Improving clinical practice and quality of life



Marie Moore Channell and Laura Mattie (Photo provided)

Speech and Hearing Science Associate Professors Marie Moore Channell and Laura Mattie have long been interested in the development of communication and life skills in individuals with neurodevelopmental and intellectual disabilities.

Channell directs the Intellectual DisAbilities Communication Lab, where her research team works toward a comprehensive understanding of skills that support day-to-day communication for people with Down syndrome in order to identify and develop strategies for supporting their social and academic success. In Mattie’s Development in Neurogenetic Disabilities Lab, research addresses the early development of individuals with Down syndrome and fragile X syndrome. She, too, aims toward promoting the developmental success and well-being of people with these neurogenetic disabilities.

The scholars’ shared interests have led to fruitful collaborations in the past. They led a team of researchers who used a large, national database developed by the Down Syndrome Cognition Project to characterize variability in IQ, executive functioning, adaptive and challenging behavior, and autism symptomatology among individuals with Down syndrome.

In a paper titled “Capturing cognitive and behavioral variability among individuals with Down syndrome: a latent profile analysis,” published in the Journal of Neurodevelopmental Disorders (2021, 13:16), Channell, Mattie and their co-authors describe three latent classes, or subtypes, of people with Down syndrome that emerged from their analyses.

Those in the “normative” group showed a profile of cognition and behavior that is typically represented in the literature on Down syndrome. Those in the “cognitive” group had lower cognitive scores and adaptive behaviors such as self-care and daily living skills than their peers with Down syndrome, along with high rates of autism symptoms.

Those in the “behavioral” group showed cognitive scores and adaptive behaviors similar to their peers with Down syndrome but had high rates of autism symptoms and challenging behaviors such as hyperactivity and conduct problems. Thus, with a large enough sample size, different patterns of autism symptoms and other characteristics can be seen across individuals with Down syndrome. The ultimate goal in precisely characterizing individual variability within Down syndrome is to optimize daily living through targeted treatments and interventions.

Overcoming diagnostic hurdles

Channell and Mattie currently are collaborating as principal and co-principal investigators on a study funded by the National Institutes of Health INCLUDE Project, which supports research related to the health and quality of life of individuals with Down syndrome. Working with researchers at Emory University, Johns Hopkins University and the Kennedy Krieger Institute, their study seeks to increase understanding of the co-occurrence of autism with Down syndrome to improve its diagnosis and treatment.

“There is a stereotype of people with Down syndrome as happy, social people who can’t have autism,” Channell said. “It’s more common than previously thought, but underdiagnosed.”

Interventions and therapies that people with autism receive could be a beneficial add-on to services offered to individuals with Down syndrome. Part of the problem in diagnosing autism in this population is that autism screening tools that were developed for the general population need to be adapted. To work toward the goal of developing better tools to screen for autism in people with Down syndrome, Channell, Mattie and their collaborators are conducting a nationwide survey of caregivers of youth with Down syndrome in which they are completing existing screening tools and other developmental questionnaires. The researchers will then examine and adapt the screening tools as needed so they can be used by practitioners to determine whom to refer for a full autism evaluation.

They are casting a wide net in hopes not only of representing all the varying abilities within Down syndrome, but also of including groups that are not well represented in the existing research.

“Underrepresentation is a big problem in research related to Down syndrome,” Mattie said. “We have a diverse board of stakeholders, are building relationships with the Black Down Syndrome Association, and targeting rural and Hispanic families as well.”

The questionnaires and other screening tools completed by caregivers are just one element of an autism diagnosis. There also is an in-person evaluation component, which is conducted by either developmental behavioral pediatricians or clinical psychologists who are specifically trained in autism diagnostics and assessment, as well as neuropsychological methods. The difficulty with this aspect of diagnosis is two-fold, Mattie said.

“First, the number of developmental behavioral pediatricians and clinical psychologists with this specialized training is limited, so there’s a bottleneck,” she said. “Also, while they may have expertise in autism, they don’t necessarily know about Down syndrome. So the ability to identify a true co-occurring condition is really lacking.”

