The Acute Effects of the Atypical Dissociative Hallucinogen Salvinorin A on Functional Connectivity in the Human Brain

The Acute Effects of the Atypical Dissociative Hallucinogen Salvinorin A on Functional Connectivity in the Human Brain

Salvinorin A (SA) is a κ-opioid receptor agonist and atypical dissociative hallucinogen found in Salvia divinorum . Despite the resurgence of hallucinogen studies, the effects of κ-opioid agonists on human brain function are not well-understood. This placebo-controlled, within-subject study used fun...

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Veröffentlicht in:Scientific reports 2020-10, Vol.10 (1), p.16392, Article 16392
Hauptverfasser: Doss, Manoj K., May, Darrick G., Johnson, Matthew W., Clifton, John M., Hedrick, Sidnee L., Prisinzano, Thomas E., Griffiths, Roland R., Barrett, Frederick S.
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631/378
631/378/116
631/378/2649
Acute effects
Adult
Agonists
Brain
Brain - drug effects
Brain - metabolism
Brain mapping
Connectome - methods
Diterpenes, Clerodane - pharmacology
Entropy
Functional magnetic resonance imaging
Hallucinogens
Hallucinogens - pharmacology
Humanities and Social Sciences
Humans
Magnetic Resonance Imaging
Male
Middle Aged
multidisciplinary
Narcotics
Neural networks
Neuroimaging
Opioid receptors
Receptors, Opioid, kappa - agonists
Salvia - metabolism
Salvinorin A
Science
Science (multidisciplinary)
Young Adult
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container_title Scientific reports
container_volume 10
creator Doss, Manoj K.
May, Darrick G.
Johnson, Matthew W.
Clifton, John M.
Hedrick, Sidnee L.
Prisinzano, Thomas E.
Griffiths, Roland R.
Barrett, Frederick S.
description Salvinorin A (SA) is a κ-opioid receptor agonist and atypical dissociative hallucinogen found in Salvia divinorum . Despite the resurgence of hallucinogen studies, the effects of κ-opioid agonists on human brain function are not well-understood. This placebo-controlled, within-subject study used functional magnetic resonance imaging for the first time to explore the effects of inhaled SA on strength, variability, and entropy of functional connectivity (static, dynamic, and entropic functional connectivity, respectively, or sFC, dFC, and eFC). SA tended to decrease within-network sFC but increase between-network sFC, with the most prominent effect being attenuation of the default mode network (DMN) during the first half of a 20-min scan (i.e., during peak effects). SA reduced brainwide dFC but increased brainwide eFC, though only the former effect survived multiple comparison corrections. Finally, using connectome-based classification, most models trained on dFC network interactions could accurately classify the first half of SA scans. In contrast, few models trained on within- or between-network sFC and eFC performed above chance. Notably, models trained on within-DMN sFC and eFC performed better than models trained on other network interactions. This pattern of SA effects on human brain function is strikingly similar to that of other hallucinogens, necessitating studies of direct comparisons.
doi_str_mv 10.1038/s41598-020-73216-8
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Despite the resurgence of hallucinogen studies, the effects of κ-opioid agonists on human brain function are not well-understood. This placebo-controlled, within-subject study used functional magnetic resonance imaging for the first time to explore the effects of inhaled SA on strength, variability, and entropy of functional connectivity (static, dynamic, and entropic functional connectivity, respectively, or sFC, dFC, and eFC). SA tended to decrease within-network sFC but increase between-network sFC, with the most prominent effect being attenuation of the default mode network (DMN) during the first half of a 20-min scan (i.e., during peak effects). SA reduced brainwide dFC but increased brainwide eFC, though only the former effect survived multiple comparison corrections. Finally, using connectome-based classification, most models trained on dFC network interactions could accurately classify the first half of SA scans. In contrast, few models trained on within- or between-network sFC and eFC performed above chance. Notably, models trained on within-DMN sFC and eFC performed better than models trained on other network interactions. This pattern of SA effects on human brain function is strikingly similar to that of other hallucinogens, necessitating studies of direct comparisons.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>33009457</pmid><doi>10.1038/s41598-020-73216-8</doi><oa>free_for_read</oa></addata></record>
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subjects 631/378
631/378/116
631/378/2649
Acute effects
Adult
Agonists
Brain
Brain - drug effects
Brain - metabolism
Brain mapping
Connectome - methods
Diterpenes, Clerodane - pharmacology
Entropy
Functional magnetic resonance imaging
Hallucinogens
Hallucinogens - pharmacology
Humanities and Social Sciences
Humans
Magnetic Resonance Imaging
Male
Middle Aged
multidisciplinary
Narcotics
Neural networks
Neuroimaging
Opioid receptors
Receptors, Opioid, kappa - agonists
Salvia - metabolism
Salvinorin A
Science
Science (multidisciplinary)
Young Adult
title The Acute Effects of the Atypical Dissociative Hallucinogen Salvinorin A on Functional Connectivity in the Human Brain
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