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|Systematic (IUPAC) name|
|CAS Registry Number|
|Molecular mass||177.3 g/mol|
|Melting point||195 to 198 °C (383 to 388 °F) (hydrochlorid)|
|Boiling point||272.3 °C (522.1 °F) at 760 mmHg (hydrochlorid)|
|(what is this?)|
Ethcathinone, also known as ethylpropion or ETH-CAT, is a stimulant drug of the phenethylamine, amphetamine, and cathinone chemical classes. It is an active metabolite of the prodrug diethylcathinone and is fully responsible for its effects. Ethcathinone has been identified as an ingredient in both quasi-legal "party pills", and, along with mephedrone, has also been reported as having been sold as "ecstasy" in the Australian city of Cairns.
The pharmacology for ethcathinone appeared alongside other psychostimulants in a paper by Rothman and Baumann in 2006. The predominant two modes of action for ethcathinone is as a moderately active releaser of noradrenaline (EC50 = 99.3nM); however it is only a relatively weak inhibitor of dopamine reuptake (Ki = 1,014nM).
Since diethylcathinone appears to be an inactive prodrug and only becomes active after it has been further metabolized to ethcathinone, it thereby would appear rational to consider that ethcathinone would also be expected to be N-dealkylated upon its consumption to the more active drug cathinone that is more able to reliably stimulate the release of dopamine. However, in contrast to diethylcathinone, ethcathinone is not technically a prodrug since it is already active in its own right.
- Camilleri, A; Johnston, MR; Brennan, M; Davis, S; Caldicott, DG (2010). "Chemical analysis of four capsules containing the controlled substance analogues 4-methylmethcathinone, 2-fluoromethamphetamine, alpha-phthalimidopropiophenone and N-ethylcathinone". Forensic Science International 197 (1–3): 59–66. doi:10.1016/j.forsciint.2009.12.048. PMID 20074881.
- Killer pills hit Cairns
- Police warn of potentially fatal 'fake ecstasy'
- Rothman, RB; Baumann, MH (2006). "Therapeutic potential of monoamine transporter substrates". Current Topics in Medicinal Chemistry 6 (17): 1845–59. doi:10.2174/156802606778249766. PMID 17017961.