PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2018 | 78 | 2 |

Tytuł artykułu

Influence of age on speech intelligibility in babble noise

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Problems with hearing aids, particularly with regard to speech intelligibility in the presence of noise, are commonly reported by older individuals in everyday practice. The main goal of this study was to measure differences in speech intelligibility between older and younger people and to establish how speech intelligibility in competitive noise differs between younger and older populations with similar hearing status. More than 400 persons were tested using the Czech Test of Sentence Intelligibility in Babble Noise and divided into younger (40–65 years) and older (66–85 years) age groups. Test performance was compared between age groups based on subgroups stratified by SRT values (speech reception threshold in word audiometry in silence). Results showed a significant correlation between older age and diminished sentence intelligibility in competitive noise. Evaluation using a nonparametric U‑test showed a statistical difference between the younger and older groups in sentence intelligibility, with a speech signal presented at 65 dB sound pressure level (SPL) and competitive babble noise also presented at 65 dB SPL. Increased difficulty in the use of hearing aids in older users is related, among other things, to a reduced ability to discriminate speech not only in silence but particularly in competitive variable noise due both to their aging auditory functions and to a diminished capacity to differentiate the time factors of sounds. It is probably connected with the diminished function of inhibitory neurons.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

78

Numer

2

Opis fizyczny

p.140-147,fig.,ref.

Twórcy

autor
  • Department of Phoniatrics, First Faculty of Medicine, Charles University, Prague, Czech Republic
  • General University Hospital in Prague, Prague, Czech Republic
autor
  • Department of Phoniatrics, First Faculty of Medicine, Charles University, Prague, Czech Republic
  • General University Hospital in Prague, Prague, Czech Republic
autor
  • Department of Phoniatrics, First Faculty of Medicine, Charles University, Prague, Czech Republic
  • General University Hospital in Prague, Prague, Czech Republic

