老年人群的韵律感知

doi:10.3724/SP.J.1042.2022.00613

摘要/Abstract

摘要：

老龄化导致听觉系统、认知功能有所衰退。老年人群的言语理解能力减弱, 韵律信息解析存在困难。老年人对重音、语调、语速等语言韵律感知能力退化, 对情感韵律的加工也出现问题, 特别是消极情绪韵律加工减退较快。老年疾病进一步加深韵律加工难度, 韵律感知呈现出与特定疾病的相关性。未来研究需考察不同语言背景老年人群的韵律感知表现与机制、复杂交流环境的影响、韵律感知障碍对老年疾病的预测、韵律感知的早期干预与复健等问题。

关键词: 韵律感知, 老龄化, 老年疾病, 情绪

Abstract:

Prosody, which is defined as the variance in loudness or volume, changes in tempo or timing, and movement in pitch and intonation, plays an essential role in speech communication. The ability of speech communication, however, changes across the life span. It has been found that while word knowledge and syntactic processing during comprehension are largely preserved with aging, older individuals have deficits processing multiple acoustic cues about the intention and emotion of speakers, which can interfere with their perception of linguistic and affective prosodic cues, resulting in poor speech comprehension.

Older individuals have a diminished ability to decode linguistic prosody. They have difficulty processing pitch contour, word stress, intonation, and speeded utterances. Recent fMRI, ERPs, and EEG studies have demonstrated that younger and older individuals activate different brain regions or neural sensitivity in linguistic prosody perception. Furthermore, aging impairs older adults’ abilities to process affective prosody, particularly for the speech conveying negative emotions. Age has tremendous effects on the automatic encoding of emotional prosody, and there is a general decline in emotion recognition with aging.

Moreover, age-related diseases could have specific pathologic effects on prosody processing. Age-associated progressive deterioration of neuronal and physical functions affects older adults’ abilities to process time-frequency signals, especially for those with Parkinson’s disease, Alzheimer’s disease, and tinnitus. Studies on older individuals with age-related diseases have obtained significant findings regarding the brain regions involved in prosody processing. It has been observed that the superior temporal gyrus in the right hemisphere is predominantly linked to the processing of affective prosodic cues and that damage to the left hemisphere can result in similar deficits.

Overall, current studies have carried out extensive explorations on prosody perception by older individuals, with considerable attention to the effects of different first languages and complex auditory environments. However, we thought that more in-depth studies should be conducted on the following topics. First, further explorations are needed to examine prosody processing in older adults with Mandarin and other dialect backgrounds. Specifically, given that Chinese is a tonal language with many dialects, it is unknown whether differences in tone and dialect can influence older adults’ linguistic and affective prosody perception. Secondly, more studies might be carried out to clarify the effects of complex auditory environments on prosody perception in older individuals. Previous studies have examined the impact of several noise types, which are merely part of the challenging conditions in daily communication. It is important to reveal older individuals’ prosody perception in specific situations of context, such as doctor-patient scenarios and family scenarios that they constantly experience. Thirdly, it is imperative to deepen our understanding of neural mechanisms underlying perceptual performance in complex prosodic tasks. Considering that there has been a multitude of neurological research on older adults with age-related diseases, more attention needs to be paid to the neurological performance of their healthy counterparts. Fourthly, further studies might also focus on prosody processing difficulties associated with age-related diseases, as it is still difficult to determine to what extent impairments of prosody perception in daily communication can predict age-related diseases. Finally, special attention needs to be drawn to the early intervention and the rehabilitation of prosody perception impairments in older individuals. It is still uncertain to what extent older adults, especially those with age-related diseases, can maintain or recover their abilities for prosody perception. A corresponding key issue is how to develop effective training methods for Chinese prosody perception rehabilitation. To sum up, future studies are expected to apply interdisciplinary theories and methodologies to explore prosody perception in older adults, which is of both theoretical and practical significance.

Key words: prosody perception, aging effect, age-related diseases, emotions

中图分类号:

B844

赵信娴, 杨小虎. (2022). 老年人群的韵律感知. 心理科学进展 , 30(3), 613-621.

ZHAO Xinxian, YANG Xiaohu. (2022). Prosody perception in older adults. Advances in Psychological Science, 30(3), 613-621.

