Differential effects of haloperidol on neural oscillations during wakefulness and sleep

Differential effects of haloperidol on neural oscillations during wakefulness and sleep

•Brain activity includes both oscillatory and aperiodic components.•Dopamine may modulate these components differently.•Haloperidol influences oscillatory, but not aperiodic, activity.•Oscillatory activity modulation occurs across the brain. The electrical activity of the brain, characterized by its...

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Bibliographic Details
Published in:Neuroscience Vol. 560; pp. 67 - 76
Main Authors: Gallo, Diego, Cavelli, Matias, Castro-Zaballa, Santiago, Castro-Nin, Juan Pedro, Pascovich, Claudia, Torterolo, Pablo, González, Joaquín
Format: Journal Article
Language:English
Published: United States Elsevier Inc 12-11-2024
Subjects:
1/f
Alpha
Aperiodic Activity
Dopamine
Gamma
Neural Oscillations
Power Spectra
Sleep
Gamma
Aperiodic Activity
Dopamine
Sleep
1/f
Alpha
Neural Oscillations
Power Spectra
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Summary:•Brain activity includes both oscillatory and aperiodic components.•Dopamine may modulate these components differently.•Haloperidol influences oscillatory, but not aperiodic, activity.•Oscillatory activity modulation occurs across the brain. The electrical activity of the brain, characterized by its frequency components, reflects a complex interplay between periodic (oscillatory) and aperiodic components. These components are associated with various neurophysiological processes, such as the excitation-inhibition balance (aperiodic activity) or interregional communication (oscillatory activity). However, we do not fully understand whether these components are truly independent or if different neuromodulators affect them in different ways. The dopaminergic system has a critical role for cognition and motivation, being a potential modulator of these power spectrum components. To improve our understanding of these questions, we investigated the differential effects of this system on these components using electrocorticogram recordings in cats, which show clear oscillations and aperiodic 1/f activity. Specifically, we focused on the effects of haloperidol (a D2 receptor antagonist) on oscillatory and aperiodic dynamics during wakefulness and sleep. By parameterizing the power spectrum into these two components, our findings reveal a robust modulation of oscillatory activity by the D2 receptor across the brain. Surprisingly, aperiodic activity was not significantly affected and exhibited inconsistent changes across the brain. This suggests a nuanced interplay between neuromodulation and the distinct components of brain oscillations, providing insights into the selective regulation of oscillatory dynamics in awake states.
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ISSN:0306-4522
1873-7544
1873-7544
DOI:10.1016/j.neuroscience.2024.09.020