{"title":"Thalamocortical Auditory Processing Across the Lifespan: A Study with Speech-Evoked Cortical Potentials.","authors":"Pamela Papile Lunardelo, Marisa Tomoe Hebihara Fukuda, Bianca Tonsic Carmona, Laura Caetano Meneghelli, Patrícia Aparecida Zuanetti, Ângela Cristina Pontes-Fernandes, Sthella Zanchetta","doi":"10.1177/15500594251374772","DOIUrl":null,"url":null,"abstract":"<p><p>ObjectiveThis cross-sectional study aimed to identify electrophysiological markers distinguishing stages of development, stability, and early aging in cortical auditory processing to elucidate neurophysiological changes in healthy auditory aging.MethodsWe evaluated 149 healthy participants (both sexes; aged 7-59 years) recruited from the general community via electronic media, posters, radio, and regional television, divided into six age groups (7-11, 12-17, 18-29, 30-39, 40-49, and 50-59 years). Eligibility criteria included normal hearing, no neurological disorders, and normal otoscopy. Cortical auditory evoked potentials (CAEPs) were recorded using the syllable /da/ (binaural stimulation, 70 dB HL) with eye-movement control.ResultsSignificant differences in P1 latency were observed between children (7-11 years) and older participants (12-59 years). N1 latency differed between children and adults (30-59 years), while N1 amplitude varied between adolescents (12-19 years) and adults aged 40-49 years. P1-N1 latency differed between adolescents and adults aged 40-59 years. Age correlated moderately negatively with P1/N1 latencies and weakly positively with N1 amplitude.ConclusionMaturational changes in P1/N1 latencies were evident, but no decline occurred during adulthood or pre-senescence, suggesting stable auditory processing until at least age 59.</p>","PeriodicalId":93940,"journal":{"name":"Clinical EEG and neuroscience","volume":" ","pages":"15500594251374772"},"PeriodicalIF":1.7000,"publicationDate":"2025-09-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Clinical EEG and neuroscience","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1177/15500594251374772","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
ObjectiveThis cross-sectional study aimed to identify electrophysiological markers distinguishing stages of development, stability, and early aging in cortical auditory processing to elucidate neurophysiological changes in healthy auditory aging.MethodsWe evaluated 149 healthy participants (both sexes; aged 7-59 years) recruited from the general community via electronic media, posters, radio, and regional television, divided into six age groups (7-11, 12-17, 18-29, 30-39, 40-49, and 50-59 years). Eligibility criteria included normal hearing, no neurological disorders, and normal otoscopy. Cortical auditory evoked potentials (CAEPs) were recorded using the syllable /da/ (binaural stimulation, 70 dB HL) with eye-movement control.ResultsSignificant differences in P1 latency were observed between children (7-11 years) and older participants (12-59 years). N1 latency differed between children and adults (30-59 years), while N1 amplitude varied between adolescents (12-19 years) and adults aged 40-49 years. P1-N1 latency differed between adolescents and adults aged 40-59 years. Age correlated moderately negatively with P1/N1 latencies and weakly positively with N1 amplitude.ConclusionMaturational changes in P1/N1 latencies were evident, but no decline occurred during adulthood or pre-senescence, suggesting stable auditory processing until at least age 59.
目的通过横断面研究,识别皮层听觉加工发育、稳定和早期衰老阶段的电生理标记,以阐明健康听觉老化过程中的神经生理变化。方法通过电子媒体、海报、广播、地区电视等方式从普通社区招募健康参与者149人(男女,年龄7-59岁),分为7-11岁、12-17岁、18-29岁、30-39岁、40-49岁和50-59岁6个年龄组。入选标准包括听力正常,无神经障碍,耳镜检查正常。采用音节/da/(双耳刺激,70 dB HL)在眼动控制下记录皮层听觉诱发电位(CAEPs)。结果P1潜伏期在儿童(7-11岁)和老年人(12-59岁)之间存在显著差异。N1潜伏期在儿童和成人(30-59岁)之间存在差异,而N1振幅在青少年(12-19岁)和40-49岁的成年人之间存在差异。P1-N1潜伏期在40-59岁的青少年和成人之间存在差异。年龄与P1/N1潜伏期呈中度负相关,与N1振幅呈弱正相关。结论P1/N1潜伏期的成熟变化是明显的,但在成年期或衰老前期没有下降,表明至少在59岁之前听觉加工是稳定的。
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