参考文献 78

[1]	雷震, 毕蓉, 莫李澄, 于文汶, 张丹丹. (2021). 外显和内隐情绪韵律感知的脑机制: 近红外成像研究. 心理学报, 53(1), 15-25.
[2]	廖庆燕. (2011). 情绪语义与情绪韵律感知自动性的老化效应 (硕士学位论文). 浙江师范大学, 金华.
[3]	林焘, 王理嘉. (2013). 语音学教程. 北京: 北京大学出版社.
[4]	汪玉霞, 杨小虎, 刘畅. (2019). 噪音背景下老龄化对汉语语音感知的影响. 语言文字应用, (1), 56-65.
[5]	肖容, 梁丹丹, 李善鹏. (2020). 汉语普通话声调感知的老年化效应: 来自ERP的证据. 心理学报, 52(1), 1-11.
[6]	Arroyo-Anlló, E. M., Dauphin, S., Fargeau, M. N., Ingrand, P., & Gil, R. (2019). Music and emotion in Alzheimer’s disease. Alzheimer’s Research & Therapy, 11, Article 69. https://doi.org/10.1186/S13195-019-0523-Y
[7]	Asgari, M., Kaye, J., & Dodge, H. (2017). Predicting mild cognitive impairment from spontaneous spoken utterances. Alzheimer’s & Dementia: Translational Research & Clinical Interventions, 3(2), 219-228.
[8]	Brosgole, L., & Weisman, J. (1995). Mood recognition across the ages. International Journal of Neuroscience, 82, 169-189. pmid: 7558648
[9]	Burk, M. H., Humes, L. E., Amos, N. E., & Strauser, L. E. (2006). Effect of training on word-recognition performance in noise for young normal-hearing and older hearing-impaired listeners. Ear and Hearing, 27(3), 263-278. doi: 10.1097/01.aud.0000215980.21158.a2 URL
[10]	Cadieux, N. L., & Greve, K. W. (1997). Emotion processing in Alzheimer’s disease. Journal of The International Neuropsychological Society, 3(5), 411-419. pmid: 9322399
[11]	Chintanpalli, A., Ahlstrom, J. B., & Dubno, J. R. (2016). Effects of age and hearing loss on concurrent vowel identification. Journal of the Acoustical Society of America, 140(6), 4142-4153. doi: 10.1121/1.4968781 URL
[12]	Christensen, J. A., Sis, J., Kulkarni, A. M., & Chatterjee, M. (2019). Effects of age and hearing loss on the recognition of emotions in speech. Ear and Hearing, 40(5), 1069-1083. doi: 10.1097/AUD.0000000000000694 pmid: 30614835
[13]	Cohen, E. S., & Brosgole, L. (1988). Visual and auditory affect recognition in senile and normal elderly persons. International Journal of Neuroscience, 43, 89-101. pmid: 3215737
[14]	Cooper, W. E., & Sorensen, J. M. (1981). Fundamental frequency in sentence production. Berlin: Springer-Verlag.
[15]	Cuda, D., Ghiselli, S., & Murri, A. (2021). Evaluation of the efficacy of hearing aids in older adults: A multiparametric longitudinal study protocol. BMC Age-relateds, 21(1), Article 107. https://doi.org/10.1186/S12877-021-02033-Z
[16]	Demenescu, L. R., Kato, Y., & Mathiak, K. (2015). Neural processing of emotional prosody across the adult lifespan. BioMed Research International, 2015, Article 590216. https://doi.org/10.1155/2015/590216
[17]	Dmitrieva, E. S., & Gel’man, V. I. (2011). Perception of emotional intonation of noisy speech signal with different acoustic parameters by adults of different age and gender. Zhurnal Vyssheĭ Nervnoĭ Deiatelnosti Imeni I P Pavlova, 61(3), 306-316.
[18]	Dupuis, K., & Pichora-Fuller, M. K. (2010). Use of affective prosody by young and older adults. Psychology and Aging, 25(1), 16-29. doi: 10.1037/a0018777 pmid: 20230124
[19]	Durai, M., O’Keeffe, M. G., & Searchfield, G. D. (2017). The personality profile of tinnitus sufferers and a nontinnitus control group. Journal of the American Academy of Audiology, 28(4), 271-282. doi: 10.3766/jaaa.15103 URL
[20]	Fairfield, B., Domenico, A. D., Serricchio, S., Borella, E., & Mammarella, N. (2017). Emotional prosody effects on verbal memory in older and younger adults. Aging Neuropsychology and Cognition, 24(4), 408-417. doi: 10.1080/13825585.2016.1219690 URL
