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早期杏仁核损伤会改变恒河猴处理特定物种视听发声的方式。

Early amygdala damage alters the way rhesus macaques process species-specific audio-visual vocalizations.

作者信息

Payne Christa, Bachevalier Jocelyne

机构信息

Department of Psychology, Emory University.

出版信息

Behav Neurosci. 2019 Feb;133(1):1-17. doi: 10.1037/bne0000285.

DOI:10.1037/bne0000285
PMID:30688484
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11731412/
Abstract

Perceiving, integrating, and interpreting multimodal signals are essential for social success, but the neural substrates mediating these functions are not fully understood. This study examined the role of the amygdala in processing bimodal species-specific vocalizations using eye tracking in rhesus macaques. Looking behavior of 6 adult rhesus monkeys with neonatal amygdala lesions (Neo-Aibo; 3M, 3F) was compared with that of 6 sham-operated controls (Neo-C; 3M, 3F). Two side-by-side videos of unknown male conspecifics emitting different vocalizations were presented with the audio signal matching one video. The percentage of time spent looking at each video was used to assess crossmodal integration ability and the percentages of time spent looking at a priori regions of interest (ROIs; eyes, mouth, and rest of each video) were used to characterize scanning patterns. Both groups looked more to one video, indicating that early amygdalar damage did not impair crossmodal integration of complex social signals. However, scanning patterns differed across groups as a function of sex and stimulus parameter. Whereas Neo-C males exhibited differential viewing to the eye and mouth regions as a function of the relative identity of the stimulus animals and Neo-C females made similar distinctions as a function of the relative valence of the vocalizations in females, Neo-Aibo males and females scanned these regions similarly across all trial types. The results suggest that neonatal amygdala damage alters the ability to perceive the social relevance of stimulus features, and are consistent with a role of the amygdala in the recognition of the social salience of complex cues. (PsycINFO Database Record (c) 2019 APA, all rights reserved).

摘要

感知、整合和解释多模态信号对于社交成功至关重要,但介导这些功能的神经基质尚未完全被理解。本研究使用恒河猴的眼动追踪技术,考察了杏仁核在处理双模态物种特异性发声中的作用。将6只新生杏仁核损伤的成年恒河猴(新生杏仁核损伤组;3只雄性,3只雌性)的注视行为与6只假手术对照组(新生对照组;3只雄性,3只雌性)进行比较。呈现两个并排的视频,视频中是发出不同叫声的陌生雄性同种个体,音频信号与其中一个视频匹配。用于评估跨模态整合能力的指标是观看每个视频所花费时间的百分比,用于表征扫描模式的指标是观看先验感兴趣区域(ROI;眼睛、嘴巴以及每个视频的其他部分)所花费时间的百分比。两组都更多地看向一个视频,这表明早期杏仁核损伤并未损害复杂社交信号的跨模态整合。然而,扫描模式因性别和刺激参数的不同而在两组之间存在差异。新生对照组的雄性会根据刺激动物的相对身份对眼睛和嘴巴区域进行差异注视,新生对照组的雌性则会根据雌性发声的相对效价做出类似的区分,而新生杏仁核损伤组的雄性和雌性在所有试验类型中对这些区域的扫描方式都相似。结果表明,新生杏仁核损伤会改变感知刺激特征的社会相关性的能力,这与杏仁核在识别复杂线索的社会显著性中的作用是一致的。(《心理学文摘数据库记录》(c)2019美国心理学会,保留所有权利)

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The effects of neonatal amygdala or hippocampus lesions on adult social behavior.新生儿杏仁核或海马体损伤对成年后社交行为的影响。
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Emotional responses in monkeys differ depending on the stimulus type, sex, and neonatal amygdala lesion status.猴子的情绪反应因刺激类型、性别和新生儿杏仁核损伤状态而异。
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Chemogenetic Inhibition of the Amygdala Modulates Emotional Behavior Expression in Infant Rhesus Monkeys.化学遗传抑制杏仁核调节幼年恒河猴的情绪行为表达。
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