A Comparative Approach to Human Auditory Synaptopathy
Abstract
Exposure to noise can cause damage to structures in the inner ear, often resulting in a loss of hearing. Recent findings in noise-exposedanimals raise a new specter that even moderate noise exposures may result in damage specifically located in the synaptic region betweenthe sensory cells in the cochlea and primary auditory neurons. There is no way currently that scientists and clinicians can diagnose possibleauditory synaptic damage in humans, and diagnosis is critical for the development of innovative treatments. The objective of this project isto develop a statistical model that will accurately predict the likelihood of synaptopathy in humans who have had noise exposures in theirlives. The development of the statistical model will be supported by collecting non-invasive measurements in both humans and guinea pigs.Regulatory documents supporting human and animal testing have been approved both locally and through the relevant offices of theUSAMRMC. The animal laboratory was outfitted with a new sound booth for auditory testing, and data collection is on schedule to begin shortly. Research technicians have been hired to assist in both the human and animal facilities. However, overall progress has been significantly slowed by the seven months and ongoing international pandemic.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 01, 2020
- Accession Number
- AD1126415
Entities
People
- Edward J. Walsh
- Marjorie R. Leek
Organizations
- Jerry L. Pettis Memorial VA Medical Center