[21]	Fairfield, B., Mammarella, N., Domenico, A. D., & Palumbo, R. (2015). Running with emotion: When affective content hampers working memory performance. International Journal of Psychology, 50(2), 161-164. doi: 10.1002/ijop.12101 pmid: 25236669
[22]	Gagnon, L., Peretz, I., & Fülöp, T. (2011). Musical structural determinants of emotional judgments in dementia of the Alzheimer type. Psychology of Popular Media Culture, 23(1), 90-97.
[23]	Garrido-Vásquez, P., Pell, M. D., Paulmann, S., Strecker, K., Schwarz, J., & Kotz, S. A. (2013). An ERP study of vocal emotion processing in asymmetric Parkinson’s disease. Social Cognitive and Affective Neuroscience, 8(8), 918-927. doi: 10.1093/scan/nss094 pmid: 22956665
[24]	Giroud, N., Keller, M., Hirsiger, S., Dellwo, V., & Meyer, M. (2019). Bridging the brain structure-brain function gap in prosodic speech processing in older adults. Neurobiology of Aging, 80, 116-126. doi: 10.1016/j.neurobiolaging.2019.04.017 URL
[25]	Giroud, N., Lemke, U., Reich, P., Matthes, K. L., & Meyer, M. (2017). The impact of hearing aids and age-related hearing loss on auditory plasticity across three months - An electrical neuroimaging study. Hearing Research, 353, 162-175. doi: 10.1016/j.heares.2017.06.012 URL
[26]	Horley, K., Reid, A., & Burnham, D. K. (2010). Emotional prosody perception and production in dementia of the Alzheimer’s type. Journal of Speech Language and Hearing Research, 53(5), 1132-1146. doi: 10.1044/1092-4388(2010/09-0030) URL
[27]	Hornsby, B. W. Y. (2013). The effects of hearing aid use on listening effort and mental fatigue associated with sustained speech processing demands. Ear and Hearing, 34(5), 523- 534.
[28]	Huang, Y. T., Newman, R. S., Catalano, A., & Goupell, M. J. (2017). Using prosody to infer discourse prominence in cochlear-implant users and normal-hearing listeners. Cognition, 166, 184-200. doi: S0010-0277(17)30146-4 pmid: 28578222
[29]	Hui, C. T. J., & Arai, T. (2019). Elderly listeners’ identification of Japanese long vowel pair ‘obasan’ and ‘obaasan’ using pitch and duration. Acoustical Science and Technology, 40(2), 105-115. doi: 10.1250/ast.40.105 URL
[30]	Hurschler, M. A., Liem, F., Oechslin, M. S., Stämpfli, P., & Meyer, M. (2015). fMRI reveals lateralized pattern of brain activity modulated by the metrics of stimuli during auditory rhyme processing. Brain and Language, 147, 41-50. doi: 10.1016/j.bandl.2015.05.004 pmid: 26025759
[31]	Jayakody, D. M. P., Almeida, O. P., Ford, A. H., Atlas, M. D., Lautenschlager, N. T., Friedland, P. L., ... Flicker, L. (2020). Hearing aids to support cognitive functions of older adults at risk of dementia: The HearCog trial- clinical protocols. BMC Age-relateds, 20(1), Article 508. https://doi.org/10.1186/S12877-020-01912-1
[32]	Jerger, J., Jerger, S., Oliver, T., & Pirozzolo, F. (1989). Speech Understanding in the elderly. Ear and Hearing, 10(2), 79-89. pmid: 2707505
[33]	Keller, M., Neuschwander, P., & Meyer, M. (2019). When right becomes less right: Neural dedifferentiation during suprasegmental speech processing in the aging brain. NeuroImage, 189, 886-895. doi: 10.1016/j.neuroimage.2019.01.050 URL
[34]	Koff, E., Zaitchik, D., Montepare, J., & Albert, M. S. (1999). Emotion processing in the visual and auditory domains by patients with Alzheimer’s disease. Journal of the International Neuropsychological Society, 5(1), 32-40. pmid: 9989022
[35]	Kuruvilla-Dugdale, M., Threlkeld, K., Salazar, M., Nolan, G., & Heidrick, L. (2019). A comparative study of auditory- perceptual speech measures for the early detection of mild speech impairments. Seminars in Speech and Language, 40(5), 394-406. doi: 10.1055/s-0039-1694997 pmid: 31426103
