Explore Diethylpropion | PiHKAL

ChemSpider 6762
PubChem 7029
Wikidata Q2356505
Wikipedia Amfepramone
Project Response Amfepramone (1323-16)
swgdrug.org Diethylcathinone

Shulgin Index See #40 DMAP · Table 2Page 318Row 36

Phenethylamine: Von der Strucktur zur Funktion Diethylpropion: 3.0 (22) 72 · 3.5 (24) 137 · Amfepramone: 6.3 (135) 417

Iversen, LL. Consideration of the cathinones, Advisory Council on the Misuse of Drugs, 31 Mar 2010. 286 kB.

Zuba, D. Identification of cathinones and other active components of ‘legal highs’ by mass spectrometric methods. Trends Anal. Chem., 1 Feb 2012, 32, 15–30. 576 kB. https://doi.org/10.1016/j.trac.2011.09.009

Partilla, JS; Dempsey, AG; Nagpal, AS; Blough, BE; Baumann, MH; Rothman, RB. Interaction of amphetamines and related compounds at the vesicular monoamine transporter. J. Pharmacol. Exp. Ther., 1 Oct 2006, 319 (1), 237–246. 367 kB. https://doi.org/10.1124/jpet.106.103622

Clarke, EGC. The identification of amphetamine type drugs. J. Forensic Sci. Soc., 1 Jan 1967, 7 (1), 31–36. 770 kB. https://doi.org/10.1016/S0015-7368(67)70368-0 #Diethylpropion TLC

Ogino, M; Naiki, T; Orui, H; Kosone, K; Yamazaki, M. Study of method for identifying phenethylamine drugs. JCCL, 11 Feb 2011, 50, 63-82. 627 kB. Japanese, English abstract LC,MS,NMR,IR

Fornal, E. Study of collision-induced dissociation of electrospray-generated protonated cathinones. Drug Test. Anal., 1 Jul 2014, 6 (7-8), 705-715. 527 kB. https://doi.org/10.1002/dta.1573 #16

Oh, S; Kim, KS; Chung, YS; Shong, M; Park, SB. Anti-obesity agents: A focused review on the structural classification of therapeutic entities. Curr. Top. Med. Chem., 1 Apr 2009, 9 (6), 466–481. 438 kB. https://doi.org/10.2174/156802609788897862

Nichols, DE. Medicinal chemistry and structure-activity relationships. In Amphetamine and its Analogs; Cho, AK; Segal, DS, Eds., Academic Press, San Diego, CA, 1 Jan 1994; pp 3–41. 8.1 MB.

Biel, JH; Bopp, BA. Amphetamines: Structure-activity relationships. In Handbook of Psychopharmacology: Stimulants; Iversen, LL; Iversen, SD; Snyder, SH, Eds., Plenum Press, New York, 1 Jan 1978; pp 1–39. 1.0 MB. https://doi.org/10.1007/978-1-4757-0510-2_1

Adamowicz, P; Zuba, D. Discrimination among designer drug isomers by chromatographic and spectrometric methods. In Chromatographic Techniques in the Forensic Analysis of Designer Drugs; Kowalska, T; Sajewicz, M; Sherma, J, Eds., CRC Press, Taylor & Francis Group, 1 Jan 2018; pp 211–232. 1.1 MB.

Gaspar, H; Bronze, S; Oliveira, C; Victor, BL; Machuqueiro, M; Pacheco, R; Caldeira, MJ; Santos, S. Proactive response to tackle the threat of emerging drugs: Synthesis and toxicity evaluation of new cathinones. Forensic Sci. Int., 1 Sep 2018, 290, 146–156. 1.6 MB. https://doi.org/10.1016/j.forsciint.2018.07.001 #DEC MS,NMR

Holland, GF; Buck, CJ; Weissman, A. Anorexigenic agents: Aromatic substituted 1-phenyl-2-propylamines. J. Med. Chem., 1 Sep 1963, 6 (5), 519–524. 808 kB. https://doi.org/10.1021/jm00341a011 #Diethylpropion

Nichols, DE. CNS Stimulants. In Burger's Medicinal Chemistry and Drug Discovery; Abraham, DJ, Ed., John Wiley & Sons, Inc., 29 Jan 2010; pp 89–120. 1.8 MB. https://doi.org/10.1002/0471266949.bmc243 #16

