Listening effort and working memory capacity in hearing impaired individuals: an integrative literature review

Guijo, Laura Mochiatti; Horiuti, Mirella Boaglio; Nardez, Taina Maiza Bilinski; Cardoso, Ana Cláudia Vieira

doi:10.1590/1982-021620182066618

ABSTRACT

Purpose:

to review the literature on the behavioral methods of listening effort assessment and the working memory capacity recommended for the hearing impaired.

Methods:

this review was developed through the search of articles in national and international journals, in English and Portuguese, available in Pubmed/Medline, Cochrane Library, Biblioteca Vitual em Saúde - Literatura Latino-Americana e do Caribe em Ciências da Saúde (LILACS) and Scientific Electronic Library Online, between 2007 and 2017. The articles were selected based on the inclusion criteria: articles that used behavioral methods to assess listening effort in hearing-impaired adults, involving the measurement of working memory and its relationship with the listening effort, published in the last 10 years.

Results:

Twelve articles in which behavioral measures were used to measure listening effort and working memory capacity in the hearing-impaired individuals were reviewed. Their main findings refer to the purpose(s) of the research, participants, behavioral method composed of a primary task (speech perception) and a secondary task (memorization) and results of the studies. Conclusion:the findings of this review allow us to infer that this paradigm is sensitive to measure the listening effort, considering the different instruments used and the population assessed.

Keywords:
Hearing Loss; Memory; Hearing Perception; Cognition

RESUMO

Objetivo:

revisar a literatura sobre os métodos comportamentais de avaliação do esforço auditivo e a capacidade de memória operacional recomendados para deficientes auditivos.

Métodos:

foi desenvolvida por meio da busca de artigos em periódicos nacionais e internacionais, em inglês e português, disponíveis na Pubmed/Medline, biblioteca Cochrane, Biblioteca Virtual em Saúde - Literatura Latino Americana e do Caribe em Ciências da Saúde e Scientific Electronic Library Online, entre 2007 e 2017. Os artigos foram selecionados a partir do cumprimento dos critérios de inclusão: artigos que empregassem métodos comportamentais, para a avaliação do esforço auditivo em adultos deficientes auditivos, que envolvesse a mensuração da memória operacional e sua relação com o esforço auditivo, publicados nos últimos 10 anos.

Resultados:

foram revisados 12 artigos no qual as medidas comportamentais foram empregadas para a mensuração do esforço auditivo e da capacidade de memória operacional em deficientes auditivos. Os principais achados dos artigos revisados se referem ao objetivo(s) da pesquisa, participantes, método comportamental empregado constituído por uma tarefa primária (percepção de fala) e uma tarefa secundária (memorização) e, resultados.

Conclusão:

os achados permitem inferir que este paradigma é sensível para mensurar o esforço auditivo, considerando os diferentes instrumentos empregados e população avaliada.

Descritores:
Perda Auditiva; Memória; Percepção Auditiva; Cognição

Introduction

In recent years, the number of studies, in the audiology field, which address the issue listening effort, has been growing. Authors report that there is still no consensus regarding the definition of listening effort, although it is often described as "the attention and cognitive resources necessary to understand speech", that is, it refers to the amount of perceptual, attentional and cognitive processing resources employed in the execution of a particular auditory task¹1. Fraser S, Gagné JP, Alenpis M, Dubois P. Evaluating the effort expended to understand speech in noise using a dual-task paradigm: the effects of providing visual speech cues. J Speech Lang Hear Res. 2010;53(1):18-33.

2. Picou EM, Ricketts TA, Hornsby BWY. Visual cues and listening effort: Individual variability. J Speech Lang Hear Res. 2011;54(5):1416-30.

