Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop

Objetivo: Este estudio desarrolló y alcanzó un claro entendimiento en una prueba auditiva de Stroop, implementable en las ciencias auditivas cognitivas. Métodos: Se desarrolló un test auditivo de Stroop y se aplicó en 178 participantes entre los 18 y los 69 años de edad. Este test auditivo de Stroop...

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Autores:: Kestens, Katrien
Degeest, Sofie
Miatton, Marijke
Keppler, Hannah

Tipo de recurso:: Article of journal

Fecha de publicación:: 2021

Institución:: Universidad de San Buenaventura

Repositorio:: Repositorio USB

Idioma:: eng

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dc.title.spa.fl_str_mv	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
dc.title.translated.spa.fl_str_mv	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
title	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
spellingShingle	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop Auditory Stroop Test Cognitive Hearing Sciences Normative Data Test Stroop auditivo ciencias auditivas cognitivas datos normativos
title_short	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
title_full	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
title_fullStr	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
title_full_unstemmed	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
title_sort	Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop
dc.creator.fl_str_mv	Kestens, Katrien Degeest, Sofie Miatton, Marijke Keppler, Hannah
dc.contributor.author.eng.fl_str_mv	Kestens, Katrien Degeest, Sofie Miatton, Marijke Keppler, Hannah
dc.subject.eng.fl_str_mv	Auditory Stroop Test Cognitive Hearing Sciences Normative Data
topic	Auditory Stroop Test Cognitive Hearing Sciences Normative Data Test Stroop auditivo ciencias auditivas cognitivas datos normativos
dc.subject.spa.fl_str_mv	Test Stroop auditivo ciencias auditivas cognitivas datos normativos
description	Objetivo: Este estudio desarrolló y alcanzó un claro entendimiento en una prueba auditiva de Stroop, implementable en las ciencias auditivas cognitivas. Métodos: Se desarrolló un test auditivo de Stroop y se aplicó en 178 participantes entre los 18 y los 69 años de edad. Este test auditivo de Stroop constaba dos pruebas, a saber: Stroop-tonos y Stroop-palabras. El tono de los tonos puros y de las palabras habladas (es decir, las palabras alto y bajo) tenían que ser identificadas por alto o bajo, respectivamente. Se calculó una puntuación de interferencia como medida del funcionamiento ejecutivo verbal. Se realizaron modelos de regresión para examinar el efecto de la edad, el sexo, la educación, la vigilia, la audición, así como la memoria de trabajo visual y verbal y la velocidad de procesamiento en todas las puntuaciones auditivas de Stroop. Se obtuvieron datos normativos por década. Resultados: Los resultados del Stroop auditivo podrían predecirse mejor por la memoria de trabajo verbal y la velocidad de procesamiento en comparación con las contrapartes visuales. Se observó una tendencia que mostraba una disminución de los resultados con el aumento de la edad. Ninguna otra variable relacionada con los participantes parecía tener una relación significativa con la prueba auditiva de Stroop. Conclusión: Este test auditivo de Stroop se consideró una buena prueba para medir el funcionamiento ejecutivo utilizando estímulos auditivos. La aplicación de esta prueba auditiva de Stroop dentro de las ciencias auditivas cognitivas contribuirá a desentrañar la perspectiva auditivo-cognitiva de la comprensión del habla.
