View clinical trials related to Hearing Loss, Conductive.
Filter by:The purpose of this study is to identify factors that may contribute to conductive hearing loss. Conductive hearing loss is a type that is due to a problem with the outer or middle ear. Because of this, sound does not travel through the ear normally. Perforated tympanic membranes of study patients will be photographed during the patient's routine visit using a digital otoscope. These pictures will be used to analyze perforation size as an absolute value as well as a percentage of the tympanic membrane. Audiometric results and CT scans of temporal bone (reports and images) collected as standard of care will be evaluated. Images of CT scans will be imported into a medical imaging software for creation of anatomically realistic 3D models of the middle ear and mastoid air space. Structural analysis on each 3D model will be conducted and analyzed, the volume of middle ear and mastoid air spaces will be recorded, and data points will be correlated with perforation size and location to audiogram results.
Study to accumulate post-market clinical evidence for the safety and effectiveness of the Sophono Alpha 2 and Alpha 2 MPO systems in subjects diagnosed with conductive hearing loss, single-sided deafness and mixed hearing loss who currently have or have had the Sophono implant.
Recently, a new non-invasive bone conduction hearing aid was introduced. The system is connected directly to the skin with an adhesive adapter to transmit the sound to the inner ear through bone vibrations. The objective of this study is to evaluate and compare the audiological benefit of the new bone conduction hearing aid and compare it to an existing bone conduction hearing aid in normal hearing adults with bilateral simulated conductive hearing loss. An evaluation of the improvement on speech understanding in noise and sound localization allows to estimate the system performance and enables to derive recommendations for clinical usage of the novel hearing system. It is hypothesized that in the bilateral condition similar speech understanding in noise and sound localization performance can be achieved with the new system compared to existing bone conduction hearing aids that are pressed against the skull using a soft band.
To study the initial experience with implanting and fitting the new Bone conduction system in patients with conductive, mixed or Single sided Sensorineural deafness.
The objective of this study is to make a comparison between two surgical techniques used when implanting a Ponto bone anchored hearing system.
This study is designed to compare two different surfaces of bone anchored hearing aid abutments in terms of bacterial colonization, inflammatory response and skin reactions.
This study investigates the use of a new healing cap which, through altered design and choice of material, has been improved when it comes to minimizing the risk of it falling off as well as increasing patient comfort.
Objectives - To evaluate the safety of processor loading of the Cochlear BI300/BA400 implant system 1 week after implantation - To evaluate the short term soft tissue healing and the long term skin reaction, with the new Cochlear BI300/BA400 implant system using the linear incision without subcutaneous tissue reduction. - To produce reference data regarding the stability of the BI300/BA400 implant system. Study design: Prospective cohort study. Patients: 24 adults with anticipated normal skin and bone quality eligible for bone anchored implant surgery. Intervention: Loading of the sound processor one week after surgery Main outcome measures: Implant stability, soft tissue reaction, skin overgrowth, pain and numbness will be assessed. It is hypothesized that implant loading can be performed one week after surgery without any changes in implant stability, soft tissue reaction, skin overgrowth, pain or numbness around implant.
An international multicentre, open, comparative, parallel group, prospective clinical investigation with a single 5 year follow up visit.
A bone anchored hearing system is used to improve hearing for patients with e.g. conductive/mixed hearing loss or single sided deafness. With this type of system, a titanium implant is installed in the temporal bone, where it osseointegrates, i.e. integrates with the bone. An abutment (also in titanium) is attached to the implants and penetrates the skin. The sound processor (hearing aid) is then connected to the abutment, and can be attached and removed by the patient via a snap-coupling. This type of system has been successfully implanted in more than 100.000 patients. Recently, a simplified surgical procedure, where no skin thinning around the abutment is made, was approved. The results after using this installation technique, here called soft tissue preservation, are the focus of this study. The objective of the study is to compare the outcomes after a surgical procedure with soft tissue preservation (test) and a surgery with soft tissue reduction (control) for placing Oticon Medical Ponto implants and abutments. The main hypothesis is that patient numbness around the implant is less in the test group compared to the control group.