3. Rudner M, Lunner T, Behrens T, Thorén ES, Ronnberg J. Working memory capacity may influence perceived effort during aided speech recognition in noise. J Am Acad Audiol. 2012;23(8):577-89.^-⁴4. McGarrigle R, Munro KJ, Dawes P, Stewart AJ, Moore DR, Barry JG et al. Listening effort and fatigue: what exactly are we measuring? A British Society of Audiology Cognition in Hearing Special Interest Group 'white paper'. Int J Audiol. 2014;53(7):433-40..

Due to this interest, many studies have been conducted with the purpose of improving the characterization of the listening effort and its assessment, mainly in the hearing-impaired population. The use of a reliable measure to assess this parameter would be invaluable in complementing the basic audiological assessment, as well as the speech perception tests performed in different listening conditions, silence and noise.

Authors claim that over the past two decades, the interest in auditory-cognitive interactions is of extreme relevance for hearing in general, and especially, for speech understanding in noise⁵5. Bregman AS. Auditory scene analysis: the perceptual organization of sound. MIT press, 1990.

6. McAdams S, Bigand E. Introduction to auditory cognition. In: Mcadams S, Bigand E (orgs). Thinking in sound: the cognitive psychology of human audition. Clarendon Press/Oxford University Press, 1993. p. 1-9.^-⁷7. Neuhoff JG. Introduction and History. In: Neuhoff JG. Ecological psychoacoustics. Elsevier Academic Press, 2004. p. 1-13.. Some authors used in their study tests for the assessment of central auditory processing, which to a certain extent, they assess the auditory-cognitive interactions, such as the Dichotic Digit Test, as speech material for the measurement of the objective listening effort, with the recording of heart rate, skin temperature and conductance, and electromyographic activity of normal hearing individuals⁸8. Mackersie CL, Cones H. Subjective and psychophysiological indexes of listening effort in a competing-talker task. J Am Acad Audiol. 2011;22(2):113-22..

Although the research production related to the listening effort has increased, the progress in this area has been difficult due to the lack of consensus among researchers about methods of measuring listening effort and its validity as a measurable construct. The theoretical foundations and clinical applicability regarding listening effort are still unclear due to the immaturity of the research field and to the fact that the studies that investigate it use a variety of methodological procedures, including self-report, behavioral and physiological measures³3. Rudner M, Lunner T, Behrens T, Thorén ES, Ronnberg J. Working memory capacity may influence perceived effort during aided speech recognition in noise. J Am Acad Audiol. 2012;23(8):577-89.^,⁴4. McGarrigle R, Munro KJ, Dawes P, Stewart AJ, Moore DR, Barry JG et al. Listening effort and fatigue: what exactly are we measuring? A British Society of Audiology Cognition in Hearing Special Interest Group 'white paper'. Int J Audiol. 2014;53(7):433-40.^,⁹9. Lemke U, Besser J. Cognitive load and listening effort: concepts and age-related considerations. Ear Hear. 2016;37(1):77-84..

The behavioral measures, also titled as a dual-task paradigm, have been widely used to measure listening effort¹⁰10. Wu YH, Aksan N, Rizzo M, Stangl E, Zhang X, Bentler R. Measuring listening effort: Driving simulator vs. simple dual-task paradigm. Ear Hear. 2014;35(6):623-32.^,¹¹11. Gosselin PA, Gagné JP. Use of a dual-task paradigm to measure listening effort. Can. J. Speech Lang. Pathol. Audiol. 2010;34(1):43-51.. These assessment measures of the listening effort refer to the accomplishment of a recognition task of primary speech that occurs simultaneously with a secondary task. The secondary tasks refer to the visual reaction time (e.g., observing a visual stimulus and pushing a button) or recall (e.g., memorizing the heard speech). The difficulty of the primary task is systematically varied (e.g., sentence recognition at different noise levels or pseudo-words/logatome recognition).

The alteration in the performance of the secondary task, in the different levels of difficulty of the primary task, reflects a change in the cognitive resources for the speech processing, that is, the listening effort. This interpretation assumes that the performance on both the primary and secondary tasks requires the allocation of some common cognitive resources for each task. As the cognitive resources are limited, then greater listening effort and more cognitive resources will be required to the performance of the primary task.