publishDate	2021
dc.date.accessioned.none.fl_str_mv	2021-10-27T20:47:37Z 2025-07-31T16:12:24Z
dc.date.available.none.fl_str_mv	2021-10-27T20:47:37Z 2025-07-31T16:12:24Z
dc.date.issued.none.fl_str_mv	2021-10-27
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.doi.none.fl_str_mv	10.21500/20112084.5118
dc.identifier.eissn.none.fl_str_mv	2011-7922
dc.identifier.issn.none.fl_str_mv	2011-2084
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/10819/25862
dc.identifier.url.none.fl_str_mv	https://doi.org/10.21500/20112084.5118
identifier_str_mv	10.21500/20112084.5118 2011-7922 2011-2084
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dc.language.iso.eng.fl_str_mv	eng
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dc.relation.bitstream.none.fl_str_mv	https://revistas.usb.edu.co/index.php/IJPR/article/download/5118/4374 https://revistas.usb.edu.co/index.php/IJPR/article/download/5118/4375
dc.relation.citationedition.eng.fl_str_mv	Núm. 2 , Año 2021 : Vol. 14 Núm. 2 (2021)
dc.relation.citationendpage.none.fl_str_mv	51
dc.relation.citationissue.eng.fl_str_mv	2
dc.relation.citationstartpage.none.fl_str_mv	37
dc.relation.citationvolume.eng.fl_str_mv	14
dc.relation.ispartofjournal.eng.fl_str_mv	International Journal of Psychological Research
dc.relation.references.eng.fl_str_mv	Ardila, A., Ostrosky-Solis, F., Rosselli, M., & Gómez, C. (2000). Age-related cognitive decline during normal aging: The complex effect of education. Archives of Clinical Neuropsychology, 15 (6), 495–513. https://doi.org/10.1016/S0887-6177(99)00040-2. Baltes, P. B., & Lindenberger, U. (1997). Emergence of a powerful connection between sensory and cognitive functions across the adult life span: A new window to the study of cognitive aging? Psychological Aging, 12 (1), 12–21. https://doi.org/10.1037//0882-7974.12.1.12. Baroun, K., & Alansari, B. (2006). Gender differences in performance on the Stroop Test. Social Behavior and Personality: An International Journal, 34 (3), 309–318. https://doi.org/10.2224/sbp.2006.34.3.309. Brunetti, R., Del Gatto, C., & Delogu, F. (2014). eCorsi: implementation and testing of the Corsi blocktapping task for digital tablets. Frontiers in Psychology, 5, Article 939. https://doi.org/10.3389/fpsyg.2014.00939. Cohen, J., Cohen, P., West, S. G., & Aiken, L. S. (2013). Applied multiple regression/correlation analysis for the behavioral sciences. Routledge. Danneels, M., Van Hecke, R., Leyssens, S., L.and Degeest, Cambier, D., van de Berg, R., & Maes, L. (2020). 2BALANCE: a cognitive-motor dual-task protocol for individuals with vestibular dysfunction. BMJ Open, 10 (7), Article e037138. http://dx.doi.org/10.1136/bmjopen-2020-037138. Deal, J. A., Betz, J., Yaffe, K., Harris, T., Purchase-Helzner, E., Satterfield, S., & Lin, F. R. (2017). Hearing Impairment and Incident Dementia and Cognitive Decline in Older Adults: The Health ABC Study. Journal of Gerontology A Biological Science Medical Science, 72 (5), 703–709. https://doi.org/10.1093/gerona/glw069. Dryden, A., Allen, H. A., Henshaw, H., & Heinrich, A. (2017). The Association Between Cognitive Performance and Speech-in-Noise Perception for Adult Listeners: A Systematic Literature Review and Meta-Analysis. Trends Hear, 21, Article 23 31216517744675. https://doi.org/10.1177/2331216517744675. Fischer, M. E., Cruickshanks, K. J., Schubert, C. R., Pinto, A. A., Carlsson, C. M., Klein, B. E., & Tweed, T. S. (2016). Age-Related Sensory Impairments and Risk of Cognitive Impairment. J Am Geriatr Soc, 64 (10), 1981–1987. https://doi.org/10.1111/jgs.14308. Gallacher, J., Ilubaera, V., Ben-Shlomo, Y., Bayer, A., Fish, M., Babisch, W., & Elwood, P. (2012). Auditory threshold, phonologic demand, and incident dementia. Neurology, 79 (15), 1583–159. https://doi.org/10.1212/WNL.0b013e31826e263d. Gilbert, S. J., & Burgess, P. W. (2008). Executive function. Current biology, 18 (3), R110–R114. https://doi.org/10.1016/j.cub.2007.12.014. Golden, C. J. (1975). A group version of the Stroop Color and Word Test. Journal of personality assessment, 39 (4), 386–388. https://psycnet.apa.org/doi/10.1207/s15327752jpa3904_10. Grassi, M., & Borella, E. (2013). The role of auditory abilities in basic mechanisms of cognition in older adults. Frontiers in Aging Neuroscience, 5, Article 