Channell and Mattie may be conducting the first large-scale study using the broad screening measures doctors and clinicians give to families when autism is first suspected. Theirs may also be the first study that will explore the use of telehealth to conduct diagnostic evaluations of autism in children with Down syndrome.

“If we can figure out how to make that work, we can increase access to evaluations by specialists,” Channell said. They are working with a clinician at Kennedy Krieger, Natasha Ludwig, who will conduct the evaluations of autism in the telehealth sessions, and with Amy Cohen, director of the University of Illinois Autism Clinic, who will review and “score” the evaluations as well to ensure that evaluation tools will lead to consistent results when used by different clinicians.

With the dual focus on developing effective autism screening and diagnostic tools for individuals with Down syndrome and increasing access to specialists who are skilled in both autism and intellectual disability, Channell and Mattie intend to make a significant and lasting impact on improving the quality of life of a population that has historically been underdiagnosed and underserved. That’s good news for the individuals themselves and their caregivers, as well as the scores of clinicians who dedicate their professional lives to providing the best services possible to their clients.

Related news

2024 SHS Awards

Congratulations to the recipients of 2024 scholarships and awards. The undergraduate and graduate students recognized within these pages have shown outstanding dedication and creativity in the pursuit of their personal and professional goals. We are very proud of your achievements. Click the link to read the PDF program.

2024 SHS Scholarship Ceremony – 4/16/24

SHS Fall 2023 Promotions and Tenure



Raksha Mudar

Raksha Mudar, who joined the faculty of the Department of Speech and Hearing Science in 2011, was promoted to full professor in 2023. Mudar, who earned her Ph.D. from the University of Texas at Dallas, is the director of the Aging and Neurocognition Lab. 

Mudar investigates the effects of normal cognitive aging and brain diseases including mild cognitive impairment, Alzheimer’s disease and frontotemporal dementia on higher order semantic functions. She uses a combination of behavioral methods, event-related potentials and functional magnetic resonance imaging in her research.

“I am deeply honored to be promoted to full professor at such an esteemed institution of higher education and research,” Mudar said. “My path to full has been very rewarding. I chose academia because both research and teaching bring so much joy to me. Looking back, I know I chose right, and am excited for what lies ahead.”

Mudar was elected as a fellow of the American Speech-Language-Hearing Association at the ASHA Convention 2022—one of the highest forms of recognition given by ASHA. Mudar has been involved in several federally funded grants and is currently the primary investigator on an R01 titled “Digital Technology to Support Adherence to Hypertension Medications for Older Adults with Mild Cognitive Impairment.”

Brian Monson

Brian Monson, who joined the faculty of the Department of Speech and Hearing Science in 2017, was promoted to associate professor in 2023. Monson, who received his Ph.D. from the University of Arizona, is the director of the Auditory Neuro Experience Lab. His field of research is in auditory neuroscience. 

Monson holds degrees in electrical engineering, acoustics and speech/language/hearing science, with further specialization in neuroscience and music. With this background, he takes an interdisciplinary approach to auditory research, interfacing with clinicians, scientists, engineers and musicians. His research interests center around auditory neurodevelopment and speech/voice perception.

Monson is the principal investigator on an R01 grant from NIH-NIDCD for his project titled, “The ecological significance of extended high-frequency hearing in humans,” and the PI on an R21 from the NIH-NIDCD as well as the co-PI on another R21.

“I’m quite honored to become a tenured faculty member at such a reputable institution as the University of Illinois,” Monson said. “I very much look forward to continuing to serve our students and our community with my colleagues in Speech and Hearing Science and in Applied Health Sciences.”

Pasquale Bottalico

Pasquale Bottalico, who joined the faculty of the Department of Speech and Hearing Science in 2017, was promoted to associate professor in 2023. Bottalico earned his bachelor’s degree in telecommunications engineering from Univeristà Mediterranea di Reggio Calabria (Italy), while simultaneously pursuing a degree in opera singing at the F. Cilea Music Academy of Reggio Calabria (Italy). 

