Researcher Gives Hope to People with Hearing Loss
Published March 8, 2011 - www.disabled-world.com
New Technology Will Eliminate Social Stigma of Hearing Aids - Rong Gan, a biomedical researcher supported by the Department of Health and Human Services (HHS) - National Institutes of Health (NIH) since 2005, is working on a totally implantable hearing system that would be unseen from the outer ear and restore hearing to those with moderate to severe hearing loss. She is in the final stages of development, but needs a company with existing products or distribution channels that reach the hearing impaired to take it to market.
“Conventional hearing technology has advanced tremendously,” said Gan, professor of biomedical and mechanical engineering and endowed Charles E. Foster Chair in Mechanical/Biomedical Engineering at the University of Oklahoma. “However, conventional technology suffers from drawbacks such as unsatisfactory sound quality, limited frequency range, undesired distortion, blocking of the external ear canal, acoustic feedback with high amplification and social stigma. This is why I’ve set my sights on working toward a product that would eliminate the stigma and awareness of a hearing device.”
Hearing loss affects up to 10 percent of the population in the United States. The prevalence increases with age, and more than one-third of people older than 65 years have a significant hearing loss. Only approximately 20 percent of people with hearing loss seek assistance from hearing aids. Of these, as many as 20 percent do not wear their hearing aids and another 17 percent are dissatisfied with them, according to Jack A. Shohet, M.D., Otolaryngologist, Shohet Ear Associates Medical Group, Inc., in an article on eMedicine.medscape.com
Mark Wood, M.D., otologic and neuro-otologic surgeon at the Otologic Medical Clinic and the Hough Ear Institute in Oklahoma City, collaborates with Gan and other biomedical researchers on a weekly basis to discuss research questions related to hearing loss.
“Implantable middle ear devices are medically desirable for people with certain ear deformities or skin conditions that preclude the use of conventional aids,” Dr. Wood said. “Some types of hearing loss may be better served by implantable devices because they provide qualities of sounds that are not achievable with conventional aids.”
Tony Howard, a patient of the Otologic Medical Clinic, who after wearing bilateral hearing aids for 12 years now has bilateral cochlear implants, said, “The drawbacks of hearing aids are in the aesthetics. People don’t like the way hearing aids look in their ears. With my cochlear implants, I was able to do things again, normal things, like talk on the phone, hear music, play the guitar, participate in meetings, and so on. I believe the more hearing is restored to ‘normal’ hearing through amplification or implants, the less embarrassed those with a hearing impairment will feel around the mainstream population.”
Dr. Wood said, “A totally implantable system removes the stigma of hearing loss and the usual upkeep from a person's daily life. But it’s costly. More investigations will have to be done to determine if these systems are better than conventional aids for each individual case.”
Gan’s technology could potentially replace hearing aids, cochlear implants and other implantable hearing devices; therefore, she is developing a product that has better functionality, minimizes the risk to patients’ hearing and is comparable to conventional digital hearing aids in cost/benefit ratio. She said the TIHS is a more compatible fully implantable or totally implantable hearing device with less complexity, lower cost and minimal surgical implantation.
Howard said, “We live in a world of language; being able to speak and listen are critical to quality living. There was a day when people who are deaf or hard of hearing had no other options, but not today. I’ve seen so many expensive hearing aids gathering dust in dressers or desk drawers. The implantable hearing device would eliminate vain excuses for not treating the issue and result in better hearing – every day.”
Gan is applying for grant funding from the National Institutes of Health to move forward on researching the mechanics of the inner ear, through the development of a finite element model of the human ear that would help detect and treat common middle-ear infections and disorders. Her team’s project has been approved by the U.S. patent office and their research, moving forward, is focusing on the clinical applications of this model.
The University of Oklahoma biomedical engineering program spans research and education activities in biomedical sciences and bioengineering on the Norman, Okla., and Oklahoma City campuses. Its goal is to provide interdisciplinary training of the highest quality to the next generation of biomedical engineers and scientists; serve as a catalyst for innovative interdisciplinary research at the interfaces of biology, engineering and medicine; and be the platform through which new discoveries in biomedical sciences and engineering are translated into clinical technologies and therapies for the prevention, detection, diagnosis and treatment of disease.
The Hough Ear Institute is a nonprofit research, educational and humanitarian service institute. As a Center of Excellence of INTEGRIS Baptist Medical Center, the IBMC Cochlear Implant Clinic and Hearing Enrichment Language Program are an integral part of the institute. HEI also interacts with Otologic Medical Clinic Inc. and Audio Recovery Inc. All of these entities are located within the Hough Ear Institute campus. In addition, research collaborations exist between the University of Oklahoma, Oklahoma Medical Research Foundation and Oklahoma State University.