Inyong Choi

Developing Better Tests for Discovering “Hidden” Hearing Loss

By Hari Bharadwaj, Ph.D., with Inyong Choi, Ph.D.

Conventionally, hearing loss is thought to be a consequence of damage to delicate sensory hair cells in the inner ear (cochlea). However, over the past decade animal studies have shown that nerve endings in the cochlea are considerably more vulnerable to damage than the sensory hair cells, and that such nerve damage is likely to happen before conventionally recognized forms of hearing loss occur.

Emerging Research Grants (ERG) recipients Bharadwaj and Choi, and colleagues, systematically investigated the many sources of variability that obscure cochlear nerve damage (“synaptopathy”) to provide recommendations for how best to measure such nerve damage.

Emerging Research Grants (ERG) recipients Bharadwaj and Choi, and colleagues, systematically investigated the many sources of variability that obscure cochlear nerve damage (“synaptopathy”) to provide recommendations for how best to measure such nerve damage.

Unfortunately, damage to cochlear nerve endings cannot be detected by current clinical hearing tests. Yet, this “hidden” damage can hypothetically still affect hearing in everyday noisy environments such as crowded restaurants and busy streets. Therefore, it is important to develop tests to detect such damage in humans, and there is considerable interest among hearing scientists toward this enterprise.

In our paper published in Neuroscience on March 8, 2019, we considered noninvasive tests that can potentially reveal such nerve damage and systematically investigated other extraneous sources of variability that might reduce the sensitivity and specificity of these tests. This helped us come up with recommendations for how we can best apply these tests. Funding from Hearing Health Foundation’s Emerging Research Grants contributed to experiments that helped understand and articulate the role of two key variables: how variations in the anatomy of individuals (e.g., brain shape and size) affected our noninvasive tests; and how certain cognitive factors like attention may affect hearing independently of how well the inner ear is capturing the information in sounds.

Armed with the knowledge about these variables and other factors described in the paper, we anticipate that hearing scientists will be able to design more powerful experiments to understand the effects of damage to cochlear nerve endings, and build more powerful tests to detect such damage in the clinic. This work is crucial in enabling clinical translation of the basic science that has been uncovered over the past decade.

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A 2015 Emerging Research Grants (ERG) scientist, Hari Bharadwaj, Ph.D., is an assistant professor at Purdue University in Indiana with a joint appointment in speech, language, and hearing sciences, and biomedical engineering. Inyong Choi, Ph.D., is an assistant professor in the department of communication sciences and disorders at the University of Iowa. Choi’s 2017 ERG grant was generously funded by the General Grand Chapter Royal Arch Masons International.

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The People Behind the Science

By Yishane Lee

Eight years ago we introduced a column called “Meet the Researcher.” Placed on the last page of the magazine (prime editorial real estate!), the MTR column was designed as a way to give our Emerging Research Grants (ERG) scientists a place to talk about their ERG project in more detail—and in lay terms for our readers—including its genesis, planned execution, and future goals.

Credit: Jane G. Photography

Credit: Jane G. Photography

“Meet the Researcher” also is an opportunity for us to glimpse the person behind the science, with the researchers sharing how they became interested in their field and whether they have any personal connection to hearing conditions. Perhaps not surprisingly, many researchers do become interested in hearing and balance science as a result of their own experience with hearing loss. For instance, 2010 ERG scientist Judith Kempfle, M.D., told us she received an artificial eardrum at age 13, after many ear infections that her brother also got when they were kids growing up in Germany. With her ERG funded by the Royal Arch Masons General Grand Chapter International, Kempfle has gone on to work on many papers with Hearing Restoration Project member Albert Edge, Ph.D. (including a recent one about the effort to deliver drugs directly to the inner ear).

Ed Bartlett, Ph.D., Purdue University

Ed Bartlett, Ph.D., Purdue University

Also a Royal Arch Masons grantee, 2011 ERG scientist Ed Bartlett, Ph.D., who published research on the lasting effects of blast shock waves on auditory processing, remembers asking his teacher whether we actually hear thoughts or if it something else. “So, I guess I was destined for auditory neuroscience,” says Bartlett, who also earned ERG funding in 2003, 2004, and 2009.

2011 and 2012 ERG scientist Regie Santos-Cortez, M.D., Ph.D., who earned the Collette Ramsey Baker Award named after HHF’s founder, spoke about the challenges of getting access to genetic information for her study that eventually pinpointed a gene mutation linked to a predisposition for ear infections. 2012 ERG scientist Bradley J. Walters, Ph.D., says he started out studying evolutionary biology, switched to studying regenerating damaged brain tissue, and then switched to hearing research. “I realized a lot of the ideas I had been working on in the brain could be applied to the ear,” he says. A 2017 paper he coauthored described successfully using gene therapy to regenerate hair cells in adult mice.

Alan Kan, Ph.D., University of Wisconsin, Madison

Alan Kan, Ph.D., University of Wisconsin, Madison

An early love of logic puzzles for 2013 ERG scientist Alan Kan, Ph.D., a Royal Arch Masons grantee, turned into studying audio engineering and his 2018 paper looking at how to improve speech understanding among people who use bilateral cochlear implants. Fellow 2013 Royal Arch Masons recipient Ross Maddox, Ph.D., remembers varying how he cupped his hands over his ears to get different sounds, leading to an interest in auditory processes and, eventually, research on how auditory and visual input is synthesized to understand sound.