For hearing impaired individuals, as the differences in the scores obtained in the speech perception tests in the noise as the differences in identifying the listening effort in types and levels of distinct noises have been associated with their working memory levels¹²12. Rudner M, Lunner T. Cognitive spare capacity as a window on hearing aid benefit. Semin Hear. 2013;34(4):298-307.^,¹³13. Rudner M, Lunner T. Cognitive spare capacity and speech communication: a narrative overview. BioMed Research Internacional. vol. 2014, Article ID 869726, 10 pages, 2014. https://doi.org/10.1155/2014/869726.
https://doi.org/https://doi.org/10.1155/... .

The dual-task paradigms have been used not only to investigate the listening effort itself, but also to investigate the effect of age, that is, the comparison of auditory performance and the effort discharged by young and old individuals when performing a task with different levels of cognitive demand and different signal-to-noise ratios; the effect of hearing loss, that is, the comparison of auditory performance and the effort discharged by normal hearing individuals and those with hearing loss, usually from mild to moderate degree, when subjected to the dual-task paradigms also with manipulation of signal-to-noise ratios and amount of cognitive demand employed; the effect of visual cues, where the authors investigated the amount of listening effort employed in auditory perception tasks and in auditory and visual perception tasks¹⁴14. Larsby B, Hallgren M, Lyxell B, Alinger S. Cognitive performance and perceived effort in speech processing tasks: effects of different noise backgrounds in normal-hearing and hearing-impaired subjects. Int J Audiol. 2005;44(3):131-43.^,¹⁵15. Picou EM, Ricketts TA, Hornsby BW. How hearing AIDS, background noise, and visual cues influence objective listening effort. Ear Hear. 2013;34(5):52-64.; the amplification effect of the hearing aid¹⁵15. Picou EM, Ricketts TA, Hornsby BW. How hearing AIDS, background noise, and visual cues influence objective listening effort. Ear Hear. 2013;34(5):52-64.

16. Downs DW. Effects of hearing aid use on speech discrimination and listening effort. J. Speech Hear Disord. 1982;47(2):189-93.

17. Gatehouse S, Gordon J. Response times to speech stimuli as measures of benefit from amplification. Brit. J. Aud. 1990;24(1):63-8.

18. Hällgren M, Larsby B, Lyxell B, Arlinger S. Speech understanding in quiet and noise, with and without hearing aids: Comprensión del lenguaje en silencio y con ruido, con y sin auxiliaries auditivos. Int J. Aud. 2005;44(10):574-83.^-¹⁹19. Hornsby BWY. The effects of hearing aid use on listening effort and mental fatigue associated with sustained speech processing demands. Ear Hear. 2013;34(5):523-34., in which the noise reduction algorithms²⁰20. Sarampalis A, Kalluri S, Edwards B. Objective measures of listening effort: effects of background noise and noise reduction. J. Speech Lang Hear Res. 2009;52(5):1230-40.

21. Pittman A. Children's performance in complex listening conditions: effects of hearing loss and digital noise reduction. J. Speech Lang Hear Res. 2011;54(4):1224-39.

22. Ng EH, Rudner M, Lunner T, Pedersen MS, Ronnberg J. Effects of noise and working memory capacity on memory processing of speech for hearing-aid users. Int J. Aud. 2013;52(7):433-41.^-²³23. Desjardins JL, Doherty KA. The effect of hearing aid noise reduction on listening effort in hearing-impaired adults. Ear Hear. 2014;35(6):600-10. have reduced the listening effort performed in an attempt to understand speech in everyday situations and in assessment. However, in the national literature, no studies were found that addressed this topic.

