Interoceptive signals shape the earliest markers and neural pathway to awareness at the visual threshold.

IF 9.4 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Proceedings of the National Academy of Sciences of the United States of America Pub Date : 2024-09-10 Epub Date: 2024-09-03 DOI:10.1073/pnas.2311953121
Viviana Leupin, Juliane Britz
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Abstract

Variations in interoceptive signals from the baroreceptors (BRs) across the cardiac and respiratory cycle can modulate cortical excitability and so affect awareness. It remains debated at what stages of processing they affect awareness-related event-related potentials (ERPs) in different sensory modalities. We investigated the influence of the cardiac (systole/diastole) and the respiratory (inhalation/exhalation) phase on awareness-related ERPs. Subjects discriminated visual threshold stimuli while their electroencephalogram, electrocardiogram, and respiration were simultaneously recorded. We compared ERPs and their intracranial generators for stimuli classified correctly with and without awareness as a function of the cardiac and respiratory phase. Cyclic variations of interoceptive signals from the BRs modulated both the earliest electrophysiological markers and the trajectory of brain activity when subjects became aware of the stimuli: an early sensory component (P1) was the earliest marker of awareness for low (diastole/inhalation) and a perceptual component (visual awareness negativity) for high (systole/exhalation) BR activity, indicating that BR signals interfere with the sensory processing of the visual input. Likewise, activity spread from the primary visceral cortex (posterior insula) to posterior parietal cortices during high and from associative interoceptive centers (anterior insula) to the prefrontal cortex during low BR activity. Consciousness is thereby resolved in cognitive/associative regions when BR is low and in perceptual centers when it is high. Our results suggest that cyclic fluctuations of BR signaling affect both the earliest markers of awareness and the brain processes underlying conscious awareness.

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互感信号塑造了视觉阈值意识的最早标记和神经通路。
气压感受器(BR)发出的感知间信号在整个心脏和呼吸周期中的变化可调节大脑皮层的兴奋性,从而影响意识。至于这些信号在不同感觉模式的哪个处理阶段会影响与意识相关的事件相关电位(ERPs),目前仍存在争议。我们研究了心脏(收缩/舒张)和呼吸(吸气/呼气)阶段对意识相关 ERP 的影响。受试者在辨别视觉阈值刺激的同时,脑电图、心电图和呼吸也被同时记录下来。我们比较了在有知觉和无知觉的情况下正确分辨刺激的ERP及其颅内发生器与心脏和呼吸相位的函数关系。当受试者意识到刺激时,来自心脏间歇器的感知间信号的周期性变化调节了最早的电生理标记和大脑活动轨迹:早期感觉成分(P1)是低(舒张/吸气)心脏间歇器活动的最早意识标记,而知觉成分(视觉意识否定性)则是高(收缩/呼气)心脏间歇器活动的最早意识标记,这表明心脏间歇器信号干扰了视觉输入的感觉处理。同样,在高BR活动时,活动从初级内脏皮层(后岛叶)扩散到后顶叶皮层,而在低BR活动时,活动从联想互感中心(前岛叶)扩散到前额叶皮层。因此,当 BR 值较低时,意识在认知/联想区域得到解决;当 BR 值较高时,意识在感知中心得到解决。我们的研究结果表明,BR 信号的周期性波动既影响意识的最早标记,也影响作为意识基础的大脑过程。
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来源期刊
CiteScore
19.00
自引率
0.90%
发文量
3575
审稿时长
2.5 months
期刊介绍: The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.
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