In 2005, he moved to Turin where he earned his master’s degree in telecommunications engineering from Politecnico di Torino (Italy). Bottalico earned his Ph.D. in metrology, studying acoustics with particular attention to the uncertainty of measurements and statistical analysis of data. Bottalico is particularly interested in the professional voice user and singer techniques, as well as the definition and the quantification of vocal load. Other fields he is interested in are speech intelligibility, room acoustics and musical acoustics.

Bottalico is also a professional chorister, having performed under such prestigious directors as Rafael Frühbeck De Burgos, Yuri Ahronovitch, Jeffrey Tate, Juanio Mena, Gianandrea Noseda, Ottavio Dantone, Wayne Marshall, Helmuth Rilling, Christopher Hogwood, Robert King and Ivor Bolton.

“Attaining tenure and rising to the role of associate professor is a profound validation of my dedication to enlightening minds, pushing the boundaries of knowledge and contributing to the ever-evolving academic landscape,” Bottalico said. “It signifies not just personal achievement but the faith others place in my ability to continually inspire students and illuminate the paths of intellectual exploration.”

Related news

Get to Know: SHS Practice Manager Rabel Lohana



Q: You are from Pakistan, and worked to provide medical care there. How did you end up in Indiana? What made you want to come to the United States?
 
A: A better career is what drove us to leave our home country and relocate to the United States. The job chances in the United States are superior to those available to immigrants at home. Regardless of color, ethnicity, or religious beliefs, the United States appears to be one of the safest countries to live and provide equal opportunities to all. There are many educational possibilities for those who desire to further their education because the United States has so many universities and it turned out to be so beneficial for me, when I decided to pursue an MBA at (Indiana University). 

Q: You have a variety of skills, including practicing as a physician. How and why did you make the decision to pivot to an MBA and work on healthcare business aspects?

A: Patient care is only one aspect of working in the healthcare industry. Healthcare professionals that are focused on patient care may be unaware of the business aspects of the healthcare industry. But how hospitals and other healthcare institutions and organizations run their operations depends heavily on this business aspect. That excited me when I worked as a medical administrator in Pakistan. Making sure these institutions and groups function efficiently on a daily basis can help guarantee that patients can access and receive high-quality medical care. Keeping institutions and organizations in good standing generally is essential for their continued operation, and healthcare management is a key component.

Q: What have you noticed is different about medical care in the U.S. than Pakistan?

A: A healthcare system is one of the most essential pillars of any country. The primary role of a healthcare system is to ensure that all people get the best available health facilities in a timely, acceptable, affordable and accessible manner. However, for a healthcare system to function as such, it requires proper infrastructure and financial support. To a large extent, the healthcare system in Pakistan is facing several challenges. There is a massive shortage of hospitals, doctors, nurses and paramedical staff. Most life-saving medications are too expensive for people to afford. Above all, there exists a lack of trust in the healthcare system, which gives way to the ever-increasing quackery in the country. In contrast, in the U.S., patients’ lives and needs come before the expense of receiving care, universal access to healthcare for the poor and the desperate. Along with that, the U.S. invests a lot of money promoting new, innovative health concepts for the wellbeing of its citizens, which benefits not only Americans but also the rest of the world.

Q: What made you decide to choose Illinois to work and live?

A: I’ve always wanted to work for an institution that will not only support my professional growth but also for the prosperity of students and the community. And, as I was looking for work, I discovered that the University of Illinois not only had that, but also an extraordinary team of people that not just support the university’s mission, but also the people who work here. 

Q: How did you make the decision to work for the Dept. of Speech and Hearing Science? What about the job was interesting to you?

A: Having a background in medicine and business experience in the healthcare industry, I immediately knew this job at SHS was suited for me when I learned about it. I was seeking a combination of the operational side of the business and collaboration with other institutions to extend the vision and organizing outreach activities for the education of the community, and how they may benefit from the clinic services, and this job has it all.