[36]	LaCroix, A. N., Blumenstein, N., Houlihan, C., & Rogalsky, C. (2019). The effects of prosody on sentence comprehension: Evidence from a neurotypical control group and seven cases of chronic stroke. Neurocase, 25(3-4), 106-117.
[37]	Lee, S. J., & Kim, H. (2016). Effect of keyword position on sentence recognition under background noise in mild cognitive impairment. Communication Sciences and Disorders, 21(3), 515-523. doi: 10.12963/csd.16325 URL
[38]	Legris, E., Henriques, J., Aussedat, C., Aoustin, J.-M., Robier, M., & Bakhos, D. (2021). Emotional prosody perception in presbycusis patients after auditory rehabilitation. European Annals of Otorhinolaryngology, Head and Neck Diseases, 138(3), 163-168. doi: 10.1016/j.anorl.2020.10.004 URL
[39]	Leung, J. H., Purdy, S. C., Tippett, L. J., & Leão, S. H. S. (2017). Affective speech prosody perception and production in stroke patients with left-hemispheric damage and healthy controls. Brain and Language, 166, 19-28. doi: S0093-934X(15)30181-4 pmid: 28013040
[40]	Lloyd, A. J. (1999). Comprehension of prosody in Parkinson’s disease. Cortex, 35(3), 389-402. pmid: 10440076
[41]	Lo, C. Y., McMahon, C. M., Looi, V., & Thompson, W. F. (2015). Melodic contour training and its effect on speech in noise, consonant discrimination, and prosody perception for cochlear implant recipients. Behavioural Neurology, Article 352869. https://doi.org/10.1155/2015/352869
[42]	Mammarella, N., Fairfield, B., Frisullo, E., & Domenico, A. D. (2013). Saying it with a natural child’s voice! When affective auditory manipulations increase working memory in aging. Aging & Mental Health, 17(7), 853-862. doi: 10.1080/13607863.2013.790929 URL
[43]	Martens, H., van Nuffelen, G., Wouters, K., & de Bodt, M. (2016). Reception of communicative functions of prosody in hypokinetic dysarthria due to Parkinson’s disease. Journal of Parkinson’s Disease, 6(1), 219-229.
[44]	Meister, H., Landwehr, M., Pyschny, V., Walger, M., & Wedel, H. (2009). The perception of prosody and speaker gender in normal-hearing listeners and cochlear implant recipients. International Journal of Audiology, 48(1), 38-48. doi: 10.1080/14992020802293539 URL
[45]	Misiewicz, S., Brickman, A. M., & Tosto, G. (2018). Prosodic impairment in dementia: Review of the literature. Current Alzheimer Research, 15(2), 157-163. doi: 10.2174/1567205014666171030115624 pmid: 29086698
[46]	Mitchell, R. L. C., Kingston, R. A., & Bouças, S. L. B. (2011). The specificity of age-related decline in interpretation of emotion cues from prosody. Psychology and Aging, 26(2), 406-414. doi: 10.1037/a0021861 pmid: 21401265
[47]	Morneau-Sévigny, F., Pouliot, J., Presseau, S., Ratté, M.-H., Tremblay, M.-P., Macoir, J., & Hudon, C. (2014). Validation de stimuli prosodiques émotionnels chez les Franco-québécois de 50 à 80 ans. Canadian Journal on Aging-Revue Canadienne Du Vieillissement, 33(2), 111-122. doi: 10.1017/S0714980814000063 pmid: 24762821
[48]	Oron, Y., Levy, O., Avivi-Reich, M., Goldfarb, A., Handzel, O., Shakuf, V., & Ben-David, B. M. (2020). Tinnitus affects the relative roles of semantics and prosody in the perception of emotions in spoken language. International Journal of Audiology, 59(3), 195-207. doi: 10.1080/14992027.2019.1677952 URL
[49]	Peelle, J. E., Troiani, V., Wingfield, A., & Grossman, M. (2010). Neural processing during older adults’ comprehension of spoken sentences: Age differences in resource allocation and connectivity. Cerebral Cortex, 20(4), 773-782. doi: 10.1093/cercor/bhp142 URL
