Lipid Composition of Tamanu Oil

The oil of tamanu contains basic classes of lipids (fats), enumerated below.

Source: References 2, 15, 22

Anti-inflammatory Activity of Tamanu Oil

Tamanu oil demonstrates anti-inflammatory activity. This activity is due partly to the 4-phenyl coumarin calophyllolide^8,11,20 and to a group of xanthones in the oil, including dehydrocycloguanandin, calophyllin-B, jacareubin, mesuaxanthone-A, mesuaxanthone-B, and euxanthone. All the xanthones in tamanu oil show anti-inflammatory activity,¹⁰ which explains reductions of rashes, sores, swelling, and abrasions with topical application of the oil.²

Antibacterial and Antifungal Activity of Tamanu Oil

Tamanu oil demonstrates significant antimicrobial activity, as demonstrated in antibacterial and antifungal tests.^2,13,14 The oil contains several powerful bactericide/fungicide agents, which demonstrate efficacy against various human and animal pathogens. These antimicrobial phytochemical agents include friedelin, canophyllol, canophyllic acid, and inophynone.¹³

In antibacterial studies conducted in Karachi, Pakistan, researchers discovered the following:

Canophyllic acid demonstrated moderate antibacterial activity, compared with ampicillin and amoxicillin, against Proteus mirabilis (a cause of bladder infections, wound infections, septicemia, and pneumonias, mostly in hospitalized patients).²¹

Canophyllol demonstrated good activity, compared with ampicillin and amoxicillin, against Staphylococcus aureus (a cause of inflammation, suppuration, abscesses, boils, infected wounds, septicemia, and conjunctivitis), Cornebacterium diptheriae (the cause of diphtheria), Klebsiella pneumonia (a cause of septicemia, infected wounds, and infected burns), and Proteus mirabilis (a cause of urinary tract infection, septicemia, and infected wounds).²¹

Friedelin demonstrated good activity, compared with ampicillin and amoxicillin, against S. aureus. In antifungal tests, the same researchers discovered the following:

Friedelin exhibited good antifungal activity against Pseudallescheria boydii, (a cause of fungal keratitis and Madura Foot, a disease in which the foot swells and suppurates, with multiple open sinuses).²¹

Friedelin exhibited moderate activity against Trichophyton schoenleinii (cutaneous fungus occurring in hair, skin and nails, and associated with “jock itch,” ringworm, athlete’s foot, and dermaphytosis of the scalp and beard).²¹

The n-butanol fraction of tamanu oil was examined against various fungal cultures, showing significant activity against Trichophyton semii and T. metagrophyte (both cutaneous fungi occurring in hair, skin and nails, and associated with “jock itch,” ringworm, athlete’s foot, and dermaphytosis, a fungal disease usually transmitted from animals to humans in the scalp and beard).²¹

Researchers concluded that the antimicrobial agents in tamanu oil could be used effectively to treat a range of infections of the skin and eyes and to treat ringworm.¹³

Antioxidant Activity of Tamanu Oil

Xanthones and coumarins in tamanu oil demonstrate antioxidant properties, specifically inhibiting lipid peroxidation. Cell membranes are made of lipids. Lipids are organic compounds that are oily to the touch and are insoluble in water but are soluble in nonpolar organic solvents (e.g., chloroform, ether). Lipids include fats, oils, waxes, sterols, and triglycerides. The antioxidant activity of tamanu oil helps to protect skin cells from damage by reactive oxygen species (ROS) and other oxidative antagonists.¹³

Current Tamanu Oil Popularity

Though investigations into tamanu oil have been conducted continuously since the 1930s, only in the last decade has tamanu oil gained any market visibility for general first aid and cosmetic use. Throughout the 1990s much of this market activity was confined to Tahiti, where the pure oil is marketed in bottles for first aid and beauty purposes. In Europe general market interest in tamanu is relatively new, and cosmetic companies are currently marketing products containing this oil. In the U.S. bottled tamanu oil is now also marketed in pure and dilute forms, and it appears as an ingredient in a limited number of cosmetic products.

Tamanu for Topical First Aid

Due to its cicatrizing, anti-inflammatory, and antimicrobial activities, oil of tamanu is a versatile topical aid suitable for use in a broad range of skin conditions. Oil of tamanu can be applied undiluted directly to skin. There are no reports of adverse effects due to such application of tamanu.

Tamanu for Cosmetics

Oil of tamanu is suitable for general skin and cosmetic purposes. The oil’s mild and pleasant aroma and luxurious feel make it ideal for use in lotions, creams, ointments, and other cosmetic products. Oil of tamanu absorbs readily, leaving the skin feeling smooth and soft. The oil adds a glow to skin, without any residual greasiness or oiliness. Tamanu oil has the potential to be a significant ingredient for companies wanting to develop beneficial natural products.

Tamanu Oil and Sustainable Harvesting

In indigenous communities, nut-containing tamanu fruits are collected from the ground after they have dropped from the tree. Because the fruits are collected after they drop, no negative impact upon the life or ecology of the tamanu trees is caused by the harvest of the fruits. The trees themselves are neither touched nor harmed. Habitat is not negatively impacted, as neither the land nor any surrounding plants are disturbed as a result of collection. If not collected, the fruits and nuts simply decompose. Thus, tamanu collection is a low impact, environmentally sustainable activity.

