Neural dissociation of the acoustic and cognitive representation of voice identity

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Neural dissociation of the acoustic and cognitive representation of voice identity. / Bestelmeyer, Patricia; Mühl, Constanze.
In: Neuroimage, Vol. 263, 119647, 11.2022.

Research output: Contribution to journalArticlepeer-review

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Bestelmeyer P, Mühl C. Neural dissociation of the acoustic and cognitive representation of voice identity. Neuroimage. 2022 Nov;263:119647. Epub 2022 Sept 30. doi: 10.1016/j.neuroimage.2022.119647

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TY - JOUR

T1 - Neural dissociation of the acoustic and cognitive representation of voice identity

AU - Bestelmeyer, Patricia

AU - Mühl, Constanze

N1 - No embargo upon publication

PY - 2022/11

Y1 - 2022/11

N2 - Recognising a speaker’s identity by the sound of their voice is important for successful interaction. The skill depends on our ability to discriminate minute variations in the acoustics of the vocal signal. Performance on voice identity assessments varies widely across the population. The neural underpinnings of this ability and its individual differences, however, remain poorly understood. Here we provide critical tests of a theoretical framework for the neural processing stages of voice identity and address how individual differences in identity discrimination mediate activation in this neural network. We scanned 40 individuals on an fMRI adaptation task involving voices drawn from morphed continua between two personally familiar identities. Analyses dissociated neuronal effects induced by repetition of acoustically similar morphs from those induced by a switch in perceived identity. Activation in temporal voice-sensitive areas decreased with acoustic similarity between consecutive stimuli. This repetition suppression effect was mediated by the performance on an independent voice assessment and this result highlights an important functional role of adaptive coding in voice expertise. Bilateral anterior insulae and medial frontal gyri responded to a switch in perceived voice identity compared to an acoustically equidistant switch within identity. Our results support a multistep model of voice identity perception.

AB - Recognising a speaker’s identity by the sound of their voice is important for successful interaction. The skill depends on our ability to discriminate minute variations in the acoustics of the vocal signal. Performance on voice identity assessments varies widely across the population. The neural underpinnings of this ability and its individual differences, however, remain poorly understood. Here we provide critical tests of a theoretical framework for the neural processing stages of voice identity and address how individual differences in identity discrimination mediate activation in this neural network. We scanned 40 individuals on an fMRI adaptation task involving voices drawn from morphed continua between two personally familiar identities. Analyses dissociated neuronal effects induced by repetition of acoustically similar morphs from those induced by a switch in perceived identity. Activation in temporal voice-sensitive areas decreased with acoustic similarity between consecutive stimuli. This repetition suppression effect was mediated by the performance on an independent voice assessment and this result highlights an important functional role of adaptive coding in voice expertise. Bilateral anterior insulae and medial frontal gyri responded to a switch in perceived voice identity compared to an acoustically equidistant switch within identity. Our results support a multistep model of voice identity perception.

KW - carry-over desing

KW - fMRI adaptation

KW - individual differences

KW - repetition suppression

KW - voice identity

U2 - 10.1016/j.neuroimage.2022.119647

DO - 10.1016/j.neuroimage.2022.119647

M3 - Article

VL - 263

JO - Neuroimage

JF - Neuroimage

SN - 1053-8119

M1 - 119647

ER -