59. https://doi.org/10.3389/fnagi.2013.00059. Hameleers, P. M., Van Boxtel, M. J., Hogervorst, E., Riedel, W., Houx, P., Buntinx, F., & Jolles, J. (2000). Habitual caffeine consumption and its relation to memory, attention, planning capacity and psychomotor performance across multiple age groups. Human Psychopharmacology: Clinical and Experimental, 15 (8), 573–581. https://doi.org/10.1002/hup.218. Harrington, K. D., Lim, Y. Y., Ames, D., Hassenstab, J., Rainey-Smith, S., Robertson, J., & Maruff, P. (2017). Using Robust Normative Data to Investigate the Neuropsychology of Cognitive Aging. Archives Clinical Neuropsychology, 32 (2), 142–154. https://doi.org/doi:10.1093/arclin/acw106. Houx, P. J., Jolles, J., & Vreeling, F. W. (1993). Stroop interference: aging effects assessed with the Stroop Color-Word Test. Experimental aging research, 19 (3), 209–224. https://doi.org/10.1080/03610739308253934. Janse, E. (2012). A non-auditory measure of interference predicts distraction by competing speech in older adults. Aging, Neuropsychology, and Cognition, 19 (6), 741–758. https://doi.org/10.1080/13825585.2011.652590. Jensen, A. R., & Rohwer Jr, W. D. (1966). The Stroop color-word test: a review. Acta psychologica, 25, 36–93. https://doi.org/10.1016/0001-6918(66)90004-7. Kemper, S., Schmalzried, R., Herman, R., Leedahl, S., & Mohankumar, D. (2009). The effects of aging and dual task demands on language production. Aging, Neuropsychology, and Cognition, 16 (3), 241–259. https://doi.org/10.1080/13825580802438868. Kessels, R. P., van Den Berg, E., Ruis, C., & Brands, A. M. (2008). The backward span of the Corsi Block-Tapping Task and its association with the WAIS-III Digit Span. Assessment, 15 (4), 426–434. https://doi.org/10.1177/1073191108315611. Kestens, K., Degeest, S., & Keppler, H. (2021). The Effect of Cognition on the Aided Benefit in Terms of Speech Understanding and Listening Effort Obtained With Digital Hearing Aids: A Systematic Review. American Journal of Audiology, 30, 190–210. https://doi.org/10.1044/2020_aja-20-00019. Kestens, K., Degeest, S., Miatton, M., & Keppler, H. (2021). Visual and Verbal working memory and processing speed across the adult lifespan: the effect of age, sex, educational level, awakeness, and hearing sensitivity. Frontiers in Psychology, 12 (668828). https://doi.org/10.3389/fpsyg.2021.668828. Kiessling, J., Pichora-Fuller, M. K., Gatehouse, S., Stephens, D., Arlinger, S., Chisolm, T., Davis, A. C., Erber, N. P., Hickson, L., Holmes, A., Rosenhall, U., & von Wedel, H. (2003). Candidature for and delivery of audiological services: Special needs of older people. International Journal of Audiology, 42, 92–101. https://doi.org/10.3109/14992020309074650. Klein, M., Ponds, R. W., Houx, P. J., & Jolles, J. (1997). Effect of test duration on age-related differences in Stroop interference. Journal of clinical and experimental neuropsychology, 19 (1), 77–82. https://doi.org/10.1080/01688639708403838. Knight, S., & Heinrich, A. (2017). Different measures of auditory and visual Stroop interference and their relationship to speech intelligibility in noise. Front Psychol, 8, Article 230. https://doi.org/10.3389/fpsyg.2017.00230. Kronholm, E., Sallinen, M., Suutama, T., Sulkava, R., Era, P., & Partonen, T. (2009). Selfreported sleep duration and cognitive functioning in the general population. Journal of sleep research, 18 (4), 436–446. https://doi.org/10.1111/j.1365-2869.2009.00765.x. Laerd Statistics. (2015). Multiple regression using SPSS Statistics. Statistical tutorials and software guides. https://statistics.laerd.com/. Lewin, C., Wolgers, G., & Herlitz, A. (2001). Sex differences favoring women in verbal but not in visuospatial episodic memory. Neuropsychology, 15 (2), 165. https://doi.org/10.1037/0894-4105.15.2.165. Lezak, M. D., Howieson, D. B., Loring, D. W., & Fischer, J. S. (2004). Neuropsychological assessment. Oxford University Press. Livingston, G., Sommerlad, A., Orgeta, V., Costafreda, S. G., Huntley, J., Ames, D., Ballard, C., Banerjee, S., Burns, A., Cohen-Mansfield, J., Cooper, C., Fox, N., Gitlin, L. N., Howard, R., Kales, H. C., Larson, E. B., Ritchie, K., Rockwood, K., Sampson, E. L., . . . Mukadam, N. (2017). Dementia prevention, intervention, and care. The Lancet, 