Q: The Audiology and Speech-Language Pathology Clinic has never had a business manager. What changes do you anticipate making to help the clinic be more visible and successful?

A: As the clinic’s business manager, it is my goal to implement as many outreach programs as possible for the community’s good that will not only draw in more patients but also spread the word that students can enroll in our well-rounded curriculum. I believe the clinic has a lot of potential, and some of its aspects are still untapped, therefore I’d be interested in exploring those possibilities, in order to build a prosperous and well-known clinic in the community. I do see myself as a representative of our outstanding clinical faculty and staff, assisting them in overcoming obstacles so they can give patients good treatment and give students uninterrupted time and attention.

Related news

Study: Hearing aids may slow cognitive decline for at-risk adults



Long-term speech understanding can improve the earlier a patient uses hearing aids, Sadie Braun said. (Photo by Brian Stauffer)

study published in the medical journal The Lancet found that hearing aids might slow cognitive decline for at-risk older adults with hearing loss.

Sadie Braun, audiologist and clinical assistant professor in the Department of Speech and Hearing Science in the College of Applied Health Sciences at the University of Illinois, said she’ll incorporate these findings into her counseling with patients.

“For people who have any sort of high risk for cognitive decline such as dementia [or] Alzheimer’s, this study tells us that those individuals should get hearing aids as soon as they need them,” Braun said. “The average person waits 5 to 7 years or more to get hearing aids once they know they have a hearing loss.”

The study, co-led by Dr. Frank Lin of Johns Hopkins University School of Medicine and the Bloomberg School of Public Health, analyzed cognitive performance for groups of older adults (ages 70 to 84) with untreated hearing loss.

Participants were randomly assigned to either the control group that received counseling on disease prevention, or to the intervention group, which received regular audiology treatment and hearing aids.

Researchers followed up with participants every six months for three years. For participants at lower risk of cognitive decline, hearing aid interventions showed no significant effect on cognitive function. But for participants with high risk for dementia, cognitive decline slowed by 48 percent over the three-year period.

“That’s a pretty amazing statistic to me,” Braun said. “We’ve known there was a correlation between hearing loss and cognitive decline, but there were a lot of unknowns regarding the exact nature of that correlation as well as whether hearing aids or other treatments could have a positive impact.”

The connection between hearing loss and dementia is well-documented, but the “why” is still up for research inquiry, Braun said. Regardless, the finding adds to the growing list of reasons for adults to check their hearing sooner rather than later.

Long-term speech understanding can improve the earlier a patient uses hearing aids, Braun said.

“Cognitive health is something that people really care about,” Braun said. “I think this is going to cause more people to be more concerned about a mild or moderate hearing loss.”

For at-risk adults and anyone interested in checking their hearing, Braun recommends a visit to an audiologist.

The Audiology and Speech-Language Pathology Clinic at 2001 S. Oak Street in Champaign is open to all patients, regardless of affiliation to the University of Illinois and accepts some insurance plans. It is operated by the College of Applied Health Sciences’ Department of Speech and Hearing Science.

New patients are required to schedule an appointment by calling 217-333-2205 or emailing shsclinic@illinois.edu.

Editor’s note:

To reach Ethan Simmons, email ecsimmon@illinois.edu.
 

Related news

Faculty Focus: Meaghan McKenna



Q: Who or what influenced you to go into research or academia?