After 26 years as a clinical audiologist, Royal Arch Masons 2014 ERG scientist Samira Anderson, Ph.D., switched to research. “Part of my motivation came from working with patients who struggled with their hearing aids,” she says. “I was frustrated that I was unable to predict who would benefit from hearing aids based on the results of audiological evaluations.” She produced three papers on the topic, bringing us closer to improving fit for and increasing the use of hearing aids.

Likewise, fellow Royal Arch Masons grantee Srikanta Mishra, Ph.D., produced two papers, one in 2017 and one in 2018, on children’s hearing that stemmed from his 2014 ERG grant—work that also led to a prestigious National Institutes on Deafness and Other Communication Disorders grant. And we liked the backstory for 2014 ERG scientist Brad Buran, Ph.D., so much that we put him on the cover of our magazine. Buran, who wears cochlear implants, multitasks during happy hour with his colleagues. “In an environment where it’s hard to hear,” he says, “within an hour they have all the information they need to use Cued Speech,” which uses visual representations of phonemes.

Beula Magimairaj, Ph.D., University of Central Arkansas

Beula Magimairaj, Ph.D., University of Central Arkansas

In 2015, we expanded our coverage of ERG recipients, so that every grantee is profiled in a “Meet the Researcher” column, all available online. Three papers resulted from the Royal Arch Masons grant received by 2015 ERG scientist Beula Magimairaj, Ph.D., and her research into children’s speech perception in noise and auditory processing (the third paper is in press). Funded by Hyperacusis Research Ltd., 2015 ERG scientist Kelly Radziwon, Ph.D., has managed to create a reliable animal model for loudness hyperacusis (essentially, inducing loudness intolerance in a rat and making sure it reacts to gradually increasing sound intensities) as well as finding a potential link between neuroinflammation and hyperacusis. 2015 and 2016 ERG scientist Wafaa Kaf, Ph.D.—who has 18 other family members (and counting!) who work in science—has been investigating Ménière’s disease, publishing on improving its diagnosis as it can be mistaken for other conditions, and the use of electrocochleography (ECochG) for diagnosing and monitoring the hearing and balance disorder.

Elizabeth McCullagh, Ph.D., University of Colorado

Elizabeth McCullagh, Ph.D., University of Colorado

A karaoke fan who admits he “cannot resist Celine Dion,” Royal Arch Masons 2016 ERG scientist Richard Felix II, Ph.D. published on the greater-than-expected role of lower-level brain regions on speech processing. Fellow Royal Arch Masons grantee, 2016 ERG scientist Elizabeth McCullagh, Ph.D., makes her own cheese and beer in between uncovering new clues to sound localization problems in the genetic condition known as Fragile X syndrome, which can lead to autism.

Rahul Mittal, Ph.D., University of Miami Miller School of Medicine

Rahul Mittal, Ph.D., University of Miami Miller School of Medicine

2016 ERG scientist Harrison Lin, Ph.D., funded by The Barbara Epstein Foundation Inc., credits his older brother, also an otolaryngologist, for developing in him a love for science. He coauthored a January 2018 JAMA Otolaryngology–Head & Neck Surgery paper that detailed the gap between hearing loss diagnoses and treatments. 2016 ERG scientist Rahul Mital, Ph.D., who says he’d write fiction if not doing research, published an overview of hair cell regeneration, and Julia Campbell, Au.D., Ph.D., whose 2016 grant was funded by the Les Paul Foundation, understands firsthand what is feels like to have tinnitus, a topic she recently published a paper that investigated mild tinnitus in young patients with typical hearing. Hyperacusis Research-funded 2016 ERG scientist Xiying Guan, Ph.D., whose parents grew up doing manual labor in China, published a paper evaluating a treatment for conductive hyperacusis.

Some of our 2017 ERG scientists are already publishing. Royal Arch Masons grantee Inyong Choi, Ph.D., produced research on hybrid cochlear implants, which make use of residual hearing to produce more natural hearing. Oscar Diaz-Horta, Ph.D., whose 2017 ERG grant was funded by the Children’s Hearing Institute, investigated hair cell bundle structure and orientation. Very regretfully, Diaz-Horta died unexpectedly just as this paper was published.

Ian Swinburne, Ph.D., Harvard Medical School

Ian Swinburne, Ph.D., Harvard Medical School

Ian Swinburne, Ph.D., one of our Ménière’s Disease Grants scientists during its inaugural year in 2017, published a paper detailing one possible cause of Ménière’s disease. Swinburne and team discovered a structure in the inner ear’s endolymphatic sac acts a pressure-sensitive relief valve. Its failure may account for problems with inner ear fluid pressure and volume that may lead to hearing and balance disorders, including Ménière’s. “One activity I loved as a child was waterworks: building canals and aqueducts out of sand or dirt and then pouring water through them just to watch it flow,” he says. “Now I recognize an echo of that play in my study of water pressure and flow within the ear.”

We very much look forward to published research from all of our ERG scientists, including our latest crop of 2018 ERG scientists, whose ranks include a former college mascot, a violinist, a horse rider (of a horse named Gandalf), a Tibetan neuroscientist (and cookbook writer), a cricket player, a nonprofit cook who has prepared meals for 50,000 people, a dancer (including in flash mobs), and a builder of airplane scale models. Our ERG scientists deliver surprises of all sorts, from their backgrounds and how they got to where they are to the ground-breaking science they are spearheading in the lab.

 

We need your help supporting innovative hearing and balance science through our Emerging Research Grants program. Please make a contribution today.

 
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