The role of preSMA and STS in face recognition: A transcranial magnetic stimulation (TMS) study

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Silvia Gobbo , Carlotta Lega , Angelica De Sandi , Roberta Daini
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引用次数: 0

Abstract

Current models propose that facial recognition is mediated by two independent yet interacting anatomo-functional systems: one processing facial features mainly mediated by the Fusiform Face Area and the other involved in the extraction of dynamic information from faces, subserved by Superior Temporal Sulcus (STS). Also, the pre-Supplementary Motor Area (pre-SMA) is implicated in facial expression processing as it is involved in its motor mimicry. However, the literature only shows evidence of the implication of STS and preSMA for facial expression recognition, without relating it to face recognition. In addition, the literature shows a facilitatory role of facial motion in the recognition of unfamiliar faces, particularly for poor recognizers. The present study aimed at studying the role of STS and preSMA in unfamiliar face recognition in people with different face recognition skills. 34 healthy participants received repetitive transcranial magnetic stimulation over the right posterior STS, pre-SMA and as sham during a task of matching of faces encoded through: facial expression, rigid head movement or as static (i.e., absence of any facial or head motion). All faces were represented without emotional content. Results indicate that STS has a direct role in recognizing identities through rigid head movement and an indirect role in facial expression processing. This dissociation represents a step forward with respect to current face processing models suggesting that different types of motion involve separate brain and cognitive processes. PreSMA interacts with face recognition skills, increasing the performance of poor recognizers and decreasing that of good recognizers in all presentation conditions. Together, the results suggest the use of at least partially different mechanisms for face recognition in poor and good recognizers and a different role of STS and preSMA in face recognition.

前SMA和STS在人脸识别中的作用:经颅磁刺激(TMS)研究。
目前的模型认为,面部识别由两个独立但相互影响的解剖功能系统介导:一个主要由纺锤形面区(Fusiform Face Area)介导,用于处理面部特征;另一个由颞上沟(Superior Temporal Sulcus,STS)介导,用于从面部提取动态信息。此外,前辅助运动区(pre-SMA)也与面部表情处理有关,因为它参与了面部表情的运动模仿。然而,文献只显示了 STS 和前 SMA 对面部表情识别的影响,却没有将其与人脸识别联系起来。此外,文献还显示,面部运动对识别陌生面孔有促进作用,尤其是对识别能力较差的人而言。本研究旨在研究 STS 和 preSMA 在具有不同人脸识别能力的人识别陌生人脸时的作用。34 名健康参与者在匹配通过面部表情、头部僵硬运动或静态(即没有任何面部或头部运动)编码的人脸时,接受了对右后方 STS、前 SMA 和假体的重复经颅磁刺激。所有的面孔都没有情感内容。结果表明,STS 在通过头部僵硬运动识别身份方面起着直接作用,而在面部表情处理方面则起着间接作用。目前的人脸加工模型认为,不同类型的运动涉及不同的大脑和认知过程,而这种分离代表了一种进步。前SMA与人脸识别技能相互作用,在所有呈现条件下都会提高识别能力差的人的识别能力,降低识别能力强的人的识别能力。这些结果表明,识别能力差的人和识别能力好的人在人脸识别方面至少使用了部分不同的机制,而且 STS 和 preSMA 在人脸识别中扮演着不同的角色。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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