Symptoms of difficulty understanding speech in noisy environments has been linked, for the first time, with evidence of cochlear synaptopathy by researchers from Massachusetts Eye and Ear Infirmary.
The study of college-age adults who may regularly overexpose their ears to loud sounds showed a significant correlation between performance on a speech-in-noise test and an electrophysiological measure of the health of the auditory nerve. The team also saw significantly better scores on both tests among subjects who regularly wore hearing protection when exposed to loud sounds.
Cochlear synaptopathy is a condition known as “hidden hearing loss”. A synaptopathy is a disease of the brain, spinal cord or peripheral nervous system relating to the dysfunction of synapses.
Reduced Auditory Nerve Response
Dr. Stéphane F. Maison, an investigator in the Eaton-Peabody Laboratories at Mass. Eye and Ear and Assistant Professor of Otolaryngology at Harvard Medical School, said:
“While hearing sensitivity and the ability to understand speech in quiet environments were the same across all subjects, we saw reduced responses from the auditory nerve in participants exposed to noise on a regular basis and, as expected, that loss was matched with difficulties understanding speech in noisy and reverberating environments.”
Hearing loss, which affects an estimated 48 million Americans, can be caused by noise or aging and typically arises from damage to the sensory cells of the inner ear (or cochlea), which convert sounds into electrical signals, and/or the auditory nerve fibers that transmit those signals to the brain. It is traditionally diagnosed by elevation in the sound level required to hear a brief tone, as revealed on an audiogram, the gold standard test of hearing sensitivity.
“Hidden hearing loss,” on the other hand, refers to synaptopathy, or damage to the connections between the auditory nerve fibers and the sensory cells, a type of damage which happens well before the loss of the sensory cells themselves.
Loss of these connections likely contributes to difficulties understanding speech in challenging listening environments, and may also be important in the generation of tinnitus (ringing in the ears) and/or hyperacusis (increased sensitivity to sound).
Hidden hearing loss cannot be measured using the standard audiogram; thus, the Mass. Eye and Ear researchers set out to develop more sensitive measures that can also test for cochlear synaptopathy.
Diagnostic measures for hidden hearing loss are important because they help us see the full extent of noise-induced damage to the inner ear. Better measurement tools will also be important in the assessment of future therapies to repair the nerve damage in the inner ear.
Mass. Eye and Ear researchers have shown in animal models that, under some conditions, connections between the sensory cells and the auditory nerve can be successfully restored using growth factors, such as neurotrophins.
“Establishing a reliable diagnosis of hidden hearing loss is key to progress in understanding inner ear disease,” said Dr. Maison. “Not only may this change the way patients are tested in clinic, but it also opens the door to new research, including understanding the mechanisms underlying a number of hearing impairments such as tinnitus and hyperacusis.”
M. Charles Liberman, Michael J. Epstein, Sandra S. Cleveland, Haobing Wang, Stéphane F. Maison
Toward a Differential Diagnosis of Hidden Hearing Loss in Humans
PLOS ONE, 2016; 11 (9): e0162726 DOI: 10.1371/journal.pone.0162726
Image: Kristopher Perez/Flickr
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