视觉和顶叶皮层的神经表征区分想象、感知和虚幻体验

Siyi Li, Xue-ling Zeng, Zhujun Shao, Qing Yu
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引用次数: 1

摘要

人类不断地接收大量的信息,这些信息既有来自外部环境的感知,也有来自内部世界的想象。为了正常工作,大脑需要正确识别正在处理的信息的来源。最近的研究表明知觉和意象的共同神经基质。然而,目前还不清楚大脑如何区分共享神经代码的外部和内部体验。在这里,我们通过系统地研究从自愿意象、真实感知和幻觉中产生和维持视觉信息的神经过程,在人类参与者(男性和女性)中测试了这个问题。错觉的包含使我们能够区分客观和主观的内在性:虽然错觉有客观的内部起源,可以被视为无意识的意象,但它也被主观上认为具有像感知一样的外部起源。结合fMRI、眼动追踪、多变量解码和编码方法,我们观察到在成像过程中,顶叶皮层的定向表征优于感知,而在早期视觉皮层中相反。从早期视觉皮层到顶叶皮层,这种意象优势沿着后-前皮层层次逐渐发展,出现于意象早期,持续到延迟期,并在各种想象内容中持续存在。此外,幻觉的表征强度与早期视觉皮层的图像更相似,但与顶叶皮层的感知更相似,这表明与早期视觉皮层相反,顶叶皮层的内容特异性表征区分主观上的内部和外部体验。这些发现共同支持顶叶皮层在内部生成经验中的域一般参与。大脑是如何区分想象体验和感知体验的?结合fMRI、眼动追踪、多元解码和编码方法,目前的研究揭示了视觉图像中源自顶叶皮层的刺激特异性表征增强,支持图像的主观体验。视觉错觉的证据进一步证实了这一神经原理,其中幻觉在不同的皮层层次上类似于感知和图像。我们的研究结果为顶叶皮层作为特定内容意象的域一般区域的关键作用提供了直接证据,并为主观内部和外部体验之间差异的神经机制提供了新的见解。
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Neural Representations in Visual and Parietal Cortex Differentiate between Imagined, Perceived, and Illusory Experiences
Humans constantly receive massive amounts of information, both perceived from the external environment and imagined from the internal world. To function properly, the brain needs to correctly identify the origin of information being processed. Recent work has suggested common neural substrates for perception and imagery. However, it has remained unclear how the brain differentiates between external and internal experiences with shared neural codes. Here we tested this question in human participants (male and female) by systematically investigating the neural processes underlying the generation and maintenance of visual information from voluntary imagery, veridical perception, and illusion. The inclusion of illusion allowed us to differentiate between objective and subjective internality: while illusion has an objectively internal origin and can be viewed as involuntary imagery, it is also subjectively perceived as having an external origin like perception. Combining fMRI, eye-tracking, multivariate decoding, and encoding approaches, we observed superior orientation representations in parietal cortex during imagery compared with perception, and conversely in early visual cortex. This imagery dominance gradually developed along a posterior-to-anterior cortical hierarchy from early visual to parietal cortex, emerged in the early epoch of imagery and sustained into the delay epoch, and persisted across varied imagined contents. Moreover, representational strength of illusion was more comparable to imagery in early visual cortex, but more comparable to perception in parietal cortex, suggesting content-specific representations in parietal cortex differentiate between subjectively internal and external experiences, as opposed to early visual cortex. These findings together support a domain-general engagement of parietal cortex in internally generated experience. SIGNIFICANCE STATEMENT How does the brain differentiate between imagined and perceived experiences? Combining fMRI, eye-tracking, multivariate decoding, and encoding approaches, the current study revealed enhanced stimulus-specific representations in visual imagery originating from parietal cortex, supporting the subjective experience of imagery. This neural principle was further validated by evidence from visual illusion, wherein illusion resembled perception and imagery at different levels of cortical hierarchy. Our findings provide direct evidence for the critical role of parietal cortex as a domain-general region for content-specific imagery, and offer new insights into the neural mechanisms underlying the differentiation between subjectively internal and external experiences.
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