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在物体识别过程中,左右眶额皮质的空间频率呈现双峰调谐曲线。

A bimodal tuning curve for spatial frequency across left and right human orbital frontal cortex during object recognition.

机构信息

Department of Brain and Cognitive Sciences, University of Rochester, Rochester NY 14627, USA.

出版信息

Cereb Cortex. 2014 May;24(5):1311-8. doi: 10.1093/cercor/bhs419. Epub 2013 Jan 10.

DOI:10.1093/cercor/bhs419
PMID:23307636
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3977622/
Abstract

Orbital frontal cortex (OFC) is known to play a role in object recognition by generating "first-pass" hypotheses about the identity of naturalistic images based on low spatial frequency (SF) information. These hypotheses are evaluated by more detailed (and slower) ventral visual pathway processes. While it has been suggested on theoretical grounds, it remains unknown whether OFC also receives postrecognition feedback about stimulus identity. We used a novel paradigm in the context of functional magnetic resonance imaging that permits the first few hundred milliseconds of object recognition to be spread out over 120 s. OFC shows a robust response to low and relatively high SFs, whereas ventral stream regions display unimodal response distributions shifted toward high SFs. These findings in OFC were modulated by hemisphere, with right OFC differentially responding to low SFs and left OFC differentially responding to high SFs. Psychophysical experiments confirmed that the same ranges of SFs preferred by ventral stream regions are critical for determining the accuracy and speed of object recognition. Our findings indicate that OFC accesses global form (low SF information, right OFC) and object identity (high SF information, left OFC), and suggest that OFC receives feedback about the accuracy of its initial hypothesis regarding stimulus identity.

摘要

眶额皮层(OFC)在基于低空间频率(SF)信息对自然图像的身份产生“首次通过”假设方面,被认为在物体识别中发挥作用。这些假设通过更详细(和更慢)的腹侧视觉通路过程进行评估。虽然从理论上已经提出,但仍不清楚 OFC 是否也会收到关于刺激身份的识别后反馈。我们在功能磁共振成像的背景下使用了一种新的范式,该范式允许将物体识别的最初几百毫秒扩展到 120 秒。OFC 对低和相对高 SF 显示出强烈的反应,而腹侧流区域显示出朝向高 SF 的单峰反应分布。OFC 中的这些发现受到半球的调节,右侧 OFC 对低 SF 有差异反应,左侧 OFC 对高 SF 有差异反应。心理物理学实验证实,腹侧流区域偏好的相同 SF 范围对于确定物体识别的准确性和速度至关重要。我们的发现表明,OFC 访问全局形式(低 SF 信息,右侧 OFC)和物体身份(高 SF 信息,左侧 OFC),并表明 OFC 会收到有关其关于刺激身份的初始假设准确性的反馈。

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