BACKGROUND: Nonlinear frequency compression (NFC) can improve the audibility of high-frequency sounds by lowering them to a frequency where audibility is better; however, this lowering results in spectral distortion. Consequently, performance is a combination of the effects of increased access to high-frequency sounds and the detrimental effects of spectral distortion. Previous work has demonstrated positive benefits of NFC on speech recognition when NFC is set to improve audibility while minimizing distortion. However, the extent to which NFC impacts listening effort is not well understood, especially for children with sensorineural hearing loss (SNHL). PURPOSE: To examine the impact of NFC on recognition and listening effort for speech in adults and children with SNHL. RESEARCH DESIGN: Within-subject, quasi-experimental study. Participants listened to amplified nonsense words that were (1) frequency-lowered using NFC, (2) low-pass filtered at 5 kHz to simulate the restricted bandwidth (RBW) of conventional hearing aid processing, or (3) low-pass filtered at 10 kHz to simulate extended bandwidth (EBW) amplification. STUDY SAMPLE: Fourteen children (8-16 yr) and 14 adults (19-65 yr) with mild-to-severe SNHL. INTERVENTION: Participants listened to speech processed by a hearing aid simulator that amplified input signals to fit a prescriptive target fitting procedure. DATA COLLECTION AND ANALYSIS: Participants were blinded to the type of processing. Participants' responses to each nonsense word were analyzed for accuracy and verbal-response time (VRT; listening effort). A multivariate analysis of variance and linear mixed model were used to determine the effect of hearing-aid signal processing on nonsense word recognition and VRT. RESULTS: Both children and adults identified the nonsense words and initial consonants better with EBW and NFC than with RBW. The type of processing did not affect the identification of the vowels or final consonants. There was no effect of age on recognition of the nonsense words, initial consonants, medial vowels, or final consonants. VRT did not change significantly with the type of processing or age. CONCLUSION: Both adults and children demonstrated improved speech recognition with access to the high-frequency sounds in speech. Listening effort as measured by VRT was not affected by access to high-frequency sounds. American Academy of Audiology
BACKGROUND: Nonlinear frequency compression (NFC) can improve the audibility of high-frequency sounds by lowering them to a frequency where audibility is better; however, this lowering results in spectral distortion. Consequently, performance is a combination of the effects of increased access to high-frequency sounds and the detrimental effects of spectral distortion. Previous work has demonstrated positive benefits of NFC on speech recognition when NFC is set to improve audibility while minimizing distortion. However, the extent to which NFC impacts listening effort is not well understood, especially for children with sensorineural hearing loss (SNHL). PURPOSE: To examine the impact of NFC on recognition and listening effort for speech in adults and children with SNHL. RESEARCH DESIGN: Within-subject, quasi-experimental study. Participants listened to amplified nonsense words that were (1) frequency-lowered using NFC, (2) low-pass filtered at 5 kHz to simulate the restricted bandwidth (RBW) of conventional hearing aid processing, or (3) low-pass filtered at 10 kHz to simulate extended bandwidth (EBW) amplification. STUDY SAMPLE: Fourteen children (8-16 yr) and 14 adults (19-65 yr) with mild-to-severe SNHL. INTERVENTION: Participants listened to speech processed by a hearing aid simulator that amplified input signals to fit a prescriptive target fitting procedure. DATA COLLECTION AND ANALYSIS: Participants were blinded to the type of processing. Participants' responses to each nonsense word were analyzed for accuracy and verbal-response time (VRT; listening effort). A multivariate analysis of variance and linear mixed model were used to determine the effect of hearing-aid signal processing on nonsense word recognition and VRT. RESULTS: Both children and adults identified the nonsense words and initial consonants better with EBW and NFC than with RBW. The type of processing did not affect the identification of the vowels or final consonants. There was no effect of age on recognition of the nonsense words, initial consonants, medial vowels, or final consonants. VRT did not change significantly with the type of processing or age. CONCLUSION: Both adults and children demonstrated improved speech recognition with access to the high-frequency sounds in speech. Listening effort as measured by VRT was not affected by access to high-frequency sounds. American Academy of Audiology
Authors: M Kathleen Pichora-Fuller; Sophia E Kramer; Mark A Eckert; Brent Edwards; Benjamin W Y Hornsby; Larry E Humes; Ulrike Lemke; Thomas Lunner; Mohan Matthen; Carol L Mackersie; Graham Naylor; Natalie A Phillips; Michael Richter; Mary Rudner; Mitchell S Sommers; Kelly L Tremblay; Arthur Wingfield Journal: Ear Hear Date: 2016 Jul-Aug Impact factor: 3.570
Authors: Jace Wolfe; Andrew John; Erin Schafer; Mary Hudson; Michael Boretzki; Susan Scollie; Whitney Woods; Julie Wheeler; Krystal Hudgens; Sara Neumann Journal: Int J Audiol Date: 2015-03 Impact factor: 2.117
Authors: Melissa Kokx-Ryan; Julie Cohen; Mary T Cord; Therese C Walden; Matthew J Makashay; Benjamin M Sheffield; Douglas S Brungart Journal: J Am Acad Audiol Date: 2015 Nov-Dec Impact factor: 1.664
Authors: Erin M Lopez; Margaret T Dillon; Lisa R Park; Meredith A Rooth; Margaret E Richter; Nicholas J Thompson; Brendan P O'Connell; Harold C Pillsbury; Kevin D Brown Journal: Otol Neurotol Date: 2021-10-01 Impact factor: 2.619