解码快速呈现视觉刺激从前额叶集合没有报告或后知觉处理

IF 3.1 Q1 PSYCHOLOGY, BIOLOGICAL
Joachim Bellet, Marion Gay, A. Dwarakanath, B. Jarraya, Timo van Kerkoerle, S. Dehaene, T. Panagiotaropoulos
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引用次数: 15

摘要

摘要灵长类动物前额叶皮层(PFC)在意识感知中的作用一直存在争议。意识的全局神经元工作空间理论预测PFC神经元应该包含当前意识内容的详细代码。先前的研究表明,PFC确实在有意识视觉感知的范式中被激活,包括没有给出感知的自愿行为报告的无报告范式,从而避免了与视觉意识相关的信号与报告相关的信号的混淆。尽管如此,有人认为前额叶调节可能反映了即使在没有报告的情况下也可能存在的后感知过程,例如思考感知的刺激,因此反映了一种后果,而不是意识体验的直接相关性。在这里,我们通过记录猕猴腹外侧PFC在短暂呈现的视觉刺激期间的神经元集合活动来研究这些问题,无论是在刺激被清晰感知的孤立试验中,还是在感知和感知后处理受到挑战的快速序列视觉呈现(RSVP)序列中。我们报道,即使在RSVP条件下,每个刺激的身份也可以从PFC群体活动中解码。第一个视觉信号可以在60 刺激开始后ms,信息最大值为150 然而,在RSVP条件下,200 刺激开始后ms,解码精度迅速下降到机会水平,下一个刺激开始可解码。有趣的是,与后顶叶皮层相比,在孤立刺激和RSVP刺激下,腹外侧PFC的解码更强。这些结果表明,猕猴PFC中的神经元群体可靠地编码视觉刺激,即使在已经证明挑战意识感知和/或显著降低人类感知后处理概率的条件下也是如此。我们讨论了观察到的激活是否反映了意识进入、现象意识,或者仅仅是一种前意识自下而上的波动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decoding rapidly presented visual stimuli from prefrontal ensembles without report nor post-perceptual processing
Abstract The role of the primate prefrontal cortex (PFC) in conscious perception is debated. The global neuronal workspace theory of consciousness predicts that PFC neurons should contain a detailed code of the current conscious contents. Previous research showed that PFC is indeed activated in paradigms of conscious visual perception, including no-report paradigms where no voluntary behavioral report of the percept is given, thus avoiding a conflation of signals related to visual consciousness with signals related to the report. Still, it has been argued that prefrontal modulation could reflect post-perceptual processes that may be present even in the absence of report, such as thinking about the perceived stimulus, therefore reflecting a consequence rather than a direct correlate of conscious experience. Here, we investigate these issues by recording neuronal ensemble activity from the macaque ventrolateral PFC during briefly presented visual stimuli, either in isolated trials in which stimuli were clearly perceived or in sequences of rapid serial visual presentation (RSVP) in which perception and post-perceptual processing were challenged. We report that the identity of each stimulus could be decoded from PFC population activity even in the RSVP condition. The first visual signals could be detected at 60 ms after stimulus onset and information was maximal at 150 ms. However, in the RSVP condition, 200 ms after the onset of a stimulus, the decoding accuracy quickly dropped to chance level and the next stimulus started to be decodable. Interestingly, decoding in the ventrolateral PFC was stronger compared to posterior parietal cortex for both isolated and RSVP stimuli. These results indicate that neuronal populations in the macaque PFC reliably encode visual stimuli even under conditions that have been shown to challenge conscious perception and/or substantially reduce the probability of post-perceptual processing in humans. We discuss whether the observed activation reflects conscious access, phenomenal consciousness, or merely a preconscious bottom-up wave.
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来源期刊
Neuroscience of Consciousness
Neuroscience of Consciousness Psychology-Clinical Psychology
CiteScore
6.90
自引率
2.40%
发文量
16
审稿时长
19 weeks
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