[50]	Pell, M. D. (1996). On the receptive prosodic loss in Parkinson’s disease. Cortex, 32(4), 693-704. pmid: 8954247
[51]	Pichora-Fuller, M. K., Dupuis, K., & Smith, S. L. (2016). Effects of vocal emotion on memory in younger and older adults. Experimental Aging Research, 42(1), 14-30. doi: 10.1080/0361073X.2016.1108734 pmid: 26683039
[52]	Ponzio, A., & Mather, M. (2014). Hearing something emotional influences memory for what was just seen: How arousal amplifies effects of competition in memory consolidation. Emotion, 14(6), 1137-1142. doi: 10.1037/a0037983 URL
[53]	Rabelo, M. B., Lopes, M. da, S., Corona, A. P., de Carvalho, J. F., & de Araújo, R. P. C. (2020). Habilidades cognitivas e desempenho nos testes de ordenação temporal em idosos. Audiology - Communication Research, 25, Article e2272. https://doi.org/10.1590/2317-6431-2019-2272
[54]	Rönnberg, J., Lunner, T., Ng, E. H. N., Lidestam, B., Zekveld, A. A., Sörqvist, P., ...Stenfelt, S. (2016). Hearing impairment, cognition and speech understanding: Exploratory factor analyses of a comprehensive test battery for a group of hearing aid users, the n200 study. International Journal of Audiology, 55(11), 623-642. doi: 10.1080/14992027.2016.1219775 pmid: 27589015
[55]	Rossi-Katz, J., & Arehart, K. H. (2009). Message and talker identification in older adults: Effects of task, distinctiveness of the talkers’ voices, and meaningfulness of the competing message. Journal of Speech Language and Hearing Research, 52(2), 435-453. doi: 10.1044/1092-4388(2008/07-0243) pmid: 19064902
[56]	Rothermich, K., Giorio, C., Falkins, S., Leonard, L., & Roberts, A. (2021). Nonliteral language processing across the lifespan. Acta Psychologica, 212, Article 103213. https://doi.org/10.1016/J.ACTPSY.2020.103213
[57]	Ruiz, R., Fontan, L., Fillol, H., & Füllgrabe, C. (2020). Senescent decline in verbal-emotion identification by older hearing-impaired listeners-Do hearing aids help? Clinical Interventions in Aging, 15, 2073-2081. doi: 10.2147/CIA.S281469 URL
[58]	Sammler, D., Grosbras, M.-H., Anwander, A., Bestelmeyer, P. E. G., & Belin, P. (2015). Dorsal and ventral pathways for prosody. Current Biology, 25(23), 3079-3085. doi: 10.1016/j.cub.2015.10.009 URL
[59]	Saunders, G. H., Smith, S. L., Chisolm, T. H., Frederick, M. T., McArdle, R. A., & Wilson, R. H. (2016). A randomized control trial: Supplementing hearing aid use with listening and communication enhancement (LACE) auditory training. Ear and Hearing, 37(4), 381-396.
[60]	Schröder, C., Möbes, J., Schütze, M., Szymanowski, F., Nager, W., Bangert, M., ... Dengler, R. (2006). Perception of emotional speech in Parkinson’s disease. Movement Disorders, 21(10), 1774-1778. doi: 10.1002/(ISSN)1531-8257 URL
[61]	Sen, A., Isaacowitz, D., & Schirmer, A. (2017). Age differences in vocal emotion perception: On the role of speaker age and listener sex. Cognition & Emotion, 32(6), 1189-1204.
[62]	Seydell-Greenwald, A., Chambers, C. E., Ferrara, K., & Newport, E. L. (2020). What you say versus how you say it: Comparing sentence comprehension and emotional prosody processing using fMRI. NeuroImage, 209, Article 116509. https://doi.org/10.1016/J.NEUROIMAGE.2019.116509
[63]	Shafto, M. A., & Tyler, L. K. (2014). Language in the aging brain: The network dynamics of cognitive decline and preservation. Science, 346(6209), 583-587. doi: 10.1126/science.1254404 URL