390 (10113), 2673–2734. https://doi.org/10.1016/s0140-6736(17)31363-6. MacLeod, C. M. (1991). Half a century of research on the Stroop effect: an integrative review. Psychological bulletin, 109 (2), Article 163. https://doi.org/10.1037/0033-2909.109.2.163. Majeres, R. L. (1997). Sex differences in phonetic processing: Speed of identification of alphabetical sequences. Perceptual Motor Skills, 85 (3_suppl), 1243–1251. https://doi.org/10.2466/pms.1997.85.3f.1243. Menard, S. (2002). Applied logistic regression analysis (Vol. 106). Sage. Most, S. B., Sorber, A. V., & Cunningham, J. G. (2007). Auditory Stroop reveals implicit sex associations in adults and children. Journal of Experimental Social Psychology, 43 (2), 287–294. https://doi.org/10.1016/j.jesp.2006.02.002. Nasreddine, Z. S., Phillips, N. A., Bédirian, V., Charbonneau, S., Whitehead, V., Collin, I., & Chertkow, H. (2005). The Montreal Cognitive Assessment, MoCA: a brief screening tool for mild cognitive impairment. Journal of American Geriatric Society, 53 (4), 695–699. https://doi.org/10.1111/j.1532-5415.2005.53221.x. Roberts, K. L., & Hall, D. A. (2008). Examining a supramodal network for conflict processing: a systematic review and novel functional magnetic resonance imaging data for related visual and auditory Stroop tasks. Journal of cognitive neuroscience, 20 (6), 1063–1078. https://doi.org/10.1162/jocn.2008.20074. Sachdev, P. S., Blacker, D., Blazer, D. G., Ganguli, M., Jeste, D. V., Paulsen, J. S., & Petersen, R. C. (2014). Classifying neurocognitive disorders: the DSM-5 approach. Nature Reviews Neurology, 10 (11), 634. https://doi.org/10.1038/nrneurol.2014.181. Shen, J., Sherman, M., & Souza, P. E. (2020). Test administration methods and cognitive test scores in older adults with hearing loss. Gerontology, 66 (1), 24–32. https://doi.org/10.1159/000500777. Shor, R. E. (1975). An auditory analog of the Stroop test. Journal of General Psychology, 93, Article 281. Snellen, H. (1873). Probebuchstaben zur bestimmung der sehschärfe. H. Peters. Sohlberg, M. K. M., & Mateer, C. A. (2017). Cognitive Rehabilitation: An Integrative Neuropsychological Approach. Guilford Publications. Sommers, M. S., & Danielson, S. M. (1999). Inhibitory processes and spoken word recognition in young and older adults: The interaction of lexical competition and semantic context. Psychology and aging, 14 (3), 458. https://doi.org/10.1037//0882-7974.14.3.458. Strouwen, C., Molenaar, E. A., Keus, S. H., Münks, L., Bloem, B. R., & Nieuwboer, A. (2016). Test-retest reliability of dual-task outcome measures in people with Parkinson disease. Physical Therapy, 96 (8), 1276–1286. https://doi.org/10.2522/ptj.20150244. Troyer, A. K., Leach, L., & Strauss, E. (2006). Aging and response inhibition: Normative data for the Victoria Stroop Test. Aging, Neuropsychology, and Cognition, 13 (1), 20–35. Van Boxtel, M., Ten Tusscher, M., Metsemakers, J., Willems, B., & Jolles, J. (2001). Visual determinants of reduced performance on the Stroop color-word test in normal aging individuals. Journal of clinical and experimental neuropsychology, 23 (5), 620–627. https://doi.org/10.1076/jcen.23.5.620.1245. Van der Elst, W., Van Boxtel, M. P., Van Breukelen, G. J., & Jolles, J. (2006). The Stroop color-word test: influence of age, sex, and education; and normative data for a large sample across the adult age range. Assessment, 13 (1), 62–79. https://doi.org/10.1177/1073191105283427. Wurm, L. H., Labouvie-Vief, G., Aycock, J., Rebucal, K. A., & Koch, H. E. (2004). Performance in auditory and visual emotional Stroop tasks: a comparison of older and younger adults. Psychology and aging, 19 (3), 523. https://doi.org/10.1037/0882-7974.19.3.523. Zahodne, L. B., Stern, Y., & Manly, J. J. (2015). Differing effects of education on cognitive decline in diverse elders with low versus high educational attainment. Neuropsychology, 29 (4), 649. http://dx.doi.org/10.1037/neu0000141. Zekveld, A. A., van Scheepen, J., Versfeld, N. J., Kramer, S. E., & van Steenbergen, H. (2020). The Influence of Hearing Loss on Cognitive Control in an Auditory Conflict Task: Behavioral and Pupillometry Findings. Journal of Speech, Language, and Hearing Research, 63 (7), 2483–2492. https://doi.org/10.1044/2020_JSLHR-20-00107.
