心理学
认知心理学
焦虑
广泛性焦虑症
临床心理学
精神科
标识
DOI:10.1080/10615806.2023.2262398
摘要
ABSTRACTGlobal-local visuospatial attention is a core mechanism which highly affects the way we process our visuospatial environment. The current study aimed to examine the effect of negative emotions on global-local visuospatial processing in participants with generalized anxiety disorder (GAD) and in healthy controls (HCs). Participants performed two versions of the global-local-arrow task: they were asked to determine the direction (left or right) of the global arrow or of the local arrows that composed it, with or without emotional prime-cues. In the non-emotional task and in the neutral-valence condition of the emotional task, the GAD group did not differ from that of HCs – both groups exhibited a classic global processing bias (reactions to the global dimension were faster and less affected by the local dimension). In the negative-valence condition, global processing bias was only slightly reduced in HCs and almost completely eliminated in the GAD group. The results of the current study suggest that, in non-emotional conditions, global processing bias does not differ significantly between individuals with GAD and HCs. However, task-irrelevant negative cues were found to have a greater impact in reducing global bias for individuals with GAD compared to HCs. Potential implications are discussed.KEYWORDS: Visuospatial attentionNavon taskGlobal-local processingIAPSAnxietyGeneralized anxiety disorder (GAD) AcknowledgmentsI wish to thank the following individuals for their assistance in collecting the data: Ms. Nitzan Ganor, Dr. Amir Avnit, and Ms. Tzlil Malka of Ben-Gurion University, and Mr. Daniel Mandelbaum of the Hebrew University. In addition, I would like to thank Ms. Hadar Naftalovich of the Hebrew University for her input on this article.Disclosure statementNo potential conflict of interest was reported by the author(s).Notes1 For a similar analysis using the interference effect (incongruent – congruent) as a dependent variable, see supplementary materials (S3).Additional informationFundingThis work was supported by the Israel Science Foundation (ISF) under [grant number 1341/18].
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