View clinical trials related to Cochlear Implant.
Filter by:The aim of this study is to display the predictive factors of hearing rehabilitation after cochlear implant surgery in severely to profoundly deaf adults.
Cochlear implants are surgically implanted devices which restore the ability to hear to the hearing impaired. Improvements in surgery and electrodes have results in an increased number of adults and children who have residual hearing and can benefit from electric and acoustic hearing in the same ear. This is called Electric Acoustic Stimulation (EAS). Many studies have shown that adult EAS users show significant benefits for speech understanding in noise and spatial hearing tasks as compared to a CI paired only with a contralateral HA. Even though this type of hearing is becoming more common, there is limited research on how it can be beneficial to children with CIs. The benefits of this study are a greater understanding of the participant's speech understanding, binaural processing, and spatial hearing. The results will help audiologists and researcher better understand how cochlear implants work, specifically when using electric and acoustic hearing in the same ear.
In this study, the performance with the CI is investigated over time in three groups of freshly implanted CI users. Both the standard frequency-band distribution and anatomy-based fitting will be used to compare outcomes.
Aims: To evaluate the perception and enjoyment of music in cochlear implant (CI) users using specific questionnaires, and comparing their results with a control group of subjects with normal hearing (NH). To analyze the musical abilities of implantees using the musical tool Meludia, and compare the results with the control group. To perfom a voice analysis in implanted patients, compare it with their NH peers, and check if an association with musical perception is observed. Design: Cross-sectional study, both the CI recipients and NH control subjects were assessed once. Setting and subjects: Pre-or perilingual patients aged 6 to 17 years old, and postlingual adults who underwent cochlear implantation from 2000 to January 2023 at La Paz University Hospital. Control group is set up with their NH peers. Study Variables: Socio-demographic and clinical (current age, age at implantation, sex, educational level) variables will be collected, as well as hearing loss (aetiology, duration of deafness), and surgical (type of implant, complete or partial insertion of the electrodes, date of surgery) data. Data from CI fitting (number of active electrodes, type of audio processor) and hearing outcomes with the CI will also be reviewed. Outcome variables: Specific musical skills questionnaires for adults: Munich Music Questionnaire (MuMu) and Music Related Quality of Life Questionnaire (MuRQoL), which will be validated. Musical questionnaire developed specifically for subjects between 6-17 years old. Musical tool (Meludia) to assess musical perception. Praat software for voice analysis. Analysis of the impact of the different audiological, sociodemographic and clinical variables on hearing outcomes, and on musical perception after cochlear implantation, and comparison with the NH control group.
Prospective 2-arm cohort consisting of a preoperative visit and visits at the time of implantation (Day 0) and follow-up in patients for whom their treating physician indicated a perimodiolar or straight cochlear implant.
cochlear implant is a well accepted treatment to profound sensorineural hearing loss. Imaging provides essential information about anatomical Variants that could be riskyand should be considered by cochlear implant surgeon and the aim of the study:- - Identify inner ear congenital and acquired abnormalities. - Identify cochlear nerve anomalies. - Detect temporal bone abnormalities that require surgical modification by cochlear implant surgeon.
Cochlear implants are surgically implanted devices which restore the ability to hear to the hearing impaired. Recent literature has indicated that children receiving cochlear implants (CIs) often have dramatically improved speech and language ability relative to previous generations of children with hearing loss; however, many pediatric CI recipients display persistent speech and language disorders despite early implantation and associated speech/language intervention. Cochlear implants are programmed via mapping - a process in which each individual electrode (FDA approved cochlear implants have between 12 and 22 electrodes) is turned on and the stimulus level adjusted to a level that is comfortable and beneficial to the recipient. At present, this standard of care (SOC) mapping procedure is performed without knowledge of the physical location between the cochlear implant electrodes and the neural interface. Our team has developed a new method of mapping using post-operative CT scans and image processing to specify the physical relationship between the cochlear implant electrodes and the neural interface allowing customized mapping. Using this information, the investigators deactivate sub-optimally positioned electrodes. The investigators term this "Image-guided Cochlear Implant Programming" (IGCIP). This project provides a unique opportunity to examine whether individualized, image-guided CI programming (IGCIP) significantly improves outcomes in pediatric CI patients.
Hearing is the ability to perceive sounds through the ear. If the transmission of sound is defective, the person suffers some degree of hearing loss. Cochlear Implants (CI) provide partial hearing by stimulating auditory nerve cells. The evaluation of the functionality of the CI is facilitated by several analysis tools, such as the clinical calibration software. This offers the possibility of measuring electrical impedances in the cochlea. The electrical impedance is the opposition to the current flow between two electrodes. It is composed of two main elements: resistance and reactance. The impedances in a cochlear implant are not stable over time. The value is minimal immediately after surgery, and increases progressively in the first 2 to 3 weeks after the procedure due to the immune response of the organism against a foreign body and the trauma of the array insertion. Several authors have suggested the use of topical or intravenous corticosteroids to decrease intracochlear fibrosis. The use of Dexamethasone could have a protective effect by reducing the initial inflammatory response, apoptosis, and delayed fibrosis, which could impact the impedance. There is limited evidence on the effect of intra-surgical topical corticosteroids on the impedance of the cochlear implant. The aim of this clinical trial is to evaluate the impact of topical dexamethasone on the electrical impedance of the cochlear implant, with special attention to the analysis of the capacitive component. It will be carried out through an experimental, prospective, randomized and double-blind study. Objective To determine whether the use of topical dexamethasone in a single dose applied in the tympanic cavity (middle ear) during cochlear implant surgery modifies the capacitive component of the electrical impedance of the electrodes in the cochlea before the activation of the cochlear implant. Material and methods A phase 3 clinical trial will be conducted. The design is a parallel, randomized, controlled and double-blind experimental study. Expected impact The use of local dexamethasone during cochlear implant surgery would decrease the inflammatory response, improving postoperative impedances.