-retest).
This study evaluates the benefit of Neuro 1 sound processor upgrade in speech perfomance in adults. Half of participants will be tested with Neuro 1 first and Neuro 2, while the other half will be tested with Neuro 2 first and then Neuro 1.
A methodical evaluation of novel measurement and fitting methods for individualizing CE-labelled Sonova brand hearing instruments (e.g. Phonak hearing instruments) is intended to be conducted on hearing impaired participants. The aim of the study is to investigate and asses strength and weaknesses of these novel measurement and fitting methods in terms of optimizing hearing performance and experience and/or usability of the hearing aids and accessories. Both laboratory measurements as well as evaluations in real life environments will be carried out. This will be a controlled and randomised active comparator clinical evaluation which will be conducted mono-centric at Sonova AG Headquarter based in Stäfa.
Phonak Hearing Systems pass through different development and study stages. At an early stage, feasibility studies are conducted to investigate new algorithms, features and functions in an isolated manner. If the benefit is proven, their performance is then investigated regarding interdependency between all available algorithms, features and functions running in parallel in a hearing aid (pivotal/pre-validation studies) and, as a result, they get optimized. Afterwards, and prior to product launch, the Phonak Hearing Systems undergo a final quality control in terms of clinical trials. This is a validation study, investigating optimized algorithms, features, functions and wearing comfort. This will be a clinical evaluation which will be conducted mono centric at Sonova AG Headquarters based in Stäfa (Switzerland).
This study studies the prevalence between obstructive sleep apnea syndrome and sensorineural hearing loss. We recruit patients who have been treated for sudden sensorineural hearing loss in Poitiers' University Hospital between 2010 et 2017, and we detect if they have OSA with a ventilatory polygraphy.