In the Republic of Vanuatu, South Pacific, harvesting of tamanu fruits from beach areas is a small but growing source of income for native people who collect the fruits and are typically paid by weight. Relative ease of collection, and abundance of fruits on beaches, makes tamanu harvesting a desirable income-producing activity. The development of tamanu oil production in Vanuatu has turned a natural forest product of no prior significant local use into a commodity of financial value. Revenues from collection contribute positively to small village economies.

Summary

Tamanu oil is an excellent example of a traditional remedy that has percolated to broader attention due to a combination of effective use in traditional settings and scientific research supporting its traditional uses. Tamanu oil offers relief for common skin problems and has demonstrated significant benefit in hospital settings as a first aid treatment in cases of serious burns.

Tamanu oil fulfills three significant ideals: a healing benefit to users; the collection of the nuts and manufacture of the oil cause no damage to the environment; and the collection and processing of the nuts provides income to indigenous people, enhancing the local economies of small communities.

Chris Kilham is Explorer-in-Residence at the University Of Massachusetts at Amherst Medicinal Plant Program. He has investigated tamanu oil in the Pacific islands for the last seven years and works actively with native people in Vanuatu, South Pacific, in the development of the tamanu oil trade, in which he has a commercial interest. He has authored several books and numerous articles.

References:

1. Cox PA, Banack SA. Islands, Plants and Polynesians. Portland, Oregon: Dioscorides Press; 1991:52.

2. Petard P. Tahiti-Polynesian medicinal plants and Tahitian remedies. Noumea, New Caledonia: South Pacific Commission; 1972.

3. Pillai SN, Desai MV, Shah HM. Antihelminthic properties of punnakai cake (Calophyllum inophyllum). Indian Journal of Mycology and Plant Pathology. 1974;4(2):145-50.

4. Whistler WA. Tongan Herbal Medicine. Honolulu: University of Hawaii Press; 1992.

5. Jeanson M. Anti-leprous plants not belonging to the Flacourtiaceae family [in French]. Bulletin of National Society of Acclimation on France, 1938.

6. Chevalier J. Study on a new cicatrizing agent for cutaneous and mucous wounds, oil of Calophyllum inophyllum [doctoral thesis]. Paris, France: Institut de Biologie Normale Superieure; October 1951.

7. Arora RB, Mathur CN, Seth SDH. Calophylloide, a complex coumarin anticoagulant from Calophyllum inophyllum Lin. Journal Of Pharmacy and Pharmacology 1962;14:534.

8. Bhalla TN, Saxena RC, Nigam SK, Misra G, Bhargava KP. Calophyllolide: a new nonsteroidal anti-inflammatory agent. Indian J Med Res. November 1980;72:762-5.

9. Bhushan B, Rangaswami S, Seshadri TR. Calaustralin, a new 4-phenylcoumarin from the seed oil of Calophyllum inophyllum Linn. Indian Journal of Chemistry. July 1975;13:746-7.

10. Gopalakrishnan C, Shankaranarayanan D, Nazimudeen SK, Viswanathan S, Kameswaran L. Anti-inflammatory and C.N.S. depressant activities of xanthones from Calophyllum inophyllum and Mesua ferrea. Indian Journal of Pharmacology. 1980;12(3):181-91.

11. Saxena RC, Nath R, Nigam SK, Bhargava KP. Effect of calophyllolide, a non-steroidal anti-inflammatory agent, on capillary permeability. Journal of Medicinal Plant Research. 1982;44:246-8.

12. Goh SH, Jantan I, Ibrahim J. A xanthone from Calophyllum inophyllum. Phytochemistry. 1991;30(1):366-7.

13. Mahmud S, Rizwani GR, Ahmad M, Ali S, Perveen S, Ahmad VU. Antimicrobial studies on fractions and pure compounds of Calophyllum inophyllum Linn. Pakistan Journal of Pharmacology. July 1998;15(2):13-25.

14. Sundaram BM, Gopalkrishnan C, Subramanian S. Antibacterial activity of xanthones from Calophyllum inophyllum L. Arogya Journal of Health Science. 1986;XII:48-9.

15. Hemavathy J, Prabhakar JV. Lipid composition of Calophyllum inophyllum kernel. Journal of the American Oil Chemists’ Society. December 1990;67(12): 955-7.

16. Wheatley JI. A Guide to the Common Trees of Vanuatu. Port Vila, Vanuatu: Department of Forestry; 1992.

17. Abbott IA. La’au Hawaii, Traditional Hawaiian Uses Of Plants. Honolulu: Bishop Museum Press; 1992.

18. Sidi E. Oil of Calophyllum inophyllum in dermatology. La vie medicale. May 1955:82-8.

19. Pocidalo JJ, Chaslot M. Oil of Calophyllum inophyllum on experimental burns [separate report]. Communication of the Society of Biology February 12, 1955.

20. U.S. Department of Agriculture, Agricultural Research Service. Dr. Duke’s Phytochemical and Ethnobotanical Databases Web site. Available at: <www.ars-grin.gov/cgi-bin/duke/chem-activities.pl>. Accessed October 3, 2003.

21. Medical Microbiology and Infectious Diseases database “Bugs” Index Web site. Available at: <www.medinfo.ufl.edu/ year2/mmid/bms5300/bugs/>. Accessed October 3, 2003.

22. Lederer E, Dietrich P, Polonsky J. On the chemical constitution of calophylloide and calophyllic acid from the nuts of Calophyllum inophyllum. Bulletin of the French Chemical Society. 1953;5:546-9.