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Abstract

Sleep can be addressed across the entire hierarchy of biological organization. We discuss neuronal-network and regional forebrain activity during sleep, and its consequences for consciousness and cognition. Complex interactions in thalamocortical circuits maintain the electroencephalographic oscillations of non-rapid eye movement (NREM) sleep. Functional neuroimaging affords views of the human brain in both NREM and REM sleep, and has informed new concepts of the neural basis of dreaming during REM sleep -- a state that is characterized by illogic, hallucinosis and emotionality compared with waking. Replay of waking neuronal activity during sleep in the rodent hippocampus and in functional images of human brains indicates possible roles for sleep in neuroplasticity. Different forms and stages of learning and memory might benefit from different stages of sleep and be subserved by different forebrain regions.

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The distributed human neural system for face perception

James V. Haxby, Elizabeth A. Hoffman, M.Ida Gobbini (2000)

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Subcortical and cortical brain activity during the feeling of self-generated emotions.

A Damasio, T Grabowski, A Bechara … (2000)

In a series of [15O]PET experiments aimed at investigating the neural basis of emotion and feeling, 41 normal subjects recalled and re-experienced personal life episodes marked by sadness, happiness, anger or fear. We tested the hypothesis that the process of feeling emotions requires the participation of brain regions, such as the somatosensory cortices and the upper brainstem nuclei, that are involved in the mapping and/or regulation of internal organism states. Such areas were indeed engaged, underscoring the close relationship between emotion and homeostasis. The findings also lend support to the idea that the subjective process of feeling emotions is partly grounded in dynamic neural maps, which represent several aspects of the organism's continuously changing internal state.

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Primate anterior cingulate cortex: where motor control, drive and cognition interface.

T. Paus (2001)

Controversy surrounds the function of the anterior cingulate cortex. Recent discussions about its role in behavioural control have centred on three main issues: its involvement in motor control, its proposed role in cognition and its relationship with the arousal/drive state of the organism. I argue that the overlap of these three domains is key to distinguishing the anterior cingulate cortex from other frontal regions, placing it in a unique position to translate intentions to actions.

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PubMed ID:: 12209117

DOI:: 10.1038/nrn915

ScienceOpen disciplines: Chemistry

Keywords: Animals,Cognition,physiology,Consciousness,Energy Metabolism,Humans,Learning,Models, Neurological,Nerve Net,cytology,Neuronal Plasticity,Prosencephalon,Sleep,Sleep, REM,Synaptic Transmission

The cognitive neuroscience of sleep: neuronal systems, consciousness and learning.

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Abstract

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Science of nonlocal Consciousness

Most cited references 120

The distributed human neural system for face perception

Subcortical and cortical brain activity during the feeling of self-generated emotions.

Primate anterior cingulate cortex: where motor control, drive and cognition interface.

Author and article information

Journal

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