Therefore, the purpose of this study was to review the scientific literature regarding the behavioral methods for the listening effort assessment and the working memory capacity recommended for the hearing-impaired individuals. It is known that a more accurate understanding of how the different factors, such as the presence of hearing loss, the decrease in functionality caused by the aging process, the different speech stimuli used to measure the listening effort, in relation to the familiarity of the patient/participant with the speech stimulus at the time of the assessment, the use of hearing aids with activated noise reduction algorithms, which interact to measure this effort, through behavioral methods can provide support to the intervention processes of hearing impaired patients with the aim of providing an improvement in the quality of life, especially in those who present cognitive decline due to the aging process.

Methods

This literature review was developed through the search of articles in specialized national and international journals, both in English and in Portuguese languages, available in the following databases: US National Library of Medicine National Institutes of Health (PUBMED), Cochrane Library, Biblioteca Vitual em Saúde - Literatura Latino-Americana e do Caribe em Ciências da Saúde (LILACS) and Scientific Electronic Library Online (SCIELO).

The guiding question for the review was: "What instruments are used to assess listening effort and working memory capacity in a dual-task paradigm?". In order to obtain answers to this questioning, the research was carried out in stages, being the first the search of articles, in the mentioned databases, in a specific way in each database.

In order to collect the articles, the terms related to the "listening effort" were determined, found in the Descriptors in Health Sciences (Descritores em Ciências da Saúde - DeCS), in the Medical Subject Headings (MeSH) and, keywords related to the topic, combined with the use of the Boolean operators AND and OR. The terms chosen for the search were used in an isolated and crossed way (Figure 1). In all searches the "year of publication" and "word" filters were used.

Figure 1:
Relation of words and descriptors of topics used in the literature search

Initially, the inclusion or exclusion of articles was based on the information contained in the title and the abstract, but if this information was not conclusive, the article was read to fulfill the following inclusion criteria: articles that used behavioral methods, also called dual-task paradigm, to assess listening effort in hearing impaired adults, which involved the measurement of working memory and its relation to listening effort, published in the last 10 years, from 2007 to 2017. As exclusion criteria, articles about listening effort that included investigations with self-report and psychophysiological methods, studies about listening effort assessment in populations without hearing loss, studies associated with hearing loss in children, articles for which only the abstract was available and, articles of literature review.

The analysis of the studies was initially carried out by reading the titles and abstracts, followed by a complete reading of the articles that fit the selection criteria. Each article was evaluated by one of the authors and, in case of uncertainty, there was a consensus among all authors in relation to the inclusion of the article.

The publications that were classified as eligible for this review, were read by at least one of the authors in order to extract the following information: authors and purpose of the research, participants, behavioral method used to evaluate primary task; behavioral method used to evaluate secondary task and, results of the studies. The mentioned characteristics of the selected studies were organized in a figure.

For the organization of the data, the articles that resulted from each crossed term were computed, which were repeated in relation to the previous search and that were related to the present study.

Literature Review

Nine hundred-eighty articles were found from the search carried out in the PUBMED/MEDLINE, Cochrane Library, LILACS and SCIELO databases, and each article had been presented in one or more databases. The selection process of the studies included in this literature review is explained in Figure 2.

Figure 2:
Selection process of the articles for literature review

In the reading of the abstracts of these articles, those that had previously been selected in other databases, those that did not fit the inclusion criteria, and the journals to which complete articles were not available during the search period. From this total, the abstracts were read, and 101 articles were selected. Of these, 29 articles were discarded because they did not include the inclusion criteria, 14 due to the unavailability of the complete texts, and 44 due to the duplicity in the consulted databases. After this detailed analysis, 12 articles were selected that met the established criteria for this review.

The synthesis of the articles, regarding the listening effort assessment and the working memory capacity, is presented in Figure 3.

Figure 3:
Synthesis of published articles in which the behavioral method was used to measure listening effort and working memory of hearing impaired individuals (n = 12)

The current article presents an overview of studies that used dual-task paradigms to assess the listening effort and the working memory capacity.