A: I have always been interested in implementation of evidence-based practices in educational settings. The summer before my senior year of college, I joined the team at the Shafer Center for Early Intervention [in Maryland]. One of my job responsibilities was attending summer camp with a child to support his interactions with peers. I observed that his expression language output was always highest during movement-based activities. The following year I conducted my first research study at the Shafer Center with Dr. Janet Preis to answer each of the research questions I generated. When working as a speech-language pathologist in educational and private practice settings, I engaged in ongoing data collection to evaluate the effectiveness of interventions. I also served as a member of interprofessional teams in school-based and medical settings where we engaged in ongoing data-based decision-making to inform tiered instructional plans/comprehensive plans of care for children. In 2016, I was encouraged to return back to the university setting to pursue an educational leadership certification and the professor of my first course at the University of South Florida, Dr. Steve Permuth, asked me to meet with him after reading my first assignment. During this meeting he encouraged me to consider a doctorate degree. He also involved me in educational policy research and writing. The following semester [spring 2017] I enrolled in educational leadership doctoral coursework. However, I soon sought mentorship in the investigation of multi-tiered system of supports (MTSS). I began meeting with Drs. Jose Castillo and Howard Goldstein in the summer of 2017 and they each invited me to become part of research projects they led. I realized that completing the doctorate degree in Communication Sciences and Disorders was best for me while continuing to collaborate with the College of Education. I continued working in Hillsborough County [Fla.] Public Schools for the entirety of my doctoral studies and my colleagues helped me realize that all of our collaborations addressing MTSS and early elementary writing could shape my research agenda. I was able to form instantaneous research partnerships because the foundation of trust was already established. All that needed to change was a more rigorous approach to evaluating the work we were already doing.

Q: What led you to study speech-language pathology?

A: I completed observations in a variety of work settings before declaring my major. When I went to observe a speech-language pathologist in a school-based setting I was intrigued by the diversity of her caseload. I also enjoyed learning about the different options for service delivery. It was exciting to watch how effectively the SLP collaborated with administration, general education teachers, special education teachers and related service providers. I became interested in all of the possibilities within this field. I also had opportunities for different service learning experiences with adults and children while attending Loyola University in Maryland as an undergraduate. All of these experiences along with the exceptional mentorship I received from Dr. Lisa Schoenbrodt and Dr. Janet Preis while completing my undergraduate coursework in the Department of Speech-Language-Hearing Sciences solidified my decision.

Q: Did you always want to teach?

A: I realized the importance of providing high quality learning experiences to the future of the field while serving as a speech-language externship supervisor and providing professional development to different groups of educators in Hillsborough County Schools. Teaching allows me to impact generations of future speech-language pathologists, general and special educators and healthcare professionals who can in turn influence more people than I can reach through my individual efforts. I hope to pass on the legacy of the wonderful professors and mentors who I have learned from, and encourage students to be lifelong learners.

Q: What led you to Illinois?

A: The tenure-track position at Illinois in educational speech-language pathology was a perfect match for my skills and interests. Beginning my career as a school-based speech-language pathologist allowed for identification of problems of practice, a desire to equip myself with the skills to investigate under-researched areas and an understanding of the importance of engaging practitioners. My entire research agenda is influenced by my experiences as an educational SLP. The Speech and Hearing Science Department embraces implementation science and recognizes the value of translation of research into authentic practice settings. I knew this institution was the ideal environment to continue learning, growing and accomplishing my career objectives.

Q: What is your primary area of research?

A: My objective is to engage in ongoing communication, collaboration and continuous problem-solving in partnership with early childhood centers and school districts to drive system-wide change and continuous quality improvement. My overriding research aim is to optimize the success of educators and students, especially in preschool and early elementary grade levels. This has led to a variety of opportunities to join large teams investigating components of a multi-tiered system of supports framework. My primary area of focus is early elementary writing in kindergarten through second grade. I study assessment, data-based decision-making, tiered instruction and professional development.

Related news

Message from Professor Pamela Hadley, Head



Dear students, faculty, alumni and friends of the Department of Speech and Hearing Science,

As the vibrant colors of fall start to grace our campus, I am delighted to welcome you all to the latest edition of our departmental newsletter. It is with immense pride that I share the remarkable strides we have taken over the past few months and offer a glimpse into the exciting opportunities that lie ahead.

Our commitment to further the fields of audiology and speech language pathology remains unwavering. In this issue, we highlight stories of faculty, students and staff making their mark in diverse corners of the field. These narratives illuminate the strength of our community and the profound impact we have.

