Correlations between cochlear pathophysiology and behavioral measures of temporal and spatial processing in noise exposed macaques

•Temporal and spatial processing measures were compared between non-exposed and noise-exposed macaques.•Noise exposures caused permanent threshold shifts and variable cochlear histological changes.•Temporal processing deficits were correlated with audiometric and histological changes.•Spatial proces...

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Veröffentlicht in:	Hearing research 2021-03, Vol.401, p.108156-108156, Article 108156
Hauptverfasser:	Mackey, Chase A., McCrate, Jennifer, MacDonald, Kaitlyn S., Feller, Jessica, Liberman, Leslie, Liberman, M. Charles, Hackett, Troy A., Ramachandran, Ramnarayan
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Sprache:	eng
Schlagworte:	Animals Auditory Threshold Cochlea Hearing Loss, Noise-Induced - etiology Macaca Modulation masking release Noise - adverse effects Noise exposure Nonhuman primate Perceptual Masking Sensorineural hearing loss Spatial Processing Spatial release from masking
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creator	Mackey, Chase A. McCrate, Jennifer MacDonald, Kaitlyn S. Feller, Jessica Liberman, Leslie Liberman, M. Charles Hackett, Troy A. Ramachandran, Ramnarayan
description	•Temporal and spatial processing measures were compared between non-exposed and noise-exposed macaques.•Noise exposures caused permanent threshold shifts and variable cochlear histological changes.•Temporal processing deficits were correlated with audiometric and histological changes.•Spatial processing deficits were not correlated with audiometric or histological changes.•First anatomical-behavioral correlates of temporal and spatial processing. Noise-induced hearing loss (NIHL) is known to have significant consequences for temporal, spectral, and spatial resolution. However, much remains to be discovered about their underlying pathophysiology. This report extends the recent development of a nonhuman primate model of NIHL to explore its consequences for hearing in noisy environments, and its correlations with the underlying cochlear pathology. Ten macaques (seven with normal-hearing, three with NIHL) were used in studies of masked tone detection in which the temporal or spatial properties of the masker were varied to assess metrics of temporal and spatial processing. Normal-hearing (NH) macaques showed lower tone detection thresholds for sinusoidally amplitude modulated (SAM) broadband noise maskers relative to unmodulated maskers (modulation masking release, MMR). Tone detection thresholds were lowest at low noise modulation frequencies, and increased as modulation frequency increased, until they matched threshold in unmodulated noise. NH macaques also showed lower tone detection thresholds for spatially separated tone and noise relative to co-localized tone and noise (spatial release from masking, SRM). Noise exposure caused permanent threshold shifts that were verified behaviorally and audiologically. In hearing-impaired (HI) macaques, MMR was reduced at tone frequencies above that of the noise exposure. HI macaques also showed degraded SRM, with no SRM observed across all tested tone frequencies. Deficits in MMR correlated with audiometric threshold changes, outer hair cell loss, and synapse loss, while the differences in SRM did not correlate with audiometric changes, or any measure of cochlear pathophysiology. This difference in anatomical-behavioral correlations suggests that while many behavioral deficits may arise from cochlear pathology, only some are predictable from the frequency place of damage in the cochlea.
doi_str_mv	10.1016/j.heares.2020.108156
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This report extends the recent development of a nonhuman primate model of NIHL to explore its consequences for hearing in noisy environments, and its correlations with the underlying cochlear pathology. Ten macaques (seven with normal-hearing, three with NIHL) were used in studies of masked tone detection in which the temporal or spatial properties of the masker were varied to assess metrics of temporal and spatial processing. Normal-hearing (NH) macaques showed lower tone detection thresholds for sinusoidally amplitude modulated (SAM) broadband noise maskers relative to unmodulated maskers (modulation masking release, MMR). Tone detection thresholds were lowest at low noise modulation frequencies, and increased as modulation frequency increased, until they matched threshold in unmodulated noise. NH macaques also showed lower tone detection thresholds for spatially separated tone and noise relative to co-localized tone and noise (spatial release from masking, SRM). Noise exposure caused permanent threshold shifts that were verified behaviorally and audiologically. In hearing-impaired (HI) macaques, MMR was reduced at tone frequencies above that of the noise exposure. HI macaques also showed degraded SRM, with no SRM observed across all tested tone frequencies. Deficits in MMR correlated with audiometric threshold changes, outer hair cell loss, and synapse loss, while the differences in SRM did not correlate with audiometric changes, or any measure of cochlear pathophysiology. 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Charles</creatorcontrib><creatorcontrib>Hackett, Troy A.