Pharmaco-EEG Studies in Animals: An Overview of Contemporary Translational Applications

Pharmaco-EEG Studies in Animals: An Overview of Contemporary Translational Applications

The contemporary value of animal pharmaco-electroencephalography (p-EEG)-based applications are strongly interlinked with progress in recording and neuroscience analysis methodology. While p-EEG in humans and animals has been shown to be closely related in terms of underlying neuronal substrates, bo...

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Bibliographic Details
Published in:Neuropsychobiology Vol. 72; no. 3-4; p. 151
Main Authors: Drinkenburg, Wilhelmus H I M, Ruigt, Gé S F, Ahnaou, Abdallah
Format: Journal Article
Language:English
Published: Switzerland 01-01-2015
Subjects:
Animals
Brain Waves - drug effects
Central Nervous System Agents - pharmacology
Central Nervous System Agents - therapeutic use
Disease Models, Animal
Electroencephalography
Humans
Mental Disorders - drug therapy
Mental Disorders - physiopathology
Nervous System Diseases - drug therapy
Nervous System Diseases - physiopathology
Translational Medical Research - instrumentation
Translational Medical Research - methods
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Summary:The contemporary value of animal pharmaco-electroencephalography (p-EEG)-based applications are strongly interlinked with progress in recording and neuroscience analysis methodology. While p-EEG in humans and animals has been shown to be closely related in terms of underlying neuronal substrates, both translational and back-translational approaches are being used to address extrapolation issues and optimize the translational validity of preclinical animal p-EEG paradigms and data. Present applications build further on animal p-EEG and pharmaco-sleep EEG findings, but also on stimulation protocols, more specifically pharmaco-event-related potentials. Pharmaceutical research into novel treatments for neurological and psychiatric diseases has employed an increasing number of pharmacological as well as transgenic models to assess the potential therapeutic involvement of different neurochemical systems and novel drug targets as well as underlying neuronal connectivity and synaptic function. Consequently, p-EEG studies, now also readily applied in modeled animals, continue to have an important role in drug discovery and development, with progressively more emphasis on its potential as a central readout for target engagement and as a (translational) functional marker of neuronal circuit processes underlying normal and pathological brain functioning. In a similar vein as was done for human p-EEG studies, the contribution of animal p-EEG studies can further benefit by adherence to guidelines for methodological standardization, which are presently under construction by the International Pharmaco-EEG Society (IPEG).
ISSN:1423-0224
DOI:10.1159/000442210