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spelling	Kestens, KatrienDegeest, SofieMiatton, MarijkeKeppler, Hannah2021-10-27T20:47:37Z2025-07-31T16:12:24Z2021-10-27T20:47:37Z2025-07-31T16:12:24Z2021-10-27Objetivo: Este estudio desarrolló y alcanzó un claro entendimiento en una prueba auditiva de Stroop, implementable en las ciencias auditivas cognitivas. Métodos: Se desarrolló un test auditivo de Stroop y se aplicó en 178 participantes entre los 18 y los 69 años de edad. Este test auditivo de Stroop constaba dos pruebas, a saber: Stroop-tonos y Stroop-palabras. El tono de los tonos puros y de las palabras habladas (es decir, las palabras alto y bajo) tenían que ser identificadas por alto o bajo, respectivamente. Se calculó una puntuación de interferencia como medida del funcionamiento ejecutivo verbal. Se realizaron modelos de regresión para examinar el efecto de la edad, el sexo, la educación, la vigilia, la audición, así como la memoria de trabajo visual y verbal y la velocidad de procesamiento en todas las puntuaciones auditivas de Stroop. Se obtuvieron datos normativos por década. Resultados: Los resultados del Stroop auditivo podrían predecirse mejor por la memoria de trabajo verbal y la velocidad de procesamiento en comparación con las contrapartes visuales. Se observó una tendencia que mostraba una disminución de los resultados con el aumento de la edad. Ninguna otra variable relacionada con los participantes parecía tener una relación significativa con la prueba auditiva de Stroop. Conclusión: Este test auditivo de Stroop se consideró una buena prueba para medir el funcionamiento ejecutivo utilizando estímulos auditivos. La aplicación de esta prueba auditiva de Stroop dentro de las ciencias auditivas cognitivas contribuirá a desentrañar la perspectiva auditivo-cognitiva de la comprensión del habla.Objective: This study developed and gained insight in an auditory Stroop test, implementable in cognitive hearing sciences. Methods: An auditory Stroop test was developed and performed in 178 participants, aged between 18 and 69 years. This Auditory Stroop test consisted of two tests: Stroop-tones and Stroop-words whereby the pitch of pure-tones and spoken words (i.e., the words high and low) had to be identified by high or low, respectively. An interference score was calculated as a measure of verbal executive functioning. Regression models were conducted to examine the effect of age, sex, education, awakeness, hearing, as well as visual and verbal working memory, and processing speed on the auditory Stroop scores. Normative data were obtained per age decade. Results: Compared to the visual counterparts, the auditory Stroop outcomes were better predicted by verbal working memory and processing speed. A trend was observed showing a decrease in performances with increasing age. No other participant-related variables had a significant relationship with the auditory Stroop test. Conclusion: This auditory Stroop test was considered a good test for measuring executive functioning using auditory stimuli. Implementing this auditory Stroop test within cognitive hearing sciences will contribute to unravel the auditory-cognitive perspective of speech understanding.application/pdfapplication/pdf10.21500/20112084.51182011-79222011-2084https://hdl.handle.net/10819/25862https://doi.org/10.21500/20112084.5118engUniversidad San Buenaventura - USB (Colombia)https://revistas.usb.edu.co/index.php/IJPR/article/download/5118/4374https://revistas.usb.edu.co/index.php/IJPR/article/download/5118/4375Núm. 2 , Año 2021 : Vol. 14 Núm. 2 (2021)5123714International Journal of Psychological ResearchArdila, A., Ostrosky-Solis, F., Rosselli, M., & Gómez, C. (2000). Age-related cognitive decline during normal aging: The complex effect of education. Archives of Clinical Neuropsychology, 15 (6), 495–513. https://doi.org/10.1016/S0887-6177(99)00040-2.Baltes, P. B., & Lindenberger, U. (1997). Emergence of a powerful connection between sensory and cognitive functions across the adult life span: A new window to the study of cognitive aging? Psychological Aging, 12 (1), 12–21. https://doi.org/10.1037//0882-7974.12.1.12.Baroun, K., & Alansari, B. (2006). Gender differences in performance on the Stroop Test. Social Behavior and Personality: An International Journal, 34 (3), 309–318. https://doi.org/10.2224/sbp.2006.34.3.309.Brunetti, R., Del Gatto, C., & Delogu, F. (2014). eCorsi: implementation and testing of the Corsi blocktapping task for digital tablets. Frontiers in Psychology, 5, Article 939. https://doi.org/10.3389/fpsyg.2014.00939.Cohen, J., Cohen, P., West, S. G., & Aiken, L. S. (2013). Applied multiple regression/correlation analysis for the behavioral sciences. Routledge.Danneels, M., Van Hecke, R., Leyssens, S., L.and Degeest, Cambier, D., van de Berg, R., & Maes, L. (2020). 2BALANCE: a cognitive-motor dual-task protocol for individuals with vestibular dysfunction. BMJ Open, 10 (7), Article e037138. http://dx.doi.org/10.1136/bmjopen-2020-037138.Deal, J. A., Betz, J., Yaffe, K., Harris, T., Purchase-Helzner, E., Satterfield, S., & Lin, F. R. (2017). Hearing Impairment and Incident Dementia and Cognitive Decline in Older Adults: The Health ABC Study. Journal of Gerontology A Biological Science Medical Science, 72 (5), 703–709. https://doi.org/10.1093/gerona/glw069.Dryden, A., Allen, H. A., Henshaw, H., & Heinrich, A. (2017). The Association Between Cognitive Performance and Speech-in-Noise Perception for Adult Listeners: A Systematic Literature Review and Meta-Analysis. Trends Hear, 21, Article 23 31216517744675. https://doi.org/10.1177/2331216517744675.Fischer, M. E., Cruickshanks, K. J., Schubert, C. R., Pinto, A. A., Carlsson, C. M., Klein, B. E., & Tweed, T. S. (2016). Age-Related Sensory Impairments and Risk of Cognitive Impairment. 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Journal of Speech, Language, and Hearing Research, 63 (7), 2483–2492. https://doi.org/10.1044/2020_JSLHR-20-00107.info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.http://creativecommons.org/licenses/by-nc-nd/4.0https://revistas.usb.edu.co/index.php/IJPR/article/view/5118Auditory Stroop TestCognitive Hearing SciencesNormative DataTest Stroop auditivociencias auditivas cognitivasdatos normativosCiencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test StroopCiencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test StroopArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85Textinfo:eu-repo/semantics/articleJournal articleinfo:eu-repo/semantics/publishedVersionPublicationOREORE.xmltext/xml3272https://bibliotecadigital.usb.edu.co/bitstreams/cd2052c8-d2e9-4dd5-8ff2-0f1878ab53b0/download4978dd112a48107f60c9aaa428ae8516MD5110819/25862oai:bibliotecadigital.usb.edu.co:10819/258622025-07-31 11:12:25.101http://creativecommons.org/licenses/by-nc-nd/4.0https://bibliotecadigital.usb.edu.coRepositorio Institucional Universidad de San Buenaventura Colombiabdigital@metabiblioteca.com

Ciencias cognitivas de la audición: Desarrollo y datos normativos de la tarea auditiva del test Stroop

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