View clinical trials related to Speech Perception.
Filter by:This cohort study aims to explore the trends and differences in multidimensional perceptual levels of patients after cochlear implants or gene therapy, as well as to comprehensively assess the efficacy of gene therapy for congenital deafness, thus providing a reference for making a well-rounded postoperative rehabilitation protocol for gene therapy patients.
Using a randomized controlled trial design, the investigators will examine the effects of music engagement through choir training on the hearing, communication, and psychosocial well-being of older adults, particularly those at heightened risk of developing dementia.
The goal of this project is to compare aided and unaided speech discrimination among infants with hearing loss and a cohort of infants with typical hearing. Working Hypothesis: Among this group of infants with hearing loss, performance will be significantly better when infants are tested while using amplification (i.e., aided condition) compared to when tested without amplification (i.e., unaided condition). Infants fit with optimally programmed amplification will perform similarly to the infants with typical hearing on speech discrimination tasks.
This study will evaluate the ability of MyoVoice to replace natural speech. Referred to generally as an Augmentative and Alternative Communication (AAC) device, MyoVoice uses electrical signals recorded non-invasively from speech muscles (electromyographic, or EMG, signals) to restore communication for those with vocal impairments that resulted from surgical treatment of laryngeal and oropharyngeal cancers.
Smarty Ears has developed a prototype of an innovative therapeutic training system to improve speech perception in noise by training children on interrupted noise (which has silent intervals that allow for fragments of the target to be heard). The study will attempt to validate the technology and gather initial design feedback from clinicians and caregivers and from children with ASD and HL.
Understanding speech is one of the most important functions of the human brain. We use information from both the auditory modality (the voice the of person we are talking to) and the visual modality (the facial movements of the person we are talking to) to understand speech. We will use intracranial encephalography to study the organization and operation of the brain during audiovisual speech perception.
Tone language refers to a language that uses fixed pitch pattern to distinguish words (Yip, 2002). Understanding the functional anatomy of the brain during lexical tone processing will provide useful hints for an effective intervention strategy such as brain stimulation. The present study investigate the cortical organisation of the brain in lexical tone perception of Cantonese speakers by the use of functional magnetic resonance imaging (fMRI).