Pattern reversal chromatic VEPs like onsets, are unaffected by attentional demand.

IF 1.1 4区 医学 Q4 NEUROSCIENCES
Christabel Arthur, Osman B Kavcar, Mackenzie V Wise, Michael A Crognale
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引用次数: 0

Abstract

Attention has been shown to modulate the visual evoked potential (VEP) recorded to reversing achromatic patterns. However, the chromatic onset VEP appears to be robust to attentional shifts. Functional magnetic resonance imaging (fMRI) responses to both chromatic and achromatic reversing patterns are also affected by attention. Resolution and comparison of these results is problematic due to differences in presentation mode, stimulus parameters, and the source of the response. Here, we report the results of experiments using comparable perceptual contrasts, pattern reversals, and a co-extensive and highly demanding multiple object tracking (MOT) task while exploring the effects of attentional modulation across both the chromatic (L - M) and (S - (L + M)) and the achromatic visual pathways. Our findings indicate that although achromatic VEPs are modulated by attention, chromatic VEPs are more robust to attentional modulation, even when using comparable stimulus presentation modes and in the presence of a highly demanding distractor task. In addition, we found that the majority of the modulation appears to be from a relative decrease in response due to the distractor task rather than a relative increase in response during heightened attention to the stimulus.

模式反转色谱 VEP 与起始点一样,不受注意力需求的影响。
研究表明,注意力会调节记录到反向消色差模式的视觉诱发电位(VEP)。然而,色度起始视觉诱发电位似乎对注意力的转移具有稳健性。功能磁共振成像(fMRI)对色度和消色度反转模式的反应也会受到注意力的影响。由于呈现模式、刺激参数和反应源的不同,这些结果的解析和比较存在问题。在这里,我们报告了使用可比较的知觉对比度、图案反转和一个共同的、高要求的多目标追踪(MOT)任务的实验结果,同时探讨了注意力调节对色度(L - M)和(S - (L + M))以及消色差视觉通路的影响。我们的研究结果表明,尽管消色差视觉效应受注意力调制,但色差视觉效应对注意力调制的稳健性更强,即使在使用可比刺激呈现模式和存在高要求分心任务的情况下也是如此。此外,我们还发现,大部分调制似乎是由于分心任务导致的反应相对减少,而不是在高度注意刺激时反应的相对增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Visual Neuroscience
Visual Neuroscience 医学-神经科学
CiteScore
2.20
自引率
5.30%
发文量
8
审稿时长
>12 weeks
期刊介绍: Visual Neuroscience is an international journal devoted to the publication of experimental and theoretical research on biological mechanisms of vision. A major goal of publication is to bring together in one journal a broad range of studies that reflect the diversity and originality of all aspects of neuroscience research relating to the visual system. Contributions may address molecular, cellular or systems-level processes in either vertebrate or invertebrate species. The journal publishes work based on a wide range of technical approaches, including molecular genetics, anatomy, physiology, psychophysics and imaging, and utilizing comparative, developmental, theoretical or computational approaches to understand the biology of vision and visuo-motor control. The journal also publishes research seeking to understand disorders of the visual system and strategies for restoring vision. Studies based exclusively on clinical, psychophysiological or behavioral data are welcomed, provided that they address questions concerning neural mechanisms of vision or provide insight into visual dysfunction.
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