References
- Baker J. K., Little T. L. Metabolism of phencyclidine. The role of the carbinolamine intermediate in the formation of lactam and amino-acid metabolites of nitrogen heterocycles. Journal of Medical Chemistry 1985; 28: 46–50
- Cho A. K., Hallström G., Matsumoto R. M., Kammerer R. C. The metabolism of piperidine ring of phencyclidine. Phencyclidine and Related Arylcyclohexylamines: present and future, applications, J. M. Kamenka, E. F. Domino, P. Geneste. NPP Books, Ann Arbor 1983; 205–213
- Gole D. J., Pirat J. L., Kamenka J. M., Domino E. F. Hydroxy metabolites of phencyclidine. Identification and quantitation of the two novel metabolites. Drug Metabolism and Disposition 1988; 16: 386–391
- Hallström G., Kammerer R. C., Nguyen C. H., Schmitz D. A., Di Stefano E. W., Cho A. K. Phencyclidine metabolism in vitro. The formation of a carbinolamine and its metabolites by rabbit liver preparations. Drug Metabolism and Disposition 1983; 11: 47–53
- Holsztynska E. J., Domino E. F. Biotransformation of phencyclidine. Drug Metabolism Review 1985; 16: 285–320
- Holsztynska E. J., Domino E. F. Quantitation of phencyclidine, its metabolites, and derivatives by gas chromatography with nitrogen-phosphorus detection: application for in vivo and in vitro biotransformation studies. Journal of Analytical Toxicology 1986; 10: 107–115
- Kammerer R. C., Schmitz D. A., Di Stefano E. W., Cho A. K. The metabolism of phencyclidine by rabbit liver preparations. Drug Metabolism and Disposition 1981; 9: 274–278
- Law F. C. P. Metabolic disposition and irreversible binding of phencyclidine in Rats. Toxicology and Applied Pharmacology 1989; 57: 263–272
- Lednicer D., Von Voigtlander P. F., Emmert D. E. 4-Amino-4-arylcyclohexanones and their derivatives, a novel class of analgesics. 1. Modification of the aryl ring. Journal of Medical Chemistry 1980; 23: 424–430
- Matsumoto H., Takeuchi K., Ohta S., Hirobe M. Application of chemical P-450 model systems to studies on drug metabolism. I. Phencyclidine: a multi-functional model substrate. Chemical and Pharmacological Bulletin 1989; 37: 1788–1794
- Perrin R., Minn A., Siest G. Interaction of cytochromes P-450 with a reactive metabolite: phencyclidine. Cytochrome P-450: Biochemistry and Biophysics, I. Schuster. Taylor & Francis, London 1988; 150–153
- Souhaili-el Amri H., Fargetton X., Delatour P., Batt A. M. Sulphoxidation of albendazole by the FAD containing and cyt P-450 dependent monooxygenases from pig liver microsomes. Xenobiotica 1987; 10: 1159–1168
- Trevor A. J., Hoag M. K. P., Schmith-Peetz M., Castagnoli N., Jr. Phencyclidine metabolism: involvement of iminium ion intermediate in covalent binding, suicide inactivation of cytochrome P-450 and formation of a novel metabolite. Sigma and Phencyclidine-like Compounds as Molecular Probes in Biology, E. Domino, J. M. Kamenka. NPP Books, Ann Arbor 1988; 643–651
- Walther B., Ghersi-Egea J. F., Minn A., Siest G. Subcellular distribution of cytochrome P-450 in the brain. Brain Research 1986; 375: 338–344