View clinical trials related to Hearing Loss.
Filter by:PROACTIVE NYS is a long-term follow-up study of all infants who test positive for congenital Cytomegalovirus infection (CMV) throughout New York State on the Newborn Screen. By following all infants who screen positive, we will learn important information about the range of symptoms caused by congenital CMV, from those babies with more severe findings to those with no symptoms. In particular, our study will provide new information about many facets of congenital CMV, including: - Developmental, hearing, neurologic, and vision outcomes - The spectrum and timing of symptoms - The impact congenital CMV has on the baby and its family - How many babies are infected with congenital CMV in New York State How antiviral medications and other interventions impact outcomes of children with congenital CMV Throughout the duration of the study, children will undergo routine developmental and hearing assessments, which will assist with early diagnosis of any infection complications. Any child found to have a neurodevelopmental, hearing, or vision abnormality will be referred for appropriate evaluation and treatment. Families will also be asked to complete periodic surveys about their experience with congenital CMV, both as a medical diagnosis and as it affects their day-to-day activities.
Cochlear implants (CIs) are well-established neuroprosthesis used to restore hearing for patients with partial or complete deafness. However, the audiological outcomes of these implants can vary widely, and one reason for this is suboptimal electrode placement. The gold standard for measuring electrode positions is computed tomography (CT) scans, but they are expensive and expose patients to additional radiation, which is especially harmful for children. This study investigates an alternative approach using impedance telemetry data to estimate electrode positions without exposing patients to radiation. For this purpose, an extended telemetry version of a CE-certified cochlear implant software is used. The advanced impedance telemetry software can measure impedance subcomponents with improved measurement resolution that could be used for more accurate estimation of electrode insertion depth using specially designed estimation software. Ultimately, the investigators want to demonstrate the potential to improve audiological outcomes of cochlear implant recipients without exposing them to additional radiation.
This study will determine the effects of Pilates exercises on static and dynamic balance in children with hearing impairment. Children with hearing impairment often encounter challenges in their motor development, including difficulties in maintaining balance and mobility. Impaired balance and limited mobility can significantly impact their overall physical well-being and functional independence. Therefore, it becomes crucial to explore effective interventions that can address these specific needs and promote improve balance and mobility in this population. Pilates, a mind-body exercise approach, has gained recognition for its potential benefits in enhancing balance, flexibility, and core strength in various populations.
Static balance is the ability to hold the body in a specific position and posture, while dynamic balance is the ability to maintain balance while moving. Vision, somatosensation, vestibular, and hearing are integrated to achieve balance Ethical committee approval will be obtained. A written consent will be taken from all subjects in the language best understood by them, after fulfilling the inclusion criteria, Patients age 10-14 years will be recruited through Randomized Clinical trial in which convenient sampling technique will be used. Group A 17 participants will receive Pilates training and group B 17 participants will receive balance Proprioception exercises. Pediatric balance scale and Lower Extremity Functional scale will be used .The result after statistical analysis will either show both treatments equally effective or not. Data will be calculated before and after treatment with the help of outcome measure tools.
Early Age-Related Hearing Loss Investigation (EARHLI) is a single site study that will randomize late middle age adults to either a hearing intervention (including hearing aids) or a health education intervention. Participants will be followed for 1 year. This study will provide information on reducing cognitive decline in those at risk for Alzheimer's Disease and Alzheimer's Disease Related Dementias (AD/ADRD).
This early feasibility study aims to collect pilot data on impedance measurements in real-world environments and to collect real-world and difficult listening situations and the factors impacting this, reflecting situations the subjects encounter during their daily life outside of the clinic. Improving the monitoring of both aspects may lead to improvements in monitoring and personalising the fitting to optimise hearing outcomes for persons with a cochlear implant.
Conductive hearing loss is very common and the incidence increases with age. Until now, the scanner was the reference examination in the etiological diagnosis of deafness. When performing a CT scan of temporal bones for the etiological diagnosis of conductive hearing loss, the quality of the image depends on the scanner brand and the acquisition parameters. The investigators wish to show the usefulness of the cone beam in the diagnosis of conductive hearing loss
This study is looking at a method called 'ABR', which measures the electrical activity in the brain (brain waves) when we hear sounds. This study will look at the electrical activity in participants brains in response to high-pitched sounds. First, the investigators will find the quietest sounds the participants can hear. Then the investigators will use 'ABR' to measure the quietest sounds that trigger electrical activity in participants brains'. This is to find out if there is a difference between the quietest sounds participants can hear, and the quietest sounds that trigger these brain waves. We are also interested in finding out if having a hearing loss affects this.
To evaluate the impact of using virtual reality glasses using sign language as a distraction method to reduce the dental anxiety in moderate to severe hearing-impaired children compared to the conventional behavior management technique during pulpotomy treatment. The study will be a randomized controlled parallel two arms clinical trial, a total of 40 healthy children aged 5-7 years with moderate to severe hearing disability, will be selected from Pediatric Dentistry and dental public health Department, Faculty of Dentistry, Alexandria University, Egypt. Children selected should have at least one primary molar indicated for pulpotomy. The eligible participants will be randomly assigned to one of two groups: the study group, which will use virtual reality glasses with sign language as a distraction method to manage children's behavior, and the control group, which will use the conventional behavior management strategies including show-tell-do, and positive reinforcement. Local anesthesia will be given and pulpotomy procedure will be done on the selected tooth followed by stainless steel crown restoration. Pre and post-operative assessment of child's dental anxiety will be done using three methods: physiologically using pulse oximeter for measuring the heart rate, objectively using Venham clinical anxiety rating scale, and subjectively using the modified facial image scale.
This study investigates a newly developed test, The CochSyn test that can quantify cochlear synaptopathy (CS) (a new type of sensorineural hearing loss (SNHL)) earlier than the current golden standard pure-tone audiogram.This newly developed test is based on auditory evoked brain potentials. A hardware prototype (the Cochsyn test prototype) was developed to use the Cochsyn test in clinical practice. Additionally a CS-based sound-processing algorithm (CoNNear) that is designed to improve speech intelligibility in subjects that are identified to have CS, will be investigated in this study.