3/30/2023 0 Comments Auditory nerve functionBritannica Beyond We’ve created a new place where questions are at the center of learning.100 Women Britannica celebrates the centennial of the Nineteenth Amendment, highlighting suffragists and history-making politicians.COVID-19 Portal While this global health crisis continues to evolve, it can be useful to look to past pandemics to better understand how to respond today.Student Portal Britannica is the ultimate student resource for key school subjects like history, government, literature, and more.Demystified Videos In Demystified, Britannica has all the answers to your burning questions.This Time in History In these videos, find out what happened this month (or any month!) in history.#WTFact Videos In #WTFact Britannica shares some of the most bizarre facts we can find.Britannica Classics Check out these retro videos from Encyclopedia Britannica’s archives.Britannica Explains In these videos, Britannica explains a variety of topics and answers frequently asked questions.This study was supported by a grant from the National Institutes of Health. Other researchers involved in this study were Xiang Yang Zheng, research scientist, and Donald Henderson, Ph.D., co-director of the Center for Hearing and Deafness. We hope to address these questions in the future." "We have demonstrated that the brain's ability to respond to sound can be restored," she said, "but we don't know yet how this affects an individual's perception of sound, if at all. What researchers don't know yet, McFadden said, is how long the brain retains this plasticity - important clinically to determine how quickly treatment, via hearing aids or cochlear implants, must begin - or whether a return to normal brain activity means a return to normal hearing. It then reorganizes itself again as nerve function is restored." "These results tell us that auditory-nerve fibers carrying impulses from the ear to the brain can regrow, which is essential to the recovery of hearing, and that the central auditory system in the brain reorganizes itself to maintain its function while the nerve fibers are damaged. "Specifically, responses recorded from the inferior colliculus recovered to normal in five days, long before the responses recorded from the auditory nerve, which took up to 30 days. "Remarkably, we found that the brain recovers sooner than the ear itself," McFadden said. Measurements of activity at the brain site and at the auditory-nerve fibers were taken at days 1, 5, 10 and 30 following the induced injury. Researchers in UB's Center for Hearing and Deafness induced reversible damage to the auditory-nerve endings in the cochlea, the primary sensory organ of the inner ear, in eight chinchillas, and monitored auditory-signal transmission between the damaged nerve and the location in the brain that receives its signals. The finding of central-auditory-system plasticity also may explain why many hearing-aid users go through an adjustment period before they perceive an improvement, McFadden said. This may be important with regard to restoring hearing in humans, through the use of hearing aids or cochlear implants, for example, because it demonstrates that the brain remains plastic after a period of sensory deprivation." "What is new here," she said, "is our finding that the brain can reorganize itself again after the peripheral sensory organ recovers from damage and sensory input is restored. "That has been shown in many previous studies in which permanent damage has been created by surgery, drugs or aging. "It is not news that the brain can reorganize itself after damage to the peripheral sensory organ," said Sandra McFadden, Ph.D., research scientist in UB's Center for Hearing and Deafness and an author of the study. 16) at the annual meeting of the Association for Research in Otolaryngology. Results of the study were presented here today (Monday, Feb. The findings have important implications for restoring lost hearing in humans. They also found that the damaged nerve endings that transmit impulses from hair cells to the brain can recover from injury, but at a significantly slower rate than the brain. The brain center responsible for hearing retains the ability to reorganize itself and respond normally during periods of reduced activity resulting from damage to the auditory nerve endings in the inner ear, a study by University at Buffalo researchers has shown.
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