Electrophysiological signatures of visual temporal processing deficits in developmental dyslexia.

Psychophysiology Pub Date : 2024-02-01 Epub Date: 2023-09-29 DOI:10.1111/psyp.14447
Alessia Santoni, David Melcher, Laura Franchin, Luca Ronconi
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Abstract

Developmental dyslexia (DD) is a common neurodevelopmental disorder that affects reading ability despite normal intelligence and education. In search of core deficits, previous evidence has linked DD with impairments in temporal aspects of perceptual processing, which might underlie phonological deficits as well as inefficient graphemic parsing during reading. However, electrophysiological evidence for atypical temporal processing in DD is still scarce in the visual modality. Here, we investigated the efficiency of both temporal segregation and integration of visual information by means of event-related potentials (ERPs). We confirmed previous evidence of a selective segregation deficit in dyslexia for stimuli presented in rapid succession (<80 ms), despite unaffected integration performance. Importantly, we found a reduced N1 amplitude in DD, a component related to the allocation of attentional resources, which was independent of task demands (i.e., evident in both segregation and integration). In addition, the P3 amplitude, linked to working memory and processing load, was modulated by task demands in controls but not in individuals with DD. These results suggest that atypical attentional sampling in dyslexia might weaken the quality of information stored in visual working memory, leading to behavioral and electrophysiological signatures of atypical temporal segregation. These results are consistent with some existing theories of dyslexia, such as the magnocellular theory and the "Sluggish Attentional Shifting" framework, and represent novel evidence for neural correlates of decreased visual temporal resolution in DD.

发育性阅读障碍视觉-时间处理缺陷的电生理特征。
发展性阅读障碍(DD)是一种常见的神经发育障碍,尽管智力和教育水平正常,但仍会影响阅读能力。在寻找核心缺陷的过程中,先前的证据将DD与感知处理的时间方面的损伤联系起来,这可能是语音缺陷以及阅读过程中低效的字形解析的基础。然而,在视觉模式中,DD中非典型时间处理的电生理学证据仍然很少。在这里,我们通过事件相关电位(ERPs)研究了视觉信息的时间分离和整合的效率。我们证实了先前的证据,即对于快速连续出现的刺激,阅读障碍存在选择性分离缺陷(
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