J.M. Péters scite author profile

Rapid-eye-movement (REM) sleep is associated with intense neuronal activity, ocular saccades, muscular atonia and dreaming. The function of REM sleep remains elusive and its neural correlates have not been characterized precisely in man. Here we use positron emission tomography and statistical parametric mapping to study the brain state associated with REM sleep in humans. We report a group study of seven subjects who maintained steady REM sleep during brain scanning and recalled dreams upon awakening. The results show that regional cerebral blood flow is positively correlated with REM sleep in pontine tegmentum, left thalamus, both amygdaloid complexes, anterior cingulate cortex and right parietal operculum. Negative correlations between regional cerebral blood flow and REM sleep are observed bilaterally, in a vast area of dorsolateral prefrontal cortex, in parietal cortex (supramarginal gyrus) as well as in posterior cingulate cortex and precuneus. Given the role of the amygdaloid complexes in the acquisition of emotionally influenced memories, the pattern of activation in the amygdala and the cortical areas provides a biological basis for the processing of some types of memory during REM sleep.

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Functional Neuroanatomy of Human Slow Wave Sleep

Maquet

et al. 1997

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The distribution of regional cerebral blood flow (rCBF) was estimated during sleep and wakefulness by using H 2 15 O positron emission tomography (PET) and statistical parametric mapping. A group analysis on 11 good sleepers (8 with steady slow wave sleep, SWS) showed a significant negative correlation between the occurrence of SWS and rCBF in dorsal pons and mesencephalon, thalami, basal ganglia, basal forebrain/ hypothalamus, orbitofrontal cortex, anterior cingulate cortex, precuneus, and, on the right side, in a region that follows the medial aspect of the temporal lobe. Given the known decrease in global cerebral blood flow levels during SWS, these negative correlations suggest that rCBF is decreased significantly more in these cerebral areas than in the rest of the brain.The marked rCBF decreases in the pons, mesencephalon, thalamic nuclei, and basal forebrain reflect their close implication in the generation of SWS rhythms. The influence of these rhythms on the telencephalon usually are thought to be global and homogeneous. In contrast, our results show that rCBF is decreased more in some cortical areas (especially in orbitofrontal cortex) than in the rest of the cortex. We hypothesize that cellular processes taking place during SWS might be modulated differently in these regions.Given the functions of the ventromedial frontal areas, we surmise that SWS might be particularly critical for the adaptation of behavior to environmental pressures. This hypothesis is supported indirectly by results of sleep deprivation experiments.

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A positron emission tomography study of voluntarily and electrically contracted human quadriceps

et al. 1997

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A positron emission tomography study of voluntarily and electrically contracted human quadriceps

et al. 1997

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Anodic Polarization Behavior of Titanium and Titanium Alloys in Sulfuric Acids

Péters¹,

Myers²

1967

CORROSION

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J.M. Péters

Functional neuroanatomy of human rapid-eye-movement sleep and dreaming

Functional Neuroanatomy of Human Slow Wave Sleep

A positron emission tomography study of voluntarily and electrically contracted human quadriceps

A positron emission tomography study of voluntarily and electrically contracted human quadriceps

Anodic Polarization Behavior of Titanium and Titanium Alloys in Sulfuric Acids

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