Neural Markers of Attention at 6 Months Associate With Later Attentional Control Performance

IF 3.1 1区 心理学 Q2 PSYCHOLOGY, DEVELOPMENTAL
Alexandra Hendry, Manuela Stets, Pasco Fearon, Mark Johnson, Karla Holmboe
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Abstract

Attentional control is key to the development of executive functions. Previous research indicates that individual differences in attentional control behaviour may be stable from 6 months. Here, we analyse electroencephalogram data collected from 59 6-month-olds to gain insights into the neural processes underlying attentional control in infancy. First, we examine the neural activity preceding distinct looking behaviours in an attentional control task at 6 months. Second, we test whether those neural markers show predictive associations to behavioural measures of attentional control (Freeze-Frame task) and executive function (A-not-B task) in the same infants at 9 months. Whilst our data do not show evidence that 6–9 Hz power is implicated in attentional control at 6 months, or that the P1 ERP component plays a role in our attentional control task, we do find evidence that corroborates and extends research linking 3–6 Hz power to attentional control. At the group level, frontal 3–6 Hz power recorded whilst looking to a central target before the onset of a peripheral distractor was greater during trials where infants subsequently looked to the distractor, compared with trials where they did not look. Higher 3–6 Hz power in trials where the infant did not look to a peripheral distractor was predictive of less distractibility at 9 months, and higher 3 Hz power in trials where infants did look to the distractor strengthened the predictive association from 6-month EEG to 9-month behaviour. We suggest 3–6 Hz activity may be sensitive to multiple processes, such as anticipatory attention, and the ability to maintain attention on a target.

Abstract Image

6 个月时的注意力神经标记与日后的注意力控制表现有关。
注意力控制是执行功能发展的关键。以往的研究表明,注意力控制行为的个体差异从 6 个月大开始就可能保持稳定。在此,我们分析了 59 名 6 个月大儿童的脑电图数据,以深入了解婴儿期注意力控制的神经过程。首先,我们研究了 6 个月大的婴儿在注意力控制任务中出现不同的注视行为之前的神经活动。其次,我们检验了这些神经标记是否与 9 个月大的同一婴儿的注意控制行为测量(定格任务)和执行功能测量(A-not-B 任务)有预测关联。虽然我们的数据没有显示 6-9 Hz 功率与 6 个月时的注意力控制有关,也没有显示 P1 ERP 成分在注意力控制任务中发挥作用,但我们确实发现了证据,证实并扩展了 3-6 Hz 功率与注意力控制有关的研究。在群体水平上,在外围分心物出现之前,婴儿注视中心目标时记录到的额叶 3-6 Hz 功率,在婴儿随后注视分心物的试验中要比不注视分心物的试验大。在婴儿未注视外围分心物的试验中,3-6 Hz 功率越高,预测婴儿在 9 个月时的分心程度越低;而在婴儿注视分心物的试验中,3 Hz 功率越高,则加强了从 6 个月脑电图到 9 个月行为的预测关联。我们认为,3-6赫兹活动可能对多种过程敏感,如预期注意和保持对目标的注意的能力。
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来源期刊
CiteScore
8.10
自引率
8.10%
发文量
132
期刊介绍: Developmental Science publishes cutting-edge theory and up-to-the-minute research on scientific developmental psychology from leading thinkers in the field. It is currently the only journal that specifically focuses on human developmental cognitive neuroscience. Coverage includes: - Clinical, computational and comparative approaches to development - Key advances in cognitive and social development - Developmental cognitive neuroscience - Functional neuroimaging of the developing brain
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