View clinical trials related to Hearing Loss, Sensorineural.
Filter by:Within-subject comparison. Remotely Evaluating latest Advanced Bionics Marvel Sound Processor for cochlear implants, from two adult groups.
Clinical management of cochlear implant (CI) recipients involve programming, counselling, performance evaluation and habilitation. This requires the recipients to travel to the clinic for follow up appointments which can pose significant challenges for recipients, particularly those who live far away from the clinic. Remote Assist (RA) is a new solution that allows the clinician to make MAP and sound processor adjustments via the recipient's Nucleus Smart app (NSA) installed on their smart phone. With RA the clinician can also perform counselling using a video call directly via the NSA. As RA uses no specialized hardware and software that needs to be sent and retrieved back from the recipient, it has the potential to further improve the remote programming experience and convenience for both the recipient and the clinician.
Phase I clinical study on the safety, tolerance, efficacy and pharmacokinetics of repeated intratympanic HY01 in patients with sudden sensorineural hearing loss. In this study, low-dose group and high-dose group were designed, 6 cases in each group.
To explore the genotype-phenotype correlation of SLC26A4 mutations in cochlear-implanted patients with enlarged vestibular aqueduct.
This is a prospective study designed to evaluate the safety and performance of the HiResTM Ultra Cl HiFocusTM SlimJ Electrode and HiResTM Ultra 3D Cl HiFocusTM SlimJ Electrode (Ultra X) under normal conditions of use as it is approved for this device. Participants receive interventions as part of routine medical care.
Main objective: Show the superiority of tonotopy based fitting strategy compared to default fitting strategy on the perception speech in noise. Secondary objectives: Show the superiority of tonotopy based fitting strategy compared to default fitting strategy on the perception of musical elements (contour test). Show the non inferiority of tonotopy based fitting strategy compared to default fitting strategy on the perception of speech elements in quiet. Show the superiority of tonotopy based fitting strategy compared to default fitting strategy on the qualitative preference for the listening of musical pieces.
Hearing-aid (HA) users with insufficient HA may be better helped with a "Bimodal solution" when replacing the HA with a Cochlear implant (CI) to the poorer hearing ear and a HA to the better hearing ear. This randomised controlled trial can show the benefit in terms of better speech perception of the bimodal solution with CI to the poorest hearing ear compared to binaural hearing aids. It can clarify if HAs users with insufficient HAs benefit will benefit from the bimodal solution when adding a CI to the poorer hearing ear in terms of better speech perception. It can report the degree of perceived hearing handicap in bimodal CI-users versus bilateral HA-users by hearing -specific patient reported outcome measures (PROM) questionnaires. And it can contribute to a specific cochlear implant candidacy criterion related to the transition from HA treatment to the CI treatment. The purpose of this study is to determine if bimodal treatment with a hearing aid to the better hearing ear and CI to the poorer hearing ear increases the ability to understand speech and improve quality of life compared to patients that are treated with hearing aids only. The benefit of bimodal fittings compared to the best possible bilateral HA treatment will be evaluated.
Idiopathic sudden sensorineural hearing loss (ISSHL) is defined according to American Academy of Otolaryngology as a hearing loss of at least 30 decibel over 3 contiguous test frequencies occurring within a 72h period. It affects 5 to 20 people per 100,000 annually and is characterized by sudden-onset, generally unilateral, sensorineural hearing loss. Its cause is idiopathic in most of the patients; however, vascular disorders have been proposed as the final common pathway. Recent studies have reported that the impaired microvascular perfusion occurring during an ischemic event may be related to oxidative stress which may be synergistically responsible for endothelial damage, especially in terminal microvascular systems. Hydrogen, which serves as a free radical scavenger and can reduce the strong oxidants, is found as a therapeutic gas in cochlea in recent studies. Both antioxidant and anti-inflammatory effects have been seen with hydrogen administration in animal models. Since cisplatinum toxicity and acoustic trauma both involve oxidative stress to the cochlea, hydrogen may prove useful in these conditions. The efficacy and safety of hydrogen inhalation are also proved in clinical studies. Given the theories mentioned above, the purpose of our study is to use inhaled hydrogen as an adjuvant therapy for treating idiopathic sudden sensorineural hearing loss. The systemic inflammation status and oxidative stress will be monitored. Both subjective and objective efficacy after treatment will be assessed.
Participants will be fit with each of two hearing instruments in an ABA cross-over design. The study will consist of a total of three approximately 10-day home trials with the devices. Participants will be asked to provide qualitative feedback to investigators regarding the performance of and their preference for each hearing instrument.
A small clinical trial for idiopathic sudden sensorineural hearing loss (ISSNHL). Will the addition of an oral statin to the standard treatment (oral methylprednesolone and the salvage therapy of intratympanic dexamethasone) improve the treatment outcome for patients with ISSNHL? This study will compare the two treatments and quantitatively evaluate hearing and speech discrimination and have the patients subjectively evaluate tinnitus.