I am thrilled to introduce our new faculty and staff members who bring a wealth of expertise to our department. Their diverse backgrounds and innovative research interests promise to enrich our academic environment and push the boundaries of our knowledge. Additionally, you’ll read about the well-earned promotions of three faculty members, an amazing overseas experience for a doctoral student, and see photos and videos of campus and community events led by students and faculty.

Lastly, I would like to express my gratitude to each member of our department for your dedication and passion. Your contributions are the driving force behind our accomplishments, and your enthusiasm fuels our collective progress.

I invite you all to immerse yourselves in the pages of this newsletter, celebrate our achievements and envision the possibilities. Together, we will continue to empower individuals with communication challenges, advance the frontiers of research and shape the future of speech and hearing science.

Warmest wishes for a productive and inspiring fall semester.

Sincerely,

Pamela Hadley, Ph.D.
Head, Department of Speech and Hearing Science

Related news

2023 SHS Awards



Related news

‘What Did You Say?’ Understanding speech in noise a common problem



A common complaint that audiologists hear from clients coming in for hearing assessments is difficulty hearing in noisy backgrounds. It’s a problem that affects millions of adults and can become more of a problem with age, but it also affects children and adolescents as well.

While the problem might be common, adequate ways of addressing the problem are not. Effective solutions require a deep understanding of the reasons the problem is occurring. Three faculty in the Department of Speech and Hearing Science—Assistant Professor Mary Flaherty, Associate Professor Dan Fogerty and Assistant Professor Ian Mertes—focus their research in this area with the goal of gaining that deep understanding and finding solutions in order to improve the quality of life of those who struggle with understanding speech in noise.

“If people are unable to hear clearly in noisy environments such as restaurants, it can negatively impact their ability to socialize and communicate in those settings and, ultimately, to enjoy those settings,” Mertes said.

Mechanics are There; Understanding is Not

While some might assume that hearing in noise is a problem of aging, it turns out that children can also have difficulty understanding speech in noisy environments. It’s known that children with normal hearing have fully developed auditory systems by their first birthday, but that their brains take longer—into their teenage years—to develop the ability to process speech in noise effectively. What isn’t known is why this is. That’s what Mary Flaherty wants to find out.

“We know it has something to do with attention and sound-source segregation, separating different sounds in the environment,” she said. “We also know children just need more information than adults. They aren’t as good as adults at putting puzzles together when they are missing pieces. But we don’t really understand what it is that children need to help them.” 

Flaherty’s concern is that children who struggle with understanding speech in complex acoustic environments may fall behind in school. Moreover, the true problem may go undiagnosed and the child labeled negatively by teachers and classmates. And if this is true of children with normal hearing, imagine the extra burden faced by children with hearing loss who experience greater difficulty understanding speech in noise.

Adults use cues such as voice pitch to focus on one speaker in noise and ignore everyone else. Children cannot do that. So what cues can help children? Flaherty currently is investigating talker familiarity. She worked with a graduate student in audiology to develop a game that familiarizes children with a voice while they’re playing. A pilot study in which children played the game 10 minutes a day for five days found that their speech-in-noise perception for that particular voice increased. Flaherty plans to pursue research that tests this phenomenon in the classroom.

This summer, she will collaborate with researchers at Lurie Children’s Hospital of Chicago to investigate hearing-in-noise difficulties faced by children who use hearing aids. Among the issues she will investigate is whether talker familiarity also can help children with hearing loss, which has never before been studied. As she continues her research efforts, Flaherty hopes to identify primary factors that account for the long trajectory of children’s development of speech-in-noise perception, and to use the knowledge to improve hearing in noise, especially for clinical populations. She also collaborates with SHS colleague Pasquale Bottalico on classroom studies that they hope will lead to a method of predicting which children may have difficulty understanding speech in noise, identifying characteristics that they have in common, and recommending effective interventions.

More Cues, but More Potential Deficits with Age

Dan Fogerty focuses on older adults in his studies of how noise interferes with speech processing, how it impacts understanding a message and how it requires listeners to recruit other cognitive and sensory processes to help make sense of it.

