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Intracranial neural representation of phenomenal and access consciousness in the human brain

Zepeng Fang, Yuanyuan Dang, Xiaoli Li, Qianchuan Zhao, Mingsha Zhang, Hulin Zhao

bioRxiv April 8, 2024 preprint DOI: 10.1101/2024.04.05.588216 via Semantic Scholar

Summary

Using electrodes implanted in epilepsy patients, this study recorded local field potentials during a visual awareness task. Neural activity related to conscious perception showed two distinct latencies: short and long, with most brain regions having one type except the lateral prefrontal cortex, which had both. Early activity was confined to the contralateral side of the brain, while late activity appeared on both sides. Information flowed from early to late sites. These findings provide direct evidence for two separate processes underlying conscious perception, known as phenomenal and access consciousness, and clarify their brain dynamics.

Study at a glance

Design observational cohort
Population epilepsy patients with implanted electrodes
Key finding The lateral prefrontal cortex mixes short- and long-latency awareness-related activity, linking phenomenal and access consciousness, but the division between these processes is not as simple as previously proposed.

Abstract

After more than 30 years of extensive investigation, impressive progress has been made in identifying the neural correlates of consciousness (NCC). However, the functional role of spatiotemporally distinct consciousness-related neural activity in conscious perception is debated. Based on empirical EEG findings, e.g., of the enhanced early negative wave and late positive wave under conscious conditions, an influential framework proposed that consciousness-related neural activities could be dissociated into two distinct processes: phenomenal and access consciousness. This framework has been supported mainly by comparison of neural activity between report and no-report paradigms; however, though hotly debated, its authenticity has not been examined in a single paradigm with more informative intracranial recordings. In the present study, we employed a novel visual awareness task and recorded the local field potential (LFP) of epilepsy patients with electrodes implanted in cortical and subcortical regions. Overall, we found that the latency of visual awareness-related activity exhibited a bimodal distribution, and the recording sites with short and long latencies were largely separated in location, except in the lateral prefrontal cortex (lPFC). The mixture of short and long latencies in the lPFC indicates that it plays a critical role in linking phenomenal and access consciousness. However, the division between the two is not as simple as the central sulcus, as proposed previously. Moreover, in 4 patients with electrodes implanted in the bilateral prefrontal cortex, early awareness-related activity was confined to the contralateral side, while late awareness-related activity appeared on both sides. Finally, Granger causality analysis showed that awareness-related information flowed from the early sites to the late sites. These results provide the first LFP evidence of neural correlates of phenomenal and access consciousness, which sheds light on the spatiotemporal dynamics of NCC in the human brain.

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