References
- Asakawa Y., Taira Z., Takemoto T., Ishida T., Kido M., Ichikawa Y. X‐ray crystal structure analysis of 14‐hydroxycaryophyllene oxide, a new metabolite of (‐)‐caryophyllene, in rabbits. Journal of Pharmaceutical Sciences 1981; 70: 710–711
- Asakawa Y., Ishida T., Toyota Y., Takemoto T. Terpenoid biotransformation in mammals IV. Biotransformation of (+)‐longifolene, (‐)‐caryophyllene, (‐)‐caryophyllene oxide, (‐)‐cyclocolorenone, (‐)‐nootkatone, (‐)‐elemol, (‐)‐abietic acid and (+)‐dihydroabietic acid in rabbits. Xenobiotica 1986; 16: 753–767
- Asakawa Y., Matsuda R., Tori M. Hydroxylation of menthols and cineoles with m‐Chloroperbenzoic acid. Experientia 1986; 42: 201–203
- Elliott T. H., Rosalin Tao C. C., Williams R. T. The metabolism of methylcyclohexane. Biochemical Journal 1965; 95: 70–76
- Flynn T. M., Southwell I. A. 1,3‐Dimethyloxabicyclo‘2,2,2’octane‐3‐methanol and 1,3‐dimethyl‐2‐oxabicyclo‘2,2,2’octane‐3‐carboxylic acid, urinary metabolites of 1,8‐cineole. Australian Journal of Chemistry 1979; 32: 2093–2095
- Frigerio A., Paladino R., Testoni G., Cobelli L., Pastorello L., Tolentino D. 1,8‐Cineole(eucalyptol) metabolites in rat. Spectroscopy International Journal 1985; 4: 43–56
- Ishida T., Asakawa Y., Okano M., Aratani T. Biotransformation of terpenopids in mammals I. Biotransformation of 3‐carene and related compounds in rabbits. Tetrahedron Letters 1977; 28: 2437–2440
- Ishida T., Asakawa Y., Takemoto T., Aratani T. Terpenoid biotransformation in mammals II: Biotransformation of dl‐camphene in rabbits. Journal of Pharmaceutical Science 1979; 68: 928–929
- Ishida T., Asakawa Y., Takemoto T., Aratani T. Terpenoids biotransformation in mammals II. Biotransformation of α‐pinene, β‐pinene, pinane, 3‐carene, carane, myrcene, and p‐cymene in rabbits. Journal of Pharmaceutical Sciences 1981; 70: 406–414
- Ishida T., Asakawa Y., Takemoto T. Hydroxyisolongifolaldehyde: a new metabolite of (+)‐longifolene in rabbits. Journal of Pharmaceutical Sciences 1982; 71: 965–96
- Madyastha K. M., Chadha A. Metabolism of 1,8‐cineole in rat: Its effects on liver and lung microsomal cytochrome P‐450 systems. Bulletin of Environmental Contamination and Toxicology 1986; 37: 759–766
- Miyazawa M., Kameoka H., Morinaga K., Negishi K., Mura N. The 41st Spring Annual Meeting of Chemical Society of Japan. 1980; 1087
- Robinson D., Williams R. T. Studies in detoxication 61. The metabolism of alkylbenzene. Tert‐butylbenzene. Biochemical Journal 1955; 59: 159–161
- Southwell I. A., Flynn T. M., Degabriele R. Metabolism of α‐ and β‐pinene, p‐cymene and 1,8‐cineole in the brushtail possum. Trichosurus vulpecula. Xenobiotica 1980; 10: 17–23
- Sullivan H. R., McMahon R. E., Hoffman D. G., Ridolfo S. Metabolite identification by GC‐MS: Species differences in the metabolic patterns of isopropylbiphenyl. Mass spectrometry in drug metabolism, A. Frigerio, E. L. Ghisalberti. Plenum Press, New York 1977; 31–43
- Walde A., Ve B., Scheline R. R., Monge P. p‐Cymene metabolism in rats and guinea‐pigs. Xenobiotica 1983; 13: 503–512
- Williams R. T. Detoxication Mechanisms. Chapman & Hall. 1959; 528–544
- Wright S. E. Detoxication mechanisms in sheep. University of Queensland Papers, Department of Chemistry 1945; 1: 1–10