The purpose of this study was to describe the previous publications to provide an overview of the researches developed up to now, since the behavioral methods used to measure the listening effort are still little studied in the field of audiological research due to the viability and reliability of this method when compared to the assessment methods by means of the self-report of patients and also to the cost-benefit when compared to the psychophysiological assessment methods.

Specifically, this review aimed to describe the wide variety of methodological approaches that have been applied, especially the abundance of secondary tasks that use the working memory capacity to measure listening effort and; provide a broad summary of the results obtained.

Based on the analyzed studies, it was possible to infer that individuals who present some degree of hearing loss will dispense higher listening effort during the accomplishment of the dual-task paradigms²⁴24. Tun PA, McCoy S, Wingfield A. Aging, hearing acuity, and the attentional costs of effortful listening. Psychol Aging. 2009;24(3):761-6., due to the audibility reduction and possible speech comprehension difficulties due to the injury of the peripheral and/or central auditory system. The relevance of investigation of the listening effort is intrinsically related to the complaints presented by hearing impaired patients, users or non-users of hearing aids, associated with reports of fatigue in speech comprehension situations, mainly in noise, or when the message is not familiar. Since only the auditory threshold measurement is not a good predictor in cases in which patients have difficulty understanding speech, because it portrays the auditory sensitivity and not the listening effort²⁴24. Tun PA, McCoy S, Wingfield A. Aging, hearing acuity, and the attentional costs of effortful listening. Psychol Aging. 2009;24(3):761-6.^,²⁸28. Benichov J, Cox LC, Tun PA, Wingfield A. Word recognition within a linguistic context: Effects of age, hearing acuity, verbal ability and cognitive function. Ear Hear. 2012;32(2):250-6..

In the reviewed articles it is evident that the decline with age is related to the reduction of the working memory capacity, in this way, the older the individual, both the listener and the hearing-impaired individual, the lower their working memory capacity, and consequently the higher will be the listening effort dispended on speech comprehension tasks²⁵25. Humes LE, Coughlin M. Aided speech-identification performance in single-talker competition by older adults with impaired hearing. Scand J Psychol. 2009;50(5):485-94.

26. Stewart R, Wingfield A. Hearing loss and cognitive effort in older adults' report accuracy for verbal materials. J. Am Acad of Aud. 2009;20(2):147-54.

27. Piquado T, Benichov JI, Brownell H, Wingfield A. The hidden effect of hearing acuity on speech recall, and compensatory effects of self-paced listening. Int J. Aud. 2012;51(8):576-83.

28. Benichov J, Cox LC, Tun PA, Wingfield A. Word recognition within a linguistic context: Effects of age, hearing acuity, verbal ability and cognitive function. Ear Hear. 2012;32(2):250-6.^-²⁹29. Desjardins JL, Doherty KA. Age-related changes in listening effort for various types of masker noises. Ear Hear. 2013;34(3):261-72.. The hypothesis is that listeners with lower working memory capacity are more susceptible to the effects of background noise applied in tests that assess the listening effort³3. Rudner M, Lunner T, Behrens T, Thorén ES, Ronnberg J. Working memory capacity may influence perceived effort during aided speech recognition in noise. J Am Acad Audiol. 2012;23(8):577-89.^,²⁶26. Stewart R, Wingfield A. Hearing loss and cognitive effort in older adults' report accuracy for verbal materials. J. Am Acad of Aud. 2009;20(2):147-54.^,²⁷27. Piquado T, Benichov JI, Brownell H, Wingfield A. The hidden effect of hearing acuity on speech recall, and compensatory effects of self-paced listening. Int J. Aud. 2012;51(8):576-83..