</creatorcontrib><creatorcontrib>Ramachandran, Ramnarayan</creatorcontrib><title>Correlations between cochlear pathophysiology and behavioral measures of temporal and spatial processing in noise exposed macaques</title><title>Hearing research</title><addtitle>Hear Res</addtitle><description>•Temporal and spatial processing measures were compared between non-exposed and noise-exposed macaques.•Noise exposures caused permanent threshold shifts and variable cochlear histological changes.•Temporal processing deficits were correlated with audiometric and histological changes.•Spatial processing deficits were not correlated with audiometric or histological changes.•First anatomical-behavioral correlates of temporal and spatial processing. Noise-induced hearing loss (NIHL) is known to have significant consequences for temporal, spectral, and spatial resolution. However, much remains to be discovered about their underlying pathophysiology. This report extends the recent development of a nonhuman primate model of NIHL to explore its consequences for hearing in noisy environments, and its correlations with the underlying cochlear pathology. Ten macaques (seven with normal-hearing, three with NIHL) were used in studies of masked tone detection in which the temporal or spatial properties of the masker were varied to assess metrics of temporal and spatial processing. Normal-hearing (NH) macaques showed lower tone detection thresholds for sinusoidally amplitude modulated (SAM) broadband noise maskers relative to unmodulated maskers (modulation masking release, MMR). Tone detection thresholds were lowest at low noise modulation frequencies, and increased as modulation frequency increased, until they matched threshold in unmodulated noise. NH macaques also showed lower tone detection thresholds for spatially separated tone and noise relative to co-localized tone and noise (spatial release from masking, SRM). Noise exposure caused permanent threshold shifts that were verified behaviorally and audiologically. In hearing-impaired (HI) macaques, MMR was reduced at tone frequencies above that of the noise exposure. HI macaques also showed degraded SRM, with no SRM observed across all tested tone frequencies. Deficits in MMR correlated with audiometric threshold changes, outer hair cell loss, and synapse loss, while the differences in SRM did not correlate with audiometric changes, or any measure of cochlear pathophysiology. This difference in anatomical-behavioral correlations suggests that while many behavioral deficits may arise from cochlear pathology, only some are predictable from the frequency place of damage in the cochlea.</description><subject>Animals</subject><subject>Auditory Threshold</subject><subject>Cochlea</subject><subject>Hearing Loss, Noise-Induced - etiology</subject><subject>Macaca</subject><subject>Modulation masking release</subject><subject>Noise - adverse effects</subject><subject>Noise exposure</subject><subject>Nonhuman primate</subject><subject>Perceptual Masking</subject><subject>Sensorineural hearing loss</subject><subject>Spatial Processing</subject><subject>Spatial release from masking</subject><issn>0378-5955</issn><issn>1878-5891</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kc9u3CAQxlGVqNmmfYMq4gV2C8Ys-FIpWqV_pEi9JGc0xuM1Kxsc8G6y1z55cbZNm0svMBrm--ZDP0I-crbijK8_7VYdQsS0KlgxtzSX6zdkwbXSS6krfkYWTMx1JeUFeZfSjjEuRVm8JRdCCCU0Kxfk5ybEiD1MLvhEa5weET21wXZ9dqcjTF0Yu2NyoQ_bIwXf5KEODi5E6OmAkPY5Aw0tnXAYn5vzTMpCl-sxBospOb-lzlMfXEKKT2NI2NABLDzsMb0n5y30CT_8vi_J_Zebu8235e2Pr98317dLKyoxLVvgElWTDwGitLLQ60K2la0RVKsV5xJqpgS3qigVByZqJSWzAsuqgLIpxCX5fPId9_WAjUU_5bhmjG6AeDQBnHn94l1ntuFgdKkVU7NBeTKwMaQUsX3RcmZmJmZnTkzMzMScmGTZ1b97X0R_IPwNhvn3B4fRJOvQW2xcRDuZJrj_b_gFZ8ikPg</recordid><startdate>20210301</startdate><enddate>20210301</enddate><creator>Mackey, Chase A.</creator><creator>McCrate, Jennifer</creator><creator>MacDonald, Kaitlyn S.</creator><creator>Feller, Jessica</creator><creator>Liberman, Leslie</creator><creator>Liberman, M. 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Tone detection thresholds were lowest at low noise modulation frequencies, and increased as modulation frequency increased, until they matched threshold in unmodulated noise. NH macaques also showed lower tone detection thresholds for spatially separated tone and noise relative to co-localized tone and noise (spatial release from masking, SRM). Noise exposure caused permanent threshold shifts that were verified behaviorally and audiologically. In hearing-impaired (HI) macaques, MMR was reduced at tone frequencies above that of the noise exposure. HI macaques also showed degraded SRM, with no SRM observed across all tested tone frequencies. Deficits in MMR correlated with audiometric threshold changes, outer hair cell loss, and synapse loss, while the differences in SRM did not correlate with audiometric changes, or any measure of cochlear pathophysiology. 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subjects	Animals Auditory Threshold Cochlea Hearing Loss, Noise-Induced - etiology Macaca Modulation masking release Noise - adverse effects Noise exposure Nonhuman primate Perceptual Masking Sensorineural hearing loss Spatial Processing Spatial release from masking
title	Correlations between cochlear pathophysiology and behavioral measures of temporal and spatial processing in noise exposed macaques
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