Pupil dilation reflects covert familiar face recognition under interocular suppression

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-06 DOI:10.1016/j.concog.2024.103726

Manuel Alejandro Mejía , Mitchell Valdés-Sosa , Maria Antonieta Bobes

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Abstract

In prosopagnosia, brain lesions impair overt face recognition, but not face detection, and may coexist with residual covert recognition of familiar faces. Previous studies that simulated covert recognition in healthy individuals have impaired face detection as well as recognition, thus not fully mirroring the deficits in prosopagnosia. We evaluated a model of covert recognition based on continuous flash suppression (CFS). Familiar and unfamiliar faces and houses were masked while participants performed two discrimination tasks. With increased suppression, face/house discrimination remained largely intact, but face familiarity discrimination deteriorated. Covert recognition was present across all masking levels, evinced by higher pupil dilation to familiar than unfamiliar faces. Pupil dilation was uncorrelated with overt performance across subjects. Thus, CFS can impede overt face recognition without disrupting covert recognition and face detection, mirroring critical features of prosopagnosia. CFS could be used to uncover shared neural mechanisms of covert recognition in prosopagnosic patients and neurotypicals.

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瞳孔放大反映了眼间抑制下隐蔽的熟悉面孔识别。

在前脸失认症患者中，脑损伤会损害公开的人脸识别能力，但不会损害人脸检测能力，而且可能同时存在对熟悉人脸的残余隐蔽识别能力。以往模拟健康人隐蔽识别的研究发现，人脸检测和识别都会受损，因此不能完全反映前视症的缺陷。我们评估了基于连续闪光抑制（CFS）的隐蔽识别模型。在参与者进行两项辨别任务时，熟悉和不熟悉的人脸和房屋都会被遮蔽。随着抑制的增加，面孔/房屋辨别能力基本保持不变，但面孔熟悉度辨别能力却有所下降。所有掩蔽水平下都存在隐蔽识别，表现为对熟悉面孔的瞳孔放大高于对陌生面孔的瞳孔放大。不同受试者的瞳孔放大与公开表现无关。因此，CFS 可以阻碍公开的人脸识别，但不会破坏隐蔽识别和人脸检测，这反映了面容失认症的关键特征。CFS可用于揭示嗜脸症患者和神经典型患者隐蔽识别的共同神经机制。

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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