In clinical contexts, speech comprehension is typically measured by the application of speech perception tests, calculating the proportion of correctly identified words under a particular listening condition, such as silence or noise, and the listening effort is an indirectly underestimated aspect. However, some authors³³33. Kramer SE, Kapteyn TS, Houtgast T. Occupational performance: comparing normally-hearing and hearing-impaired employees using the Amsterdam checklist for hearing and work. Int J Audiol. 2006;45(9):503-12. have proved that in individuals with hearing loss, users or non-users of electronic hearing devices, the recognition and understanding task of the acoustic signals is usually exhaustive, which justifies the assessment of this effort for the adequacy of the selection and adaptation process of hearing aids.

Other significant aspect is the influence of the speech stimulus complexity used in the dual-task and the different signal-to-noise ratios, both in the amount of listening effort and in the individual cognitive capacity, that is, in the working memory dispensed for the performance of the dual-task³3. Rudner M, Lunner T, Behrens T, Thorén ES, Ronnberg J. Working memory capacity may influence perceived effort during aided speech recognition in noise. J Am Acad Audiol. 2012;23(8):577-89.^,²⁶26. Stewart R, Wingfield A. Hearing loss and cognitive effort in older adults' report accuracy for verbal materials. J. Am Acad of Aud. 2009;20(2):147-54.^,²⁷27. Piquado T, Benichov JI, Brownell H, Wingfield A. The hidden effect of hearing acuity on speech recall, and compensatory effects of self-paced listening. Int J. Aud. 2012;51(8):576-83. and for the speech perception tests²⁸28. Benichov J, Cox LC, Tun PA, Wingfield A. Word recognition within a linguistic context: Effects of age, hearing acuity, verbal ability and cognitive function. Ear Hear. 2012;32(2):250-6..

Authors have also demonstrated that in the fitting process of hearing aids, the noise reduction and non-linear frequency compression algorithms can reduce the listening effort employed as for the performance of the dual-task and as for the comprehension of the spoken message¹⁵15. Picou EM, Ricketts TA, Hornsby BW. How hearing AIDS, background noise, and visual cues influence objective listening effort. Ear Hear. 2013;34(5):52-64.^,²³23. Desjardins JL, Doherty KA. The effect of hearing aid noise reduction on listening effort in hearing-impaired adults. Ear Hear. 2014;35(6):600-10.^,³²32. Shehorn J, Marrone N, Muller T. Speech perception in noise and listening effort of older adults with non-linear frequency compression hearing aids. Ear Hear. 2018;39(2):215-25.. Although these aspects are used to reduce the listening effort during daily speech perception, little is known about techniques or therapeutic approaches to promote the reduction of this effort in the hearing-impaired individuals.

This literature review allows to highlight that the dual-task paradigm is an experimental procedure that seems to be sensitive to a series of differences in experimental conditions, both in the various groups of participants and intra-groups, and for this reason, systematic evaluations of the paradigms are needed to make decisions in relation to the study designs.

This analysis also revealed the lack of national studies that measure listening effort, especially with the use of dual-task paradigms. Given the importance of the cognitive processes involved in the speech perception process, it would be of great relevance to continuity of the investigations that contribute to the development of a clinical procedure that allows quantifying the listening effort in order to benefit the hearing-impaired individuals in the speech comprehension process in daily listening situations.

In summary, the present review may foster the interest of researchers in the listening effort measurement, through behavioral measures, especially the dual-task experimental paradigms.

Conclusion

This study presents a literature review on the behavioral methods of listening effort assessment, titled dual-task paradigms, and its relationship with working memory capacity in the hearing-impaired individuals, between 2007 and 2017. The findings of this review allow us to infer that the different behavioral methods used seem to be sensitive to a series of experimental conditions, such as: age of the participants, degree of hearing loss, type of noise used, type of speech stimulus used, memory capacity and hearing aids algorithms.