Bibliografia

  • Bao Y, Fang Y, Yang T, Wang  L, Szymaszek A, Szelag E (2014) Auditory perception of temporal order: A comparison between tonal language speakers with and without non‑tonal language experiences. Acta Neu‑ robiol Exp 74: 98–103.
  • Benichov J, Cox LC, Tun PA, Wingfield A (2012) Word recognition within a linguistic context: effect of age, hearing acuity, verbal ability, and cog‑ nitive function. Ear Hear 33: 250–256.
  • Bent S, McShea L, Brennan S (2015) The importance of hearing: a review of the literature on hearing loss for older people with learning disabili‑ ties. Br J Learn Disabil 43: 277–284.
  • Burianová J, Ouda L, Syka J (2015) The influence of aging on the number of neurons and levels of non phosporylated neurofilament proteins in the central auditory system of rats. Front Aging Neurosci 7: 27.
  • Burianová J, Ouda L, Profant O, Syka J (2009) Age‑related changes in GAD levels in the central auditory system of the rat. Exp Gerontol 44: 161–169.
  • Caspary DM, Hughes LF, Ling LL (2013) Age‑related GABA(A) receptor changes in rat auditory cortex. Neurobiol Aging 34: 1486–1496.
  • Caspary DM, Ling L, Turner JG et al. (2008) Inhibitory transmission, plastici‑ ty and aging in the mammalian central auditory system. J Exp Biol 211: 1781–1791.
  • Caspary D, Milbrandt JC, Helfert RH (1995) Central auditory aging: GABA changes in the Inferior colliculus. Exp Gerontol 30: 349–360.
  • Dlouhá O, Vokřál J (2011) Test of sentence intelligibility in babble noise in persons with normal hearing. [in Czech] Otorinolaryngologie a foniatrie 60: 125–130.
  • Dlouhá O, Vokřál J, Černý L (2012) Test of sentence intelligibility in babble noise in persons with hearing disorder. [in Czech] Otorinolaryngologie a foniatrie 61: 240–244.
  • Doherty KA, Desjardins JL (2015) The benefit of amplification on auditory working memory function in middle‑aged and young‑older hearing im‑ paired adults. Front Psychol 6: 721.
  • Dubno JR (2015) Speech recognition across the life span: longitudinal changes from middle‑age to older adults. Am J Audiol 24: 84–87.
  • Eckert MA, Walczak A, Ahlstrom J, Denslow S, Horwitz A, Dubno JR (2008) Age‑related effects on word recognition: reliance on cognitive control systems with structural declines in speech‑responsive cortex. Journ As‑ soc Res Otolaryngol 9: 252–259.
  • Gopinath B, Schneider J, McMahon CM, Teber E, Leeder SR, Mitchell P (2012) Severity of age‑related hearing loss is associated with impaired activities of daily living. Age 41: 195–200.
  • Gordon‑Salant S (2005) Hearing loss and aging: New research findings and clinical implications. J Rehabil Res Dev 42: 9–24.
  • Hallgren M, Larsby B, Arlingen S (2006) A Sweedish version of the hearing in noise test (HINT) for measurement of speech recognition. Int J Audiol 45: 227–237.
  • Hesse G, Eichhorn S, Laubert A (2014) Hearing function and hearing loss in the elderly. HNO 62: 630–639.
  • Hesse G. (2004) Hearing aids and presbycusis. Why are old people so diffi‑ cult to provide for? HNO 52: 321–328.
  • Hock RA, Stark SW, Weiss MJ (2016) Cognitive changes of aging.  Salem Press Encyclopedia of Health, Jan 2016. Hoppe U, Hocke T, Müller A, Hast A (2016) Speech perception and information‑carrying capacity for hearing aid users of different ages. Audiology 21: 16–20.
  • Humes LE, Dubno JR (2010) Factors affecting speech understanding in older adults. In: Gordon‑Salant, S., Frisina, R.D., Popper, A,N. et al.: The aging auditory system. Springer, New York, 211–258.
  • Humes LE, Kidd GR, Fogerty D (2017) Exploring use of the coordinate response measure in a multitalker babble paradigm. J Speech Lang Hear Res 60: 741-754.
  • Hochmuth S, Kollmeier B, Brand T, Jurgens T (2015) Influence of noise type on speech reception thresholds across four languages measured with matrix sentence tests. Int J Audiol 54: 62–70.
  • Hutcherson RW, Dirks DD, Morgan DE (1979) Evaluation of the speech per‑ ception in noise (SPIN) test. Otolaryngol Head Neck Surg 87: 239–245.
  • Kilimann I, Teipel S, Óvari A, Hermann A, Witt G, Pau HW (2015) Hearing impairment and dementia. Z Gerontol Geriatr 48: 440–445.
  • Kirk KI, Pisoni DB, Miyamoto RC (1997) Effect of stimuli variability on speech perception in listeners with hearing impairment. J Speech Lang Hear Res 40: 1395–1405.
  • Kishon‑Rabin  L, Avivi‑Reich  M, Roth D (2013) Improved gap detection thresholds following auditory training: evidence of auditory plasticity in older adults. Am J Audiol 22: 343–346.
  • Kollmeier B (1992) Modern methods in speech audiometry. [in German], Median‑Verlag nach Killisch‑Horn GmbH, Heidelberg. Kollmeier B, Schadler MR, Warzybok A, Brand T, Meyer BT (2015) Modelling Matrix test intelligibility in normal and impaired listeners across languag‑ es using automatic speech recognition (ASR). J Int Adv Otol 11: 57–57.
