Rankin W McGugin, Allen T Newton, Brianna J Lewis, Caitlin A Convery, Ekomobong E Eyoh, Isabel Gauthier, Carissa J Cascio
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引用次数: 0
Abstract
Gray matter cortical thickness (CT) is related to perceptual abilities. The fusiform face area (FFA) (Kanwisher et al., The Journal of Neuroscience: The Official Journal of the Society for Neuroscience, 17, 4302-4311, 1997) in the inferior temporal lobe is defined by its face selectivity, and the CT of the FFA correlates with the ability to make difficult visual decisions (Bi et al., Current Biology, 24, 222-227, 2014; McGugin et al., Journal of Cognitive Neuroscience, 28, 282-294, 2016, Journal of Cognitive Neuroscience, 32, 1316-1329, 2020). In McGugin et al. Journal of Cognitive Neuroscience, 32, 1316-1329, (2020), individuals with better face recognition had relatively thinner FFAs, whereas those with better car recognition had thicker FFAs. This opposite correlation effect (OCE) for faces and cars was pronounced when we look selectively at the deepest laminar subdivision of the FFA. The OCE is thought to arise because car and face recognition abilities are fine-tuned by experience during different developmental periods. Given autism's impact on face recognition development, we predicted the OCE would not appear in autistic individuals. Our results replicate the OCE in total FFA thickness and in deep layers in neurotypical adults. Importantly, we find a significant reduction of these effects in adults with autism. This supports the idea that the OCE observed in neurotypical adults has a developmental basis. The abnormal OCE in autism is specific to the right FFA, suggesting that group differences depend on local specialization of the FFA, which did not occur in autistic individuals.
灰质皮质厚度(CT)与感知能力有关。下颞叶梭状面区(FFA) (Kanwisher et al., The Journal of Neuroscience: The Official Journal of The Society for Neuroscience, 17, 4302- 4311,1997)由其面部选择性定义,FFA的CT与做出困难视觉决策的能力相关(Bi et al., Current Biology, 24, 222-227, 2014;McGugin et al.,认知神经科学学报,2016,28,282-294,认知神经科学学报,32,1316-1329,2020)。在McGugin等人。认知神经科学学报,32,1316-1329,(2020),人脸识别能力较好的个体ffa相对较薄,而汽车识别能力较好的个体ffa相对较厚。当我们选择性地观察FFA最深层的层流细分时,这种面部和汽车的相反相关效应(OCE)是明显的。人们认为,OCE的出现是因为在不同的发展阶段,汽车和面部识别能力受到经验的微调。鉴于自闭症对面部识别发展的影响,我们预测OCE不会出现在自闭症患者身上。我们的结果在神经正常成人的FFA总厚度和深层中复制了OCE。重要的是,我们发现这些影响在成年自闭症患者中显著减少。这支持了在神经正常成人中观察到的OCE具有发育基础的观点。自闭症患者的异常OCE是特异于右侧FFA的,这表明群体差异取决于FFA的局部专业化,而这在自闭症个体中没有发生。
期刊介绍:
Cognitive, Affective, & Behavioral Neuroscience (CABN) offers theoretical, review, and primary research articles on behavior and brain processes in humans. Coverage includes normal function as well as patients with injuries or processes that influence brain function: neurological disorders, including both healthy and disordered aging; and psychiatric disorders such as schizophrenia and depression. CABN is the leading vehicle for strongly psychologically motivated studies of brain–behavior relationships, through the presentation of papers that integrate psychological theory and the conduct and interpretation of the neuroscientific data. The range of topics includes perception, attention, memory, language, problem solving, reasoning, and decision-making; emotional processes, motivation, reward prediction, and affective states; and individual differences in relevant domains, including personality. Cognitive, Affective, & Behavioral Neuroscience is a publication of the Psychonomic Society.
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