[64]	Sheppard, S. M., Keator, L. M., Breining, B. L., Wright, A. E., Saxena, S., Tippett, D. C., & Hillis, A. E. (2020). Right hemisphere ventral stream for emotional prosody identification: Evidence from acute stroke. Neurology, 94(10), e1013-e1020. doi: 10.1212/WNL.0000000000008870 URL
[65]	Sober, J. D., van Wormer, L. A., & Arruda, J. E. (2016). Age- related differences in recall for words using semantics and prosody. Journal of General Psychology, 143(1), 67-77. doi: 10.1080/00221309.2015.1073138 URL
[66]	Swords, G. M., Nguyen, L. T., Mudar, R. A., & Llano, D. A. (2018). Auditory system dysfunction in Alzheimer disease and its prodromal states: A review. Ageing Research Reviews, 44, 49-59. doi: 10.1016/j.arr.2018.04.001 URL
[67]	Tosto, G., Gasparini, M., Lenzi, G. L., & Bruno, G. (2011). Prosodic impairment in Alzheimer’s disease: Assessment and clinical relevance. Journal of Neuropsychiatry and Clinical Neurosciences, 23(2), E21-E23.
[68]	Ungan, P., Yagcioglu, S., & Ayik, E. (2020). Effects of aging on event-related potentials to single-cycle binaural beats and diotic amplitude modulation of a tone. Brain Research, 1740, Article 146849. https://doi.org/10.1016/J.BRAINRES.2020.146849
[69]	Utianski, R. L., Duffy, J. R., Clark, H. M., Strand, E. A., Botha, H., Schwarz, C. G., ... Josephsb, K. A. (2018). Prosodic and phonetic subtypes of primary progressive apraxia of speech. Brain and Language, 184, 54-65. doi: S0093-934X(17)30263-8 pmid: 29980072
[70]	van Knijff, E. C., Coene, M., & Govaerts, P. J. (2018). Speech understanding in noise in elderly adults: The effect of inhibitory control and syntactic complexity. International Journal of Language & Communication Disorders, 53(3), 628-642.
[71]	van Zyl, M., & Hanekom, J. J. (2013). Perception of vowels and prosody by cochlear implant recipients in noise. Journal of Communication Disorders, 46(5), 449-464. doi: 10.1016/j.jcomdis.2013.09.002 URL
[72]	Ventura, M. I., Baynes, K., Sigvardt, K. A., Unruh, A. M., Acklin, S. S., Kirsch, H. E., & Disbrow, E. A. (2012). Hemispheric asymmetries and prosodic emotion recognition deficits in Parkinson’s disease. Neuropsychologia, 50(8), 1936-1945. doi: 10.1016/j.neuropsychologia.2012.04.018 pmid: 22564479
[73]	Wang, J., Friedman, D., Ritter, W., Bersick, M., & Latif, L. (2006). Aging effects on the ERP correlates of involuntary attentional capture in speech sound analysis. Neurobiology of Aging, 27(8), 1164-1179. doi: 10.1016/j.neurobiolaging.2005.05.028 URL
[74]	Wang, T., Lee, Y., & Ma, Q. (2018). Within and across- language comparison of vocal emotions in Mandarin and English. Applied Sciences, 8(12), Article 2629. https://doi.org/10.3390/APP8122629
[75]	Wang, Y., Yang, X., Zhang, H., Xu, L., Xu, C., & Liu, C. (2017). Aging effect on categorical perception of Mandarin tones 2 and 3 and thresholds of pitch contour discrimination. American Journal of Audiology, 26(1), 18-26. doi: 10.1044/2016_AJA-16-0020 URL
[76]	Wingfield, A., Lahar, C. J., & Stine, E. A. L. (1989). Age and decision strategies in running memory for speech: Effects of prosody and linguistic structure. The Journals of Gerontology, 44(4), 106-113.
[77]	Wingfield, A., Tun, P. A., & McCoy, S. L. (2005). Hearing loss in older adulthood: What it is and how it interacts with cognitive performance. Current Directions in Psychological Science, 14(3), 144-148. doi: 10.1111/j.0963-7214.2005.00356.x URL
[78]	Wingfield, A., Wayland, S. C., & Stine, E. A. L. (1992). Adult age differences in the use of prosody for syntactic parsing and recall of spoken sentences. The Journals of Gerontology, 47(5), 350-356.