Metabolism of camphors and related compounds

Robertson, J. S.; Hussain, M.

doi:10.1042/bj1130057

Cited by 60 publications

(28 citation statements)

References 20 publications

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“…Asahina and Ishidate (1933;1934;1935) isolated cis-and trans-π-hydroxycamphor and camphor-π-carboxylic acid from the urine of dogs that had been fed with camphor; Shimamoto obtained 3-hydroxycamphor (15%), 5-hydroxycamphor (55%) and trans-π-hydroxycamphor (20%) from the urine of dogs, and 5-hydroxycamphor [as major metabolite] and 3-hydroxycamphor from the urine of rabbits (Shimamoto, 1934). Robertson and Hussain (1969) observed that (+)-camphor and (-)-camphor increase the content of glucuronide in the urine of rabbits; (+)-camphor was moreover reduced to (+)-borneol as well as being hydroxylated to (+)-5-endo-hydroxycamphor [major product] and (+)-3-endo-hydroxycamphor. Hydroxylation of camphor, as well as norcamphor, pericyclocamphanone and 5,5-difluorocamphor, is mainly performed by Cytochrome P-450 (Collins and Loew, 1988), a class of heme-containing monooxygenases that are distributed in the whole body (Boxenbaum, 1984), by hydrogen abstraction (Wand and Thompson, 1986).…”

Section: Pharmacokineticsmentioning

confidence: 99%

Camphor: risks and benefits of a widely used natural product

Zuccarini¹

2010

Journal of Applied Sciences and Environmental Management

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This study analyzes the main aspects of the non-clinical profile of D-Camphor, a natural product widely used as a common remedy for several symptoms. The pharmacology, pharmacokinetics and toxicity of this substance are analyzed, with regard to all the literature available, in order to assess a risk profile and better understand the positive and negative aspects connected with its use. The general conclusion is that the main risks of camphor as a medicinal product are mainly due to a somehow diffused attitude of considering it as "not a real medicine", and to its consequent sometimes not sufficiently careful administration. @ JASEM Camphor is a natural product derived from the wood of the camphor laurel (Cinnamomum camphora L.) trees through steam distillation and purification by sublimination; the trees used should be at least 50 years old. It also occurs in some other related trees in the laurel family, notably Ocotea usambarensis Eng., and can also be obtained from the plant Lippia dulcis Trev

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Section: Pharmacokineticsmentioning

confidence: 99%

Camphor: risks and benefits of a widely used natural product

Zuccarini¹

2010

Journal of Applied Sciences and Environmental Management

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“…Metabolites in rabbit liver microsomes were similar to those obtained in the analogous rat liver microsomes, except that the ratio of endo-and exo-isomers of 5-hydroxycamphor produced from camphor was higher than in the rat liver preparation. 3,4) In human liver microsomes, 5-exo-hydroxycamphor was detected only an oxidation product. These results suggested that there are species-related differences in the metabolism of camphor to 3-hydroxycamphor, 5-exo-and 5-endo-hydroxycamphor by P450 enzymes in rats, rabbits and humans.…”

Section: Discussionmentioning

confidence: 99%

“…Metabolism of (Ϫ)-camphor in mammals, microorganism and plant cells have been published, e.g. dogs, 3,4) rabbits, 4) Pseudomonas putida, [5][6][7][8][9][10][11] Streptomyces griseus 12) the S. officinals [13][14][15] and Eucalyptus perriniana. 16) We recently established the biotransformation of (ϩ)-and (Ϫ)-camphor by Spodoptera litura (a species of caterpillar).…”

mentioning

confidence: 99%

In Vitro Metabolism of (-)-Camphor Using Human Liver Microsomes and CYP2A6

Gyoubu

Miyazawa

2007

Biological & Pharmaceutical Bulletin

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“…Rabbits gavaged with 1.9 -3.5 mmol/kg bw [289 -533 mg/kg bw] d-camphor excreted 59.1 % of the dose conjugated with glucuronic acid in the urine within 24 hours (Robertson and Hussain, 1969). A group of 50 Sprague-Dawley rats was administered a single dose of 1,000 mg of 40 % camphor in cottonseed oil/kg bw (approximately 400 mg camphor) by gavage and killed at 0.25, 0.5, 0.75, 1.0, 1.5, 2.0, 4.0, 6.0, 8.0 or 10.0 hours following treatment.…”

Section: Iii21 Hydrolysis Of Estersmentioning

confidence: 99%

Scientific Opinion on Flavouring Group Evaluation 47, Revision 1 (FGE.47Rev1): Bi‐ and tricyclic secondary alcohols, ketones and related esters from chemical group 8

Flavourings¹

2012

EFS2

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The Panel on Food Contact Materials, Enzymes, Flavourings and Processing Aids of the European Food Safety Authority was requested to evaluate six flavouring substances in the Flavouring Group Evaluation 47, including an additional two substances in this Revision 1, using the Procedure in Commission Regulation (EC) No 1565/2000. None of the substances were considered to have genotoxic potential. The substances were evaluated through a stepwise approach (the Procedure) that integrates information on structure-activity relationships, intake from current uses, toxicological threshold of concern, and available data on metabolism and toxicity. The Panel concluded that the six substances 07.171, 07.196, 09.584, 09.848 and 09.888] do not give rise to safety concern at their levels of dietary intake, estimated on the basis of the MSDI approach. Besides the safety assessment of these flavouring substances, the specifications for the materials of commerce have also been considered. Adequate specifications including complete purity criteria and identity for the materials of commerce have been provided for all six candidate substances.

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Metabolism of camphors and related compounds

Cited by 60 publications

References 20 publications

Camphor: risks and benefits of a widely used natural product

Camphor: risks and benefits of a widely used natural product

In Vitro Metabolism of (-)-Camphor Using Human Liver Microsomes and CYP2A6

Scientific Opinion on Flavouring Group Evaluation 47, Revision 1 (FGE.47Rev1): Bi‐ and tricyclic secondary alcohols, ketones and related esters from chemical group 8

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