Baycrest researchers identify part of the brain that compensates for hearing loss in older adults
August 4, 2016
TORONTO, CANADA – Researchers have pinpointed the specific part of the brain that older adults rely on to differentiate speech sounds in background noise, which could revolutionize the treatment of hearing loss.
As people age, their peripheral and central auditory system (areas of the brain that help to intake and interpret sound) decline in function and plugging into other parts of the brain is needed to compensate, according to Dr. Claude Alain, senior investigator of the study and Assistant Director of the Rotman Research Institute at Baycrest Health Sciences.
To adapt for hearing loss, the speech motor area of the brain’s frontal lobe steps in to help an older adult interpret someone talking in a noisy room, according to a study published today in the Nature Communications journal.
“Prior research found that there’s a change in the brain and how it acts when older adults listen to speech and noise, but people didn’t know the nature of this change,” says Dr. Alain. “Our study was able to show that we appear to tap into the speech motor areas, regions of the brain that are important for speech articulation and production, and use that information to identify speech embedded in noise.”
The study analyzed the brain activity of 16 young and 16 older adults and their ability to identify syllables, while the level of noise changed in the background.
This finding is important because it paves the way for programs to be designed to assist seniors with hearing loss and to adapt the way hearing aids are developed. Significant hearing loss is one of the most common chronic health conditions in older adults that affects 90 per cent of seniors who are 80 years and older. A loss of hearing greatly affects an older adult’s ability to socialize and their quality of life.
“If you have impaired hearing, you try to correct that with a hearing aid or assistive listening devices, but it can be difficult to tweak the mechanical aspect to zoom in on a person’s voice,” says Alain. “By showing there are other brain areas that affect hearing you can design training programs that target these brain areas to see if we can improve their use.”
This research was conducted with support from a five-year Canadian Institutes of Health Research grant that allowed Dr. Alain and his team to create a prototype of a new auditory training program aimed at helping older people maintain their ability to separate speech from background noise.
“The grant supported research that helped us understand how we perceptually comprehend speech’s sound and how that changes as we get older,” says Dr. Alain.
Dr. Alain is now looking for additional funding to continue testing this prototype, which incorporates additional visual or location cues provided by a speaker.
About Baycrest Health Sciences
Headquartered on a 22-acre campus and fully affiliated with the University of Toronto, Baycrest Health Sciences is unique in the world, combining a comprehensive system of care for aging adults and one of the world’s top research institutes in cognitive neuroscience (the Rotman Research Institute). Baycrest’s dedicated centres focus on mitigating the impact of age-related illness and impairment, and offer unmatched global knowledge exchange and commercialization capacity.
About Baycrest’s Rotman Research Institute
The Rotman Research Institute at Baycrest Health Sciences is a premier international centre for the study of human brain function. Through generous support from private donors and funding agencies, the institute is helping to illuminate the causes of cognitive decline in seniors, identify promising approaches to treatment, and lifestyle practices that will protect brain health longer in the lifespan.
For media inquiries:
Baycrest Health Sciences
416-785-2500 ext. 6579