Eticyclidine and 3-MeO-PCP

Methoxetamine is an examination compound that when conveyed to logical and measurable research centers lands as a white powder for additionally thinks about. This substance has an IUPAC name of (RS)2-(3-methoxyphenyl)- 2-(ethylamino)cyclohexanone and is known to be a subsidiary of ketamine. Then again, it is fundamentally identified with eticyclidine and 3-MeO-PCP. Through lab ponders, methoxetamine has appeared to hinder the reuptake of serotonin and also repressing the NMDA receptor. Different names for Methoxetamine are MXE and 3-MeO-2-Oxo-PCE.

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Methoxetamine

Methoxetamine is a research chemical that when delivered to scientific and forensic laboratories arrives as a white powder for further studies. This chemical has an IUPAC name of (RS)2-(3-methoxyphenyl)-2-(ethylamino)cyclohexanone and is known to be a derivative of ketamine. On the other hand, it is structurally related to eticyclidine and 3-MeO-PCP. Through laboratory studies, methoxetamine has shown to inhibit the reuptake of serotonin as well as inhibiting the NMDA receptor. Other names for Methoxetamine are MXE and 3-MeO-2-Oxo-PCE.

The chemical formula for methoxetamine is C15H12N2 and the Chemical Abstracts Service is 1239943-76-0. A few laboratories have done some research on this new research chemical including Advanced Chemistry Development, Inc. among others. The data discovered can aid scientific research to learn more regarding the chemical such as the atom count, index of refraction, boiling point, and other such information. With this information, scientist's have a starting point to discover any beneficial attributes of the new chemical.

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Methoxetamine Research Studies

Methoxetamine is a research chemical also known as MXE is derived from ketamine using synthetic substances which also has the same structural features of 3-MeO-PCP and phencyclidine. Methoxetamine has been studied in forensic and scientific laboratories that have found it is in the psychoactive class under dissociative and the chemical class of arylcyclohexylamine.
Studies performed using rats showed that this research chemical was very similar in action to ketamine as it inhibited the reuptake of dopamine and was a receptor antagonism. It is believed to be longer lasting than ketamine with stronger effects but also showed weaker anesthetic and analgesic effects.

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