3-HO-PCE: Difference between revisions

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'''3-Hydroxyeticyclidine''' (commonly known as '''3-HO-PCE''') is a novel synthetic [[Psychoactive class::dissociative]] substance of the [[Chemical class::arylcyclohexylamine]] chemical class ~~that~~ produces potent, dose-sensitive [[dissociative]], [[hallucinogenic]] and [[euphoric]] effects when [[Routes of administration|administered]]. Unlike its close structural analog [[3-HO-PCP]], this compound is entirely novel and has no precedent in the scientific literature before being offered on the research chemicals market in the 2010s.<ref name="PCP2MXE">Morris, H., & Wallach, J. (2014). From PCP to MXE: A comprehensive review of the non-medical use of dissociative drugs. Drug Testing and Analysis, 6(7–8), 614–632. https://doi.org/10.1002/dta.1620</ref>

'''3-Hydroxyeticyclidine''' (commonly known as '''3-HO-PCE''') is a novel synthetic [[Psychoactive class::dissociative]] substance of the [[Chemical class::arylcyclohexylamine]] chemical class. It produces potent, dose-sensitive [[dissociative]], [[hallucinogenic]] and [[euphoric]] effects when [[Routes of administration|administered]]. Unlike its close structural analog [[3-HO-PCP]], this compound is entirely novel and has no precedent in the scientific literature before being offered on the research chemicals market in the 2010s.<ref name="PCP2MXE">Morris, H., & Wallach, J. (2014). From PCP to MXE: A comprehensive review of the non-medical use of dissociative drugs. Drug Testing and Analysis, 6(7–8), 614–632. https://doi.org/10.1002/dta.1620</ref>

Early discussions of this compound have revolved around whether it possesses an appreciable affinity for the [[μ-opioid]] [[receptor]] given its structural relationship to [[3-HO-PCP]], which has been shown to display affinity for the [[μ-opioid]] [[receptor]] in animal models.<ref name="3HOPCEsar">Kalir, A., S. Maayani, M. Rehavi, R. Elkavetz, I. Pri-Bar, O. Buchman and M. Sokolovsky, 1978, Structure activity relationship of some phencyclidine derivatives; in vivo studies in mice, European J. Med. Chem. 13, 17.</ref> Whether it produces any of its theorized [[opioid]] effects in humans is the subject of ongoing discussion. If it does, 3-HO-PCE may pose unique risks relative to other dissociatives, particularly when it is redosed.

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 {{SummarySheet}}
 {{SubstanceBox/3-HO-PCE}}
-'''3-Hydroxyeticyclidine''' (commonly known as '''3-HO-PCE''') is a novel synthetic [[Psychoactive class::dissociative]] substance of the [[Chemical class::arylcyclohexylamine]] chemical class that produces potent, dose-sensitive [[dissociative]], [[hallucinogenic]] and [[euphoric]] effects when [[Routes of administration|administered]]. Unlike its close structural analog [[3-HO-PCP]], this compound is entirely novel and has no precedent in the scientific literature before being offered on the research chemicals market in the 2010s.<ref name="PCP2MXE">Morris, H., & Wallach, J. (2014). From PCP to MXE: A comprehensive review of the non-medical use of dissociative drugs. Drug Testing and Analysis, 6(7–8), 614–632. https://doi.org/10.1002/dta.1620</ref>
+'''3-Hydroxyeticyclidine''' (commonly known as '''3-HO-PCE''') is a novel synthetic [[Psychoactive class::dissociative]] substance of the [[Chemical class::arylcyclohexylamine]] chemical class. It produces potent, dose-sensitive [[dissociative]], [[hallucinogenic]] and [[euphoric]] effects when [[Routes of administration|administered]]. Unlike its close structural analog [[3-HO-PCP]], this compound is entirely novel and has no precedent in the scientific literature before being offered on the research chemicals market in the 2010s.<ref name="PCP2MXE">Morris, H., & Wallach, J. (2014). From PCP to MXE: A comprehensive review of the non-medical use of dissociative drugs. Drug Testing and Analysis, 6(7–8), 614–632. https://doi.org/10.1002/dta.1620</ref>
 Early discussions of this compound have revolved around whether it possesses an appreciable affinity for the [[μ-opioid]] [[receptor]] given its structural relationship to [[3-HO-PCP]], which has been shown to display affinity for the  [[μ-opioid]] [[receptor]] in animal models.<ref name="3HOPCEsar">Kalir, A., S. Maayani, M. Rehavi, R. Elkavetz, I. Pri-Bar, O. Buchman and M. Sokolovsky, 1978, Structure activity relationship of some phencyclidine derivatives; in vivo studies in mice, European J. Med. Chem. 13, 17.</ref> Whether it produces any of its theorized [[opioid]] effects in humans is the subject of ongoing discussion. If it does, 3-HO-PCE may pose unique risks relative to other dissociatives, particularly when it is redosed.