Diphenidine: Difference between revisions

Latest revision as of 03:51, 13 February 2025

Overview[edit]

Diphenidine is a dissociative anesthetic and NMDA receptor antagonist that has been researched for its potential use in medicine and recreational settings. It is structurally related to other dissociatives such as ketamine and phencyclidine (PCP), but it has a distinct chemical structure that contributes to its unique pharmacological profile.

Chemical Structure[edit]

Diphenidine is chemically classified as a diarylethylamine. Its IUPAC name is 1-(1,2-diphenylethyl)piperidine. The structure consists of a piperidine ring attached to a diphenylethyl moiety, which is responsible for its activity as an NMDA receptor antagonist.

Pharmacology[edit]

Diphenidine acts primarily as an NMDA receptor antagonist, which means it inhibits the action of the N-methyl-D-aspartate receptor, a subtype of glutamate receptor in the brain. This action is responsible for its dissociative effects, which can include altered perception of reality, hallucinations, and a sense of detachment from the environment and self.

Mechanism of Action[edit]

The NMDA receptor is involved in synaptic plasticity and memory function. By blocking this receptor, diphenidine disrupts normal synaptic transmission, leading to the characteristic effects of dissociatives. This mechanism is similar to that of other NMDA antagonists like ketamine and PCP, although diphenidine's specific binding affinity and pharmacokinetics may differ.

Effects and Uses[edit]

Diphenidine has been explored for its potential use in anesthesia and as a research chemical. Its effects can vary depending on the dose and individual response, but common effects include:

Dissociation
Euphoria
Hallucinations
Analgesia

Medical Use[edit]

While diphenidine has not been approved for medical use, its properties as an NMDA antagonist suggest potential applications in anesthesia and pain management. However, more research is needed to fully understand its safety and efficacy in clinical settings.

Recreational Use[edit]

Diphenidine has gained popularity as a recreational drug due to its dissociative effects. Users report experiences similar to those of ketamine, although the onset and duration of effects may differ. The use of diphenidine outside of a controlled medical environment poses significant risks, including potential for abuse and adverse psychological effects.

Safety and Risks[edit]

The use of diphenidine, particularly in non-medical settings, carries several risks:

Due to these risks, caution is advised when handling or using diphenidine, and it is recommended that its use be restricted to research settings under appropriate supervision.

Legal Status[edit]

The legal status of diphenidine varies by country. In some jurisdictions, it is classified as a controlled substance, while in others it may be unregulated. Users should be aware of the legal implications of possessing or distributing diphenidine in their region.

Related Pages[edit]

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-'''Diphenidine''' is a [[dissociative]] [[anesthetic]] that has been sold as a [[designer drug]]. The synthesis of diphenidine was first reported in 1924, and employed a [[Buchwald-Hartwig amination]]. The drug is believed to have [[NMDA receptor antagonist]] activity and is thus similar to [[ketamine]] and [[phencyclidine]].
+{{DISPLAYTITLE:Diphenidine}}
-== History ==
+== Overview ==
+'''Diphenidine''' is a dissociative anesthetic and [[NMDA receptor antagonist]] that has been researched for its potential use in medicine and recreational settings. It is structurally related to other dissociatives such as [[ketamine]] and [[phencyclidine]] (PCP), but it has a distinct chemical structure that contributes to its unique pharmacological profile.
-Diphenidine was first reported in a 1924 patent where it was tested as an [[anesthetic]]. The patent described the synthesis of diphenidine and included animal testing on rats, which showed anesthetic properties. However, it was not until the 21st century that diphenidine was sold as a [[recreational drug]].
+== Chemical Structure ==
+[[File:Diphenidine.svg|thumb|right|Chemical structure of Diphenidine]]
+Diphenidine is chemically classified as a diarylethylamine. Its IUPAC name is 1-(1,2-diphenylethyl)piperidine. The structure consists of a piperidine ring attached to a diphenylethyl moiety, which is responsible for its activity as an NMDA receptor antagonist.
 == Pharmacology ==
+Diphenidine acts primarily as an [[NMDA receptor antagonist]], which means it inhibits the action of the [[N-methyl-D-aspartate receptor]], a subtype of glutamate receptor in the brain. This action is responsible for its dissociative effects, which can include altered perception of reality, hallucinations, and a sense of detachment from the environment and self.
-Diphenidine is a [[NMDA receptor antagonist]]. NMDA receptors allow for electrical signals to pass between neurons in the brain and spinal column; for the signals to pass, the receptor must be open. Dissociatives close the NMDA receptors by blocking them. This disconnection of neurons leads to loss of feeling, difficulty moving, and eventually the "K-hole" or "dissociative hole".
+=== Mechanism of Action ===
+The NMDA receptor is involved in synaptic plasticity and memory function. By blocking this receptor, diphenidine disrupts normal synaptic transmission, leading to the characteristic effects of dissociatives. This mechanism is similar to that of other NMDA antagonists like ketamine and PCP, although diphenidine's specific binding affinity and pharmacokinetics may differ.
-== Legal Status ==
+== Effects and Uses ==
+Diphenidine has been explored for its potential use in anesthesia and as a research chemical. Its effects can vary depending on the dose and individual response, but common effects include:
+* Dissociation
+* Euphoria
+* Hallucinations
+* Analgesia
+=== Medical Use ===
+While diphenidine has not been approved for medical use, its properties as an NMDA antagonist suggest potential applications in anesthesia and pain management. However, more research is needed to fully understand its safety and efficacy in clinical settings.
-As of October 2015, Diphenidine is a controlled substance in China. In the United Kingdom, it is illegal to produce, supply, or import this drug under the Psychoactive Substance Act, which came into effect on May 26th, 2016.
+=== Recreational Use ===
+Diphenidine has gained popularity as a recreational drug due to its dissociative effects. Users report experiences similar to those of ketamine, although the onset and duration of effects may differ. The use of diphenidine outside of a controlled medical environment poses significant risks, including potential for abuse and adverse psychological effects.
-== See Also ==
+== Safety and Risks ==
+The use of diphenidine, particularly in non-medical settings, carries several risks:
+* [[Neurotoxicity]]
+* [[Addiction]] potential
+* [[Psychosis]]
+* [[Cardiovascular effects]]
-* [[Methoxphenidine]]
+Due to these risks, caution is advised when handling or using diphenidine, and it is recommended that its use be restricted to research settings under appropriate supervision.
-* [[Ephenidine]]
-* [[MT-45]]
-== References ==
+== Legal Status ==
+The legal status of diphenidine varies by country. In some jurisdictions, it is classified as a controlled substance, while in others it may be unregulated. Users should be aware of the legal implications of possessing or distributing diphenidine in their region.
-<references />
+== Related Pages ==
+* [[NMDA receptor antagonist]]
+* [[Dissociative anesthetic]]
+* [[Ketamine]]
+* [[Phencyclidine]]
-[[Category:Designer drugs]]
 [[Category:Dissociative drugs]]
 [[Category:NMDA receptor antagonists]]
-[[Category:Anesthetics]]
+[[Category:Research chemicals]]
-{{stub}}