View clinical trials related to Hearing Loss.
Filter by:Children's motor skills and physical performance increase with age due to the development of neuromuscular and cardiorespiratory systems. Sensory impairment seen in children with hearing loss can cause balance and coordination disorders, as well as decreased muscle strength and respiratory functions. Anatomically, core stabilization is provided by the diaphragm, abdominal, hip, pelvic floor, and gluteal muscles. Training for these muscles is intended to improve strength, endurance, and neuromuscular control. This training can help to improve the control of intra-abdominal pressure, intersegmental control of the spine, and muscular control of trunk movement. It also helps in strengthening the respiratory muscles, especially the main inspiratory muscle, the diaphragm. In this study, the effects of core stabilization training on children with hearing impairments' thoracic mobility, functional ability, and trunk muscle endurance will be examined.
The objective of this study is to examine whether ABO and Rhesus (Rh) blood group systems have an association with distortion product otoacoustic emission (DPOAE) and transient otoacoustic emission (TEOAE) amplitudes with the hypothesis of blood groups may affect hearing thresholds.
To assess whether children with glue ear ( and some normal hearing controls) and their families find the Hear Glue Ear application acceptable and easy to use. Whether the hearing screening section on the app is comparable to the hearing test data obtained from formal audiology hearing tests.
The proposed field trial will clarify the real-world effectiveness of HAs in remediating deficits in emotion processing for older adults with mild-to-moderate hearing loss. This study will employ a repeated reversal design to establish baseline affective state without HAs, when wearing amplification, and after HAs are removed. This study will triangulate self-report, behavioral, and physiological measures to capture nuances of emotional processing in the laboratory and in daily listening. Naturalistic stimuli will be used as it occurs in daily life to elicit emotional experiences, and ecological momentary assessment and commercially-available wearable sensors will be used to track changes in emotional state in daily listening. Anchoring real-world emotional experiences with controlled laboratory experiences will validate wearable sensors. Additionally, laboratory emotional stimuli will be related to real-world emotional experiences to establish the utility of laboratory stimuli in future studies. It is likely that benefits in emotional processing will have differential effects based on individual characteristics (such as degree of hearing loss, age, gender, cognitive ability, and personality), so participants will be analyzed according to larger groupings based on individual differences.
Cochlear implantation (CI) allows rehabilitation for patients with severe to profound hearing impairment. Although the use of a robotic assistant provides technical assistance to the surgeon, the assessment of the impact of its use on auditory outcomes remains uncertain, due to inter-individual variability of preoperative audiometric thresholds and the various possible intrascalar positions of the electrode array. WThe investigators aim to compare the hearing results of patients who underwent bilateral cochlear implantation, one side was performed with manual insertion and the other side with robot-assisted insertion. The electrode array intrascalar positioning and the surgery duration were also studied. This retrospective intra-individual study involved 10 patients who underwent bilateral cochlear implantation. The unique composition of this cohort enabled the investigators to utilize each patient as their own control.
This study aims to examine shifts in attitudes about bone-anchored hearing instruments (BAHIs) among hearing health professionals over a period of time.
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.
Observation study, shows the relation between diabetes, its neurological and optical complication and hearing loss, by asking participants questions about there age,BMI,job,the history of any cataract,diabetes retinopathy or heart attack,hypertension,swollen or tingling legs and take there consent to measure the hearing impairment.
Approximately 48 million people in the United States have hearing loss or hearing difficulties in noisy environments. Concha Inc. is working on introducing a wireless air-conduction hearing aid to the market, featuring a self-fitting feature. Self-fitting hearing aids have emerged in recent years as a potentially viable option towards addressing unmet hearing health care needs for millions of individuals who suffer from mild-to-moderate hearing loss. The purpose of this study is to evaluate the efficiency and reliability of the self-fitting strategy developed by Concha Inc.