A predominant perspective on how noise makes speech understanding difficult is that it exerts two primary effects: energetic masking and informational masking.

“In energetic masking, the noise covers up the speech energy in time and frequency,” Fogerty said. “Informational masking refers to all of the other things that might make it difficult, such as the message or familiarity of a competing talker that can draw your attention.”

Sometimes the noise dominates the signal received by the brain, depriving the listener of information. Speech dominates the signal at other times, and from these glimpses of information, listeners can piece together an interpretation of what is being said. Fogerty’s research uses glimpsing theory to examine what cues are available to the listener at any given time, but also extends the theory to how speech information changes over time.

“Amplitude modulation, the temporal rhythm of speech, is critical for understanding speech,” he said. “We’re finding that if the competing sounds vary similarly to the rhythmic aspects of speech, it can make speech understanding difficult. If we separate out these properties so that noise is varying at a faster or slower rate, then people are better able to glimpse or extract information.”

Fogerty’s primary research populations are individuals who have mild or moderate hearing loss as well as individuals who are aging with the typical sensory and cognitive changes that occur but without dementia or significant cognitive decline. He also tests college-age individuals so that effects related to aging or hearing loss are clearer. One thing he notes is important to remember is that being older doesn’t always mean performing more poorly on speech understanding tasks.

“We have a lot of older adults who do just as well or better than college students on some tasks,” he said. “That’s important for us because we want to know what is preserving their ability to understand speech in noise. What strategies are they using that are particularly helpful?”

His research goals are to contribute to the design of better hearing devices, but also to address issues that might not have a technology solution.

“That’s why we’re so interested in finding out what the abilities are that people bring to the task of listening in noise, and whether certain skills can be sharpened through training,” he said.

The Physiology Behind it All

From animal and human studies, we know that when sound enters the ear, the brain has the ability to fine tune the sound by controlling how the middle and inner ear responds. Animal studies have shown that these responses can help encode sounds in background noise. 

Ian Mertes is studying these top-down mechanisms in young adults with normal hearing to determine if they also help humans understand speech in noise. Both mechanisms rely on the brain stem. One mechanism contracts a muscle, which pulls on a bone of the middle ear, affecting how noise is transmitted through the auditory system. It can reduce the noise. The brain stem also can change how the inner ear amplifies sound, which also can turn down noise. 

“I’m looking at how these two mechanisms, which are reflexes, work together,” Mertes said. “They may work at different frequency regions, the lower frequencies or pitches and the middle frequencies or pitches. Working together, they may help people hear in background noise.”

Using otoacoustic emissions, a clinical audiology test of inner ear function, his studies have shown the physiological mechanisms are correlated with the ability to understand speech in noise. But, he said, it’s complicated.

“It can depend on how we do the physiological measurement, the types of sounds we present to the ears, and the speech perception task,” he said. His current focus on individuals without hearing problems gives him the “best look” at normally functioning auditory systems. “They have the most robust physiological responses and are able to participate in the perceptual tasks, and that can help me create a good template for adapting those measurements when I extend my work to clinical populations.”

Working with Vanderbilt University colleague Ben Hornsby, an associate professor of hearing and speech sciences, Mertes also plans to add another auditory concept called listening effort to the physiological picture of understanding speech in noise. Do individuals with weak top-down reflexes have to put more effort into completing speech perception tasks? What are the consequences of this additional effort?

The in-depth knowledge Mertes is gaining through his research may help explain why some young adults with clinically normal hearing report having difficulty hearing in background noise, another area of interest to him.

Summing up what he hopes will be the outcome of his research program, he said, “I’d ultimately like to make a significant contribution to treatment—strengthening auditory reflexes or simulating them in devices, increasing understanding of messages while reducing the effort it takes to reach that understanding.”

Related news

Department of Speech and Hearing Science
901 South Sixth Street
M/C 482
Champaign, IL 61820
217-333-2230