  • Kolodziejczyk I, Szelag E (2008) Auditory perception of temporal order in centenarians in comparison with young and elderly subjects. Acta Neu‑ robiol Exp 68: 373–381.
  • Krishnamurthy N, Ikeno A, Hansen JHL (2008) Babble speech: acoustic and perceptual variability. Interspeech 2008: 9th annual conference of the International Speech Communication Association Vol. 1–5: 1040–1043.
  • Lin FR, YafFe K, Xia J, Xue QL, Harris TB, Purchase-Helzner E, Satterfield S, Ayonayon HN, Ferrucci L, Simonsick EM, Newman AB, Ives D, Elam J, Cummings SR, Nevitt MC, Rubin SM, Garcia ME (2013) Hearing Loss and Cognitive Decline Among Older Adults. JAMA Intern Med 173: 293–299.
  • Manrique‑Huarte R, Calavia D, Irujo AH, Girón  L, Manrique‑Rodríguez  M (2016) Treatment for hearing loss among the elderly: auditory outcomes and impact on quality of life. Audiology 21: 29–35.
  • McCormack A, Fortnum H (2013) Why do people fitted with hearing aids not wear them? Int J Audiol 52: 360–368.
  • Mills JH, Schmiedt RA, Schulte BA, Dubno JR (2006) Age‑related hear‑ ing‑loss: a loss of voltage, not hair cells. Semin Hear 27: 228–236.
  • Morrison JH, Hof PR (2002) Selective vulnerability of corticocortical and hippocampal circuits in aging and Alzheimer´s disease. Progr Brain Res 136: 467–486.
  • Oyelami T, Bondt A, den Wyngaert IV, Hoorde KV, Hoskens L, Shaban H, Kemp JA, Drinkenburg WH (2016) Age‑dependent concomitant changes in synaptic dysfunction and GABAergic pathway in the APP/PS1 mouse model. Acta Neurobiol Exp 76: 282–293.
  • Ozmeral EJ, Eddins AC, Frisina S, Eddins DA (2016) Regular article: Large cross‑sectional study of presbycusis reveals rapid progressive decline in auditory temporal acuity. Neurobiol Aging 43: 72–78
  • Pichora‑Fuller K, Schneider BA, Benson N, Hamstra S, Storzer E (2006) Effect of age on detection of gaps in speech and non‑speech mark‑ ers varying in duration and spectral symmetry. J Acoust Soc Am 119: 1143–1155.
  • Pichora‑Fuller K, Schneider BA, Daneman  M (1995) How young and old adults listen to and remember speech in noise. J Acoust Soc Am 97: 593–608.
  • Profant O, Balogová Z, Dezortová M (2013) Metabolic changes in the audi‑ tory cortex in presbycusis demonstrated by MR spectroscopy. Exp Ger‑ ontology 48: 795–800.
  • Rawool VW (2016) Auditory processing deficits: assessment and interven‑ tion. I. Title.: Thieme, New York. Roeser RJ (1996) Roeser´s Audiology Desk Reference. A guide to the prac‑ tice of audiology. Thieme, New York – Stuttgart. Seeman M et al. (1960) Czech word audiometry. (Česká slovní audiome‑ trie.) [in Czech] SZN, Praha. Sprinzl GM, Riechelmann H (2010) Current trends in treating hearing loss in elderly people: a review of the technology and treatment op‑ tions – a mini‑review. Gerontology 56: 351–358.
  • Stecker GC, Bowman GA, Yund EW, Herron TJ, Roup CM, Woods DL (2006) Perceptual training improves syllable identification in new and experi‑ enced hearing aid users. J Rehabil Res 43: 537–551.
  • Syka J (2010) The Fischer 344 rat as a model of presbycusis. Hear Res 264: 70–78.
  • Syka J (2016) Presbycusis. [in Czech] Otorinolaryngologie a  foniatrie 65: 211–220.
  • Tremblay K, Ross B (2007) Effects of age and age‑related hearing loss on the brain. J Commun Disord 40: 305–312.
  • Vokřál J, Dlouhá O (2009) The sentence intelligibility in different types of noise regarding people with a normal hearing ability. Prague Medical Report (Sborník lékařský) 110: 60–66.
  • Wagener KC, Brand T (2005) Sentence intelligibility in noise for listeners with normal hearing and hearing impairment: influence of measure‑ ment procedure and masking parameters. Int J Audiol 44: 144–156.
  • Walton JP (2010) Timing is everything. Hear Res 264: 63–69.
  • Warzybok A, Brand T, Wagener K, Kollmeier B (2015) How much does lan‑ guage proficiency by non‑native listeners influence speech audiometric tests in noise? Intlernational Journal of Audiology 54: 88–99.
  • Weinstein BE (2013) Geriatric Audiology. 2nd ed. New York: Thieme Medi‑ cal Publishers, p. 153–204.
  • Wilson RH, Carnel CS, Cleghorn AL (2007) The words‑in‑noise (WIN) test with multitalker babble and speech‑spectrum noise maskers. J Am Acad Audiol 18: 522–529.
  • Wilson RH, Cates WB (2008) A comparison of two word‑recognition tasks in multitalker babble: speech recognition in noise test (SPRINT) and words‑in‑noise test (WIN). J Am Acad Audiol 19: 548–556.
  • Wong PCM, Uppunda AK, Parish TB, et al. (2008) Cortical mechanisms of speech perception in noise. J Speech Lang Hear Res 51: 1026–1041.
  • Wong PCM, Jin JXM, Gunasekera GM, Abel R, Lee ER, Dhar S (2009) Aging and cortical mechanisms of speech perception in noise. Neuropsycho‑ logia 47: 693–703.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-2d41a187-3d3d-4956-bd25-b9d280de7f15
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.