Expanding Horizons in CROS Technologies: Patient-Centered Approaches and Real-World Effectiveness

Hearing Rehabilitation in Single Side Deafness: CROS Hearing Aids vs BCD vs CI

His research mainly focuses on improving the accessibility, affordability, and outcomes of hearing and balance disorders, by promoting self-management and using digital technologies. OTC hearing aids and emerging service delivery models

Understanding Hearing and Vestibular Function Through Bayesian Brain Theory: From Perception to Adaptation

Description: Central auditory processing disorders (CAPD) present diagnostic challenges due to the involvement of complex neural networks responsible for sound localization, auditory discrimination, and temporal processing. This session explores the application of electrophysiological methods—particularly auditory brainstem responses (ABR), middle latency responses (MLR), and cortical auditory evoked potentials (CAEP)—as objective tools to assess central auditory function. Emphasis will be placed on clinical applicability, interpretation strategies, and integration with behavioural test findings.

Outcome Objectives: At the end of this session, participants will be able to:

1. Define the neural mechanisms underlying central auditory processing.

2. Describe key electrophysiological techniques relevant to CAPD assessment.

3. Identify electrophysiological patterns associated with central auditory dysfunction.

4. Integrate objective and behavioural findings for a comprehensive clinical evaluation.

Background: Central auditory processing involves the perceptual processing of auditory information within the central nervous system and the neurobiological activity that underpins this processing. CAPD can affect language development, learning, and everyday communication, particularly in pediatric and geriatric populations. Behavioural tests, while informative, are limited by their reliance on attention, memory, and language skills.

Electrophysiological methods provide a means of assessing auditory system integrity and processing efficiency independent of patient cooperation. Studies have demonstrated the value of CAEPs and MLRs in identifying cortical involvement and temporal abnormalities in CAPD cases. Moreover, the frequency-following response (FFR) has been proposed as a promising tool to evaluate the encoding of complex sounds at the subcortical level.

These objective measures complement behavioural evaluations and can support differential diagnosis, especially in populations with limited behavioural test reliability. As audiology increasingly incorporates neurophysiological tools into routine practice, electrophysiology-based assessments are becoming vital for evidence-based management of CAPD.

This session explores how hearing aid use stimulates neuroplastic changes within the auditory and cognitive systems. Experts will discuss emerging evidence on how auditory rehabilitation promotes cortical reorganization, enhances cognitive performance, and supports healthy aging. The panel will also highlight translational perspectives linking auditory stimulation, neural adaptation, and cognitive resilience in daily listening environments.