Baumann, MH; Walters, HM; Niello, M; Sitte, HH. Neuropharmacology of synthetic cathinones. In New Psychoactive Substances: Pharmacology, Clinical, Forensic and Analytical Toxicology; Maurer, HH; Brandt, SD, Eds., Springer, Berlin, Heidelberg, 1 Jan 2018; pp 113–142. 409 kB. https://doi.org/10.1007/164_2018_178 #Diethylpropion

Bork, W; Dahlenburg, R; Gimbel, M; Jacobsen-Bauer, A; Zörntlein, S. Herleitung Von Grenzwerten Der „nicht Geringen Menge“ Im Sinne Des Btmg. Toxichem Krimtech, 1 Jan 2019, 86 (1), 5–91. 4.4 MB. #CA-015

Hägele, JS; Basrak, M; Schmid, MG. Enantioselective separation of novel psychoactive substances using a Lux® AMP 3 μm column and HPLC-UV. J. Pharm. Biomed. Anal., 5 Feb 2020, 179, 112967. 3.6 MB. https://doi.org/10.1016/j.jpba.2019.112967 #P21 LC

Clancy, L; Philp, M; Shimmon, R; Fu, S. Development and validation of a color spot test method for the presumptive detection of 25-NBOMe compounds. Drug Test. Anal., 19 Aug 2020, 13 (5), 929-943. 11.3 MB. https://doi.org/10.1002/dta.2905 #N,N-diethylcathinone

Garcia-Mijares, M; Bernardes, AMT; Silva, MTA. Diethylpropion produces psychostimulant and reward effects. Pharmacol. Biochem. Behav., 1 Feb 2009, 91 (4), 621–628. 660 kB. https://doi.org/10.1016/j.pbb.2008.10.001 #DEP

Philp, M; Shimmon, R; Stojanovska, N; Tahtouh, M; Fu, S. Development and validation of a presumptive colour spot test method for the detection of piperazine analogues in seized illicit materials. Anal. Methods, 1 Jan 2013, 5 (20), 5402. 783 kB. https://doi.org/10.1039/c3ay40511g #N,N-Diethylcathinone MS,NMR,IR,spot

4-Methoxy-2,3-(trimethylene)amphetamine

4-MEB · 4-Me-EABP · 4Me-NEB

BAP

t-BAP

8-Hydroxy-2-(propylamino)tetralin · PHAT

8-Hydroxy-2-(isopropylamino)tetralin · iPHAT

2-HO-CPDEA

3-HO-CPDEA

4-EEC · 4-Ethylethcathinone

3,4-DMEC · 3,4-Dimethylethcathinone

EDMC

6-EAPDB

5-EAPDB

4-MPDM · 4-Methylphendimetrazine

10023

Hexedrone

NEP

4-MPD · 4-Methylpentedrone

2-(Methyl(ethyl)amino)butanophenone · N,N-MEB

2-EEC · 2-Ethylethcathinone

3-EEC · N-Ethyl-3-ethylcathinone

4-MPC · 4-Me-N-Propylcathinone

N,N-MEMC · N-Methyl-N-ethyl-4-methylcathinone

2,4-DMEC · 2,4-Dimethylethcathinone

2,4,5-TMMC · 2,4,5-Trimethylmethcathinone

3,4,5-TMMC · 3,4,5-Trimethylmethcathinone

4-IPMC · 4-Isopropylmethcathinone

4-Me-DMB · N,4-Dimethyl-buphedrone

N-Ethylphenmetrazine · Phenmetetrazine

N-Methylphenetrazine

1-(β-Hydroxy-α-methylphenethyl)pyrrolidine · β-Hydroxy-PPP

1-Phenethyl-4-hydroxypiperidine

3-MeO-PCA

4-MeO-PCA

2-MeO-PCA

PMA-NPI

N,N-Dimethylpentedrone · DMP

10736

4-Isopropyl-2-phenylmorpholine

Isohexedrone

PrMA

3-MiPC · Iso-meta-methyl-propcathinone

3-MPC · 3-Methyl-N-propylcathinone

2-MEB · 2-Me-EABP