REFERENCES

¹
Fraser S, Gagné JP, Alenpis M, Dubois P. Evaluating the effort expended to understand speech in noise using a dual-task paradigm: the effects of providing visual speech cues. J Speech Lang Hear Res. 2010;53(1):18-33.
²
Picou EM, Ricketts TA, Hornsby BWY. Visual cues and listening effort: Individual variability. J Speech Lang Hear Res. 2011;54(5):1416-30.
³
Rudner M, Lunner T, Behrens T, Thorén ES, Ronnberg J. Working memory capacity may influence perceived effort during aided speech recognition in noise. J Am Acad Audiol. 2012;23(8):577-89.
⁴
McGarrigle R, Munro KJ, Dawes P, Stewart AJ, Moore DR, Barry JG et al. Listening effort and fatigue: what exactly are we measuring? A British Society of Audiology Cognition in Hearing Special Interest Group 'white paper'. Int J Audiol. 2014;53(7):433-40.
⁵
Bregman AS. Auditory scene analysis: the perceptual organization of sound. MIT press, 1990.
⁶
McAdams S, Bigand E. Introduction to auditory cognition. In: Mcadams S, Bigand E (orgs). Thinking in sound: the cognitive psychology of human audition. Clarendon Press/Oxford University Press, 1993. p. 1-9.
⁷
Neuhoff JG. Introduction and History. In: Neuhoff JG. Ecological psychoacoustics. Elsevier Academic Press, 2004. p. 1-13.
⁸
Mackersie CL, Cones H. Subjective and psychophysiological indexes of listening effort in a competing-talker task. J Am Acad Audiol. 2011;22(2):113-22.
⁹
Lemke U, Besser J. Cognitive load and listening effort: concepts and age-related considerations. Ear Hear. 2016;37(1):77-84.
¹⁰
Wu YH, Aksan N, Rizzo M, Stangl E, Zhang X, Bentler R. Measuring listening effort: Driving simulator vs. simple dual-task paradigm. Ear Hear. 2014;35(6):623-32.
¹¹
Gosselin PA, Gagné JP. Use of a dual-task paradigm to measure listening effort. Can. J. Speech Lang. Pathol. Audiol. 2010;34(1):43-51.
¹²
Rudner M, Lunner T. Cognitive spare capacity as a window on hearing aid benefit. Semin Hear. 2013;34(4):298-307.
¹³
Rudner M, Lunner T. Cognitive spare capacity and speech communication: a narrative overview. BioMed Research Internacional. vol. 2014, Article ID 869726, 10 pages, 2014. https://doi.org/10.1155/2014/869726.
» https://doi.org/https://doi.org/10.1155/2014/869726
¹⁴
Larsby B, Hallgren M, Lyxell B, Alinger S. Cognitive performance and perceived effort in speech processing tasks: effects of different noise backgrounds in normal-hearing and hearing-impaired subjects. Int J Audiol. 2005;44(3):131-43.
¹⁵
Picou EM, Ricketts TA, Hornsby BW. How hearing AIDS, background noise, and visual cues influence objective listening effort. Ear Hear. 2013;34(5):52-64.
¹⁶
Downs DW. Effects of hearing aid use on speech discrimination and listening effort. J. Speech Hear Disord. 1982;47(2):189-93.
¹⁷
Gatehouse S, Gordon J. Response times to speech stimuli as measures of benefit from amplification. Brit. J. Aud. 1990;24(1):63-8.
¹⁸
Hällgren M, Larsby B, Lyxell B, Arlinger S. Speech understanding in quiet and noise, with and without hearing aids: Comprensión del lenguaje en silencio y con ruido, con y sin auxiliaries auditivos. Int J. Aud. 2005;44(10):574-83.
¹⁹
Hornsby BWY. The effects of hearing aid use on listening effort and mental fatigue associated with sustained speech processing demands. Ear Hear. 2013;34(5):523-34.
²⁰
Sarampalis A, Kalluri S, Edwards B. Objective measures of listening effort: effects of background noise and noise reduction. J. Speech Lang Hear Res. 2009;52(5):1230-40.
²¹
Pittman A. Children's performance in complex listening conditions: effects of hearing loss and digital noise reduction. J. Speech Lang Hear Res. 2011;54(4):1224-39.
²²
Ng EH, Rudner M, Lunner T, Pedersen MS, Ronnberg J. Effects of noise and working memory capacity on memory processing of speech for hearing-aid users. Int J. Aud. 2013;52(7):433-41.
²³
Desjardins JL, Doherty KA. The effect of hearing aid noise reduction on listening effort in hearing-impaired adults. Ear Hear. 2014;35(6):600-10.
²⁴
Tun PA, McCoy S, Wingfield A. Aging, hearing acuity, and the attentional costs of effortful listening. Psychol Aging. 2009;24(3):761-6.
²⁵
Humes LE, Coughlin M. Aided speech-identification performance in single-talker competition by older adults with impaired hearing. Scand J Psychol. 2009;50(5):485-94.
²⁶
Stewart R, Wingfield A. Hearing loss and cognitive effort in older adults' report accuracy for verbal materials. J. Am Acad of Aud. 2009;20(2):147-54.
²⁷
Piquado T, Benichov JI, Brownell H, Wingfield A. The hidden effect of hearing acuity on speech recall, and compensatory effects of self-paced listening. Int J. Aud. 2012;51(8):576-83.
²⁸
Benichov J, Cox LC, Tun PA, Wingfield A. Word recognition within a linguistic context: Effects of age, hearing acuity, verbal ability and cognitive function. Ear Hear. 2012;32(2):250-6.
²⁹
Desjardins JL, Doherty KA. Age-related changes in listening effort for various types of masker noises. Ear Hear. 2013;34(3):261-72.
³⁰
Heinrich A, Henshaw H, Ferguson MA. Only behavioral but not self-report measures of speech perception correlate with cognitive abilities. Front. Psychol. 2016;7:576.
³¹
Bieber RE, Gordon-Salant S. Adaptation to novel foreign-accented speech and retention of benefit following training: Influence of aging and hearing loss. J. Acoust. Soc Am. 2017;141(4):2800-11.
³²
Shehorn J, Marrone N, Muller T. Speech perception in noise and listening effort of older adults with non-linear frequency compression hearing aids. Ear Hear. 2018;39(2):215-25.
³³
Kramer SE, Kapteyn TS, Houtgast T. Occupational performance: comparing normally-hearing and hearing-impaired employees using the Amsterdam checklist for hearing and work. Int J Audiol. 2006;45(9):503-12.

