Dyadic interaction processing in the posterior temporal cortex

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Dyadic interaction processing in the posterior temporal cortex. / Walbrin, Jon; Koldewyn, Kami.
In: Neuroimage, Vol. 198, No. September, 09.2019, p. 296-302.

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Walbrin J, Koldewyn K. Dyadic interaction processing in the posterior temporal cortex. Neuroimage. 2019 Sept;198(September):296-302. Epub 2019 May 14. doi: 10.1016/j.neuroimage.2019.05.027

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Walbrin, Jon ; Koldewyn, Kami. / Dyadic interaction processing in the posterior temporal cortex. In: Neuroimage. 2019 ; Vol. 198, No. September. pp. 296-302.

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TY - JOUR

T1 - Dyadic interaction processing in the posterior temporal cortex

AU - Walbrin, Jon

AU - Koldewyn, Kami

N1 - Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.

PY - 2019/9

Y1 - 2019/9

N2 - Recent behavioural evidence shows that visual displays of two individuals interacting are not simply encoded as separate individuals, but as an interactive unit that is 'more than the sum of its parts'. Recent functional magnetic resonance imaging (fMRI) evidence shows the importance of the posterior superior temporal sulcus (pSTS) in processing human social interactions, and suggests that it may represent human-object interactions as qualitatively 'greater' than the average of their constituent parts. The current study aimed to investigate whether the pSTS or other posterior temporal lobe region(s): 1) Demonstrated evidence of a dyadic information effect - that is, qualitatively different responses to an interacting dyad than to averaged responses of the same two interactors, presented in isolation, and; 2) Significantly differentiated between different types of social interactions. Multivoxel pattern analysis was performed in which a classifier was trained to differentiate between qualitatively different types of dyadic interactions. Above-chance classification of interactions was observed in 'interaction selective' pSTS-I and extrastriate body area (EBA), but not in other regions of interest (i.e. face-selective STS and mentalizing-selective temporo-parietal junction). A dyadic information effect was not observed in the pSTS-I, but instead was shown in the EBA; that is, classification of dyadic interactions did not fully generalise to averaged responses to the isolated interactors, indicating that dyadic representations in the EBA contain unique information that cannot be recovered from the interactors presented in isolation. These findings complement previous observations for congruent grouping of human bodies and objects in the broader lateral occipital temporal cortex area.

AB - Recent behavioural evidence shows that visual displays of two individuals interacting are not simply encoded as separate individuals, but as an interactive unit that is 'more than the sum of its parts'. Recent functional magnetic resonance imaging (fMRI) evidence shows the importance of the posterior superior temporal sulcus (pSTS) in processing human social interactions, and suggests that it may represent human-object interactions as qualitatively 'greater' than the average of their constituent parts. The current study aimed to investigate whether the pSTS or other posterior temporal lobe region(s): 1) Demonstrated evidence of a dyadic information effect - that is, qualitatively different responses to an interacting dyad than to averaged responses of the same two interactors, presented in isolation, and; 2) Significantly differentiated between different types of social interactions. Multivoxel pattern analysis was performed in which a classifier was trained to differentiate between qualitatively different types of dyadic interactions. Above-chance classification of interactions was observed in 'interaction selective' pSTS-I and extrastriate body area (EBA), but not in other regions of interest (i.e. face-selective STS and mentalizing-selective temporo-parietal junction). A dyadic information effect was not observed in the pSTS-I, but instead was shown in the EBA; that is, classification of dyadic interactions did not fully generalise to averaged responses to the isolated interactors, indicating that dyadic representations in the EBA contain unique information that cannot be recovered from the interactors presented in isolation. These findings complement previous observations for congruent grouping of human bodies and objects in the broader lateral occipital temporal cortex area.

KW - Adolescent

KW - Adult

KW - Brain Mapping

KW - Female

KW - Humans

KW - Interpersonal Relations

KW - Magnetic Resonance Imaging

KW - Male

KW - Occipital Lobe/physiology

KW - Pattern Recognition, Visual/physiology

KW - Social Perception

KW - Support Vector Machine

KW - Temporal Lobe/physiology

KW - Young Adult

U2 - 10.1016/j.neuroimage.2019.05.027

DO - 10.1016/j.neuroimage.2019.05.027

M3 - Article

C2 - 31100434

VL - 198

SP - 296

EP - 302

JO - Neuroimage

JF - Neuroimage

SN - 1053-8119

IS - September

ER -