Local improvement in auditory frequency discrimination is associated with hearing-loss slope in subjects with cochlear damage

doi:10.1093/brain/awf044

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Brain, Vol. 125, No. 3, 524-537, February 2002
© 2002 Guarantors of Brain

Local improvement in auditory frequency discrimination is associated with hearing-loss slope in subjects with cochlear damage

Hung Thai-Van¹^,2, Christophe Micheyl², Arnaud Norena² and Lionel Collet¹^,2

¹ Service d’Explorations Fonctionnelles ORL et Audiophonologiques, Hôpital Edouard Herriot and ² Unité CNRS UMR 5020 Laboratoire ‘Neurosciences et Systèmes Sensoriels’, CNRS GDR 2213 ‘Prothèses auditives’, Université Claude Bernard Lyon I, Lyon, France

Correspondence to: Dr Hung Thai-Van, Service d’Explorations Fonctionnelles ORL et Audiophonologiques, Pavillon U-CHU Edouard Herriot, Place d’Arsonval, 69437 Lyon Cedex 03, France E-mail: hung.thaivan{at}chu-lyon.fr

Earlier data in the literature have shown local improvementsin frequency discrimination performance near the cut-off frequencyof steeply sloping, high-frequency hearing loss in subjectswith cochlear damage. The general objective of the present studywas to characterize further the relationships between this effectand various audiometric variables: namely, the slope, extentand shape of the hearing loss. In particular, we were interestedin determining whether the effect was present in subjects withmore moderately sloping hearing loss and/or other patterns ofloss. Frequency difference limens (DLFs) were measured in 20subjects (eight female, 12 male, median age 55.5 years)with high-frequency hearing loss. At least 12 frequencies weretested at intervals of 1/8 octave over a range of 1.5 octavesaround the cut-off frequency for hearing loss (Fc). The Fc correspondedto the audiogram edge frequency and was defined as the highesttest frequency, at the beginning of the slope, with a hearingthreshold of no more than 5 dB HL above that of the besthearing frequency. The level of the test tones was randomizedover a range of 6 dB around a nominal level, followingan equal-loudness contour curve measured at 1/2-octave intervals.Results showed that DLFs were significantly smaller in a frequencyband 1/4 octave wide centred on Fc than in the other bands.Furthermore, the average DLF measured in this band proved tobe negatively correlated with the slope of hearing loss. Nosuch significant relationship was found with the other audiometricindices considered, namely, the extent and maximum amount ofhearing loss and the log-transformed cut-off frequency. The20 subjects were divided into three groups according to theslope of their hearing loss relative to Fc (steep, >25 dB/1/2octave; medium, between 12 and 25 dB/1/2 octave; and shallow,<12 dB/1/2 octave). A local improvement in DLF aroundFc was observed in the steep- and medium-slope groups and wasconfirmed statistically in the steep-slope group. Similar measurementsin subjects with low-frequency or notched hearing loss allowedus to establish the presence of similar local improvements inDLFs around audiogram edges. These results, which suggest theslope of the hearing loss to be the most important factor forthe occurrence of local DLF improvements, are consistent withboth an interpretation in terms of peripheral mechanisms andone in terms of central mechanisms, i.e. injury-induced neuralreorganization.

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