1
Study carried out at the Course of Speech-Language Pathology and Audiology, Faculdade de Filosofia e Ciências, Universidade Estadual Paulista “Júlio de Mesquita Filho” - UNESP - Marília (SP), Brasil.

Publication Dates

Publication in this collection
Nov-Dec 2018

History

Received
19 Apr 2018
Accepted
26 Sept 2018

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Fraser S, Gagné JP, Alenpis M, Dubois P. Evaluating the effort expended to understand speech in noise using a dual-task paradigm: the effects of providing visual speech cues. J Speech Lang Hear Res. 2010;53(1):18-33.

[2] ²
Picou EM, Ricketts TA, Hornsby BWY. Visual cues and listening effort: Individual variability. J Speech Lang Hear Res. 2011;54(5):1416-30.

[3] ³
Rudner M, Lunner T, Behrens T, Thorén ES, Ronnberg J. Working memory capacity may influence perceived effort during aided speech recognition in noise. J Am Acad Audiol. 2012;23(8):577-89.

[4] ⁴
McGarrigle R, Munro KJ, Dawes P, Stewart AJ, Moore DR, Barry JG et al. Listening effort and fatigue: what exactly are we measuring? A British Society of Audiology Cognition in Hearing Special Interest Group 'white paper'. Int J Audiol. 2014;53(7):433-40.

[5] ⁵
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