Sleep and memory consolidation: The role of electrophysiological neuroimagingSchlaf und Gedächtniskonsolidierung: Welchen Beitrag kann elektrophysiologisches Neuroimaging liefern?

Memory consolidation involves a complex series of molecular, cellular and network-level processes that take place on time scales from millisecond to months. Evidence from a wide range of experimental observations supports the hypothesis that parts of these processes occur during sleep when the brain is not engaged in processing and encoding incoming information. Indeed, sleep seems to be favorable for brain plasticity. Experience-dependent cortical plasticity observed during sleep has been hypothesized to be part of the global process of memory consolidation. Thus, studying task-dependent regionally specific reactivation of neuronal assemblies during posttraining sleep may make important contributions to elucidating the role of sleep in memory trace processing. A new methodology—low-resolution brain electromagnetic tomography (LORETA)—offers the possibility of localizing electrical activity produced by cortical neuronal generators under normal (undisturbed) sleeping conditions. The high time resolution of brain electrical data can be exploited to produce neuroimages for specific EEG spectral frequency bands (e.g. delta, theta, or spindle bands). This makes it possible to investigate, dependent on the type of memory, when—in which sleep stages (S2 sleep, SWS, REM sleep)—and where—in which cortical brain regions (primary sensory cortex, higher association cortex)—experience-dependent reactivation occurs.