Optimizing Speech Recognition and Cognitive Outcomes for Older Cochlear Implant Users
Overview
- Phase
- N/A
- Intervention
- Not specified
- Conditions
- Hearing Loss
- Sponsor
- Gallaudet University
- Enrollment
- 30
- Locations
- 3
- Primary Endpoint
- Neural Response to sound Electrophysological response to sound.
- Status
- Recruiting
- Last Updated
- 7 months ago
Overview
Brief Summary
The proposed study will investigate whether an auditory brain training program can improve cochlear implant (CI) outcomes in older post-lingually deafened CI users. The study will evaluate the potential benefit of training on speech recognition performance, psychosocial and cognitive function.
Detailed Description
Optimizing Speech Recognition and Cognitive Outcomes for Older Cochlear Implant Users with Auditory-Brain Training is evaluating the performance of older cochlear implant users completing a customized auditory-cognitive brain training program. The goal is to determine the effectiveness of training based on speech recognition, neural responses, cognitive, and psychosocial function. Successful training could result in improved outcomes for communication and cognition, new client-centered care models, and better consumer access to effective training. Specifically, investigators will assess two training programs to determine whether participants can improve speech understanding and speed, attention and memory, and communication in daily life. Thirty participants will be randomly assigned to one of two treatment groups: auditory-brain training or non-auditory brain training. Participants will complete two hours of training online at home or office. Participants will meet virtually with a clinician weekly to discuss progress.The study will help determine the best training methods for older adult cochlear implant users.
Investigators
Diane Brewer
C0-Principal Investigator
Gallaudet University
Eligibility Criteria
Inclusion Criteria
- •60 years of age and over;
- •Between 3 months and 3 years post cochlear implant activation;
- •Passing score an cognitive screener (Callahan et al, 2002);
- •Speech recognition scores on AZBio between 10% and 85%.
Exclusion Criteria
- •Single-sided deafness
- •Non-fluent English
Outcomes
Primary Outcomes
Neural Response to sound Electrophysological response to sound.
Time Frame: Change in amplitude and latency scores at 1-week post training. Change from baseline at 2 months post training
Electrophysiological response to measure brain's electrical activity to sounds. Latency and amplitude changes recorded. Increased amplitude and reduced latency are better.
Cochlear Implant Quality of Life (CIQOL) McRacken,T (2019) McRackan T, Hand B; Velozo CA, Dubno J. (2019) Cochlear Implant Quality of Life (CIQOL)(CIQOL-10 Global). J Speech Lang Hear Res. 62(9
Time Frame: Change from baseline CIQOL score at one-week post training. Change from baseline CIQOL score at 2 months post training.
Questionnaire measuring quality of life with hearing loss. Scores 1-5; higher is better
Client Orientated Scale of Improvement (COSI) Dillon H, James A , Ginis J, et al.(1997)
Time Frame: Change from baseline COSI score at one-week post training. Change from baseline COSI score at 2 months post training.
Questionnaire rating for hearing ability pre and post treatment 10-95%; higher is better
Revised Hearing Handicap Inventory and Screening Tool based on Psychometric Reevaluation of the Hearing Handicap Inventories for the Elderly and Adults (RHHI). Cassarly C, Matthews L, Simpson A et al.( 2020)
Time Frame: Change from baseline RHHI scores at 1-week post training. Change from baseline RHHI scores at 2 months post training.
Questionnaire to assess perceived hearing handicap associated with a hearing loss or effects of hearing loss on an individual's quality of life. Scores range from 0 to100 with 0-52 for emotional sub-scale and 0-48 for social-situational; lower scores are better.
Raven Progressive Matrices Test. (2009).
Time Frame: Change from baseline Raven Progressive Matrices Test score at one-week post training. Change from baseline Raven Progressive Matrices Test score at 2 months post training.
Test of nonverbal reasoning. Scores number matrices completed from 0-60 matrices; higher is better.
Repeatable Battery for the Assessment of Neuropsychological Status for Hearing Impaired Individuals (RBANS-H). Claes A, Mertens G, Gilles A et al. (2016).
Time Frame: Change from baseline Repeatable Battery for the Assessment of Neuropsychological Status (RBANS-H) scores at one-week post training. Change from RBANS-H baseline at 2 months.
Test of cognitive function adapted and normed for persons with hearing loss. Scores range from 40-160; higher is better.
Trail Making Test (TMT) Sánchez-Cubillo I, Periáñez JA, Adrover-Roig D, et al. (2009)
Time Frame: Change from baseline Trail Making Test scores at 1-week post training, at 2 months post training. at 2 months post training.
Test of cognitive abilities. Scores time to completion; lower is better.
AZBio Sentence Test (Spahr A, Dorman M, Gilles,A et al (2012)
Time Frame: Change from baseline AZBio Sentence Test scores at one-week post training. Change from baseline AZBio scores at 2 months post training.
Repeat sentences; % score of words repeated correctly; 0-100%; higher is better