View clinical trials related to Hearing Loss, Sensorineural.
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).
Hearing loss and cognitive impairment both appear in elderly patients. The goal was to use a modified screening method added to already established cognitive tests to obtain a standardized test for detection of cognitive impairment in patients with hearing loss. The aim of this study is to collect data with neuropsychological tests using questionnaires and to determine cognitive impairment in patients with hearing loss. The collected data will be evaluated using SPSS 23. The corrected item-total correlation and item difficulty of the item DemTectEar will be assessed by item analysis / Cronbachs' Alpha. For further evaluation and comparisons two-sided t-tests with a level of significance 0.05 or Mann-Whitney-U-tests will be performed.
The main objective of this study is to evaluate the correspondence between eCochG and residual hearing by adding two modifications. First, a novel technique for placing and maintaining the probe in place during the whole insertion will be used. Second, a new metric for estimating the eCochG response will be evaluated (eCochG trauma index). The secondary objective is to find other markers of the cochlear trauma insertion associated to eCochG measures. This will be used to evaluate to which extend a traumatic insertion will be deleterious for the patient's post-operative hearing, and ultimately to prevent trauma to the inner ear. Finally, the potential differences in cochlear trauma resulting of the electrode array insertion from two different surgery techniques will be investigated; Either using a manual insertion or using a robotic arm that will drive the insertion automatically.
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 cochlear implant is a neural prosthesis and has been the gold standard treatment for severe to profound sensorineural hearing loss over several decades. The surgical procedure for cochlear implantation aims to atraumatically insert the electrode array of the cochlear implant into the cochlea. However, due to the location of the cochlea inside the skull, the surgeon is required to create an access from the surface of the temporal bone to the cochlea (inner ear). In conventional methods, this access is acquired by removal of portions of the mastoid bone through a mastoidectomy and posterior tympanotomy. The outcome and success of the conventional procedure varies due to mainly two factors: surgeon skill and subject anatomical variation. To overcome these variables toward a more consistent and less invasive cochlear implantation surgery, the development of robotic and image guided cochlear implantation has taken place. This study primarily aims to explore the performance of robotic cochlear implantation surgery.
In this clinical trial, an un-controlled, repeated measures open design with within-subject comparison will be used to evaluate the effect of the device under investigation on sound perception. This design was shown to be successful in previous studies for the evaluation of sound coding strategies. Furthermore, a within-subject comparison decreases the variance in the results allowing for fewer subjects when the population using the investigational device is not large in general.
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.
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 age-related sensorineural hearing loss.
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.
36 patients will be enrolled in a pilot trial. Eligible patients (receiving CI at OSU) that consent to participate into the study will be enrolled. A simulation with visualize cochlear substructures will be created for each patient, and surgeon will conduct virtual surgery with various cochlear implant electrode types and using different techniques for optimal positioning. Based on the feedback from the simulation platform, the surgeon will find the optimal CI electrode and surgical technique using the virtual simulation and a formal plan will be recorded to guide the actual surgery. Patient demographic information, medical history and pre op audiogram will be collected once enrolled. Post-op images will be used to identify the actual electrode location (scalar location (SL), modiolar distance (MD) and and angular insertion depth (AID). At 6- and 12-months post-op, word score (CNC) will be obtained as primary clinical outcomes and AZBio scores will also be obtained and evaluated as a secondary clinical outcome. All outcomes data to be collected for SA3 are considered as part of routine clinical care for patients undergoing CI at our institution. The prospective data collection plan will ensure these data will be collected timely with high quality. OSU IRB approval has been obtained for this study (OSU IRB# 2020H0080: Virtual Reality simulation for patient specific surgical rehearsal in cochlear implantation - OSU#2) pending additional amendments as needed.