Monday, September 11, 2006

Anti-microbial Effects of Essential Oils

Here is a bit of science on some essential oils and what the test results were...

Anti-microbial Effects

Burt, S. A. (2003). Antibacterial activity of selected plant essential oils against Escherichia coli O157:H7. Letters in Applied Microbiology 36, 162-7.

The research studied the antibacterial properties of five essential oils (EO) on Escherichia coli O157:H7. The results show that oregano and thyme EO have significant in vitro colicidal and colistatic properties and are exhibited in a broad temperature range. The effects were greatly improved by the addition of agar as stabilizer. Bay and clove bud EO are shown less active in reducing the number of E.coli O157:H7.

Inouye, S., Yamaguchi, H. (2001). Antibacterial activity of essential oils and their major constituents against respiratory tract pathogens by gaseous contact. Journal of Antimicrobial Chemotherapy, 47, 565-73.

The antibacterial activity of fourteen essential oils and their major constituents in the gaseous state were evaluated against four different bacteria by Inouge and Yamaguchi (2001). The authors found H. Influenzae to be most susceptible to most essential oils examined. The research also indicated that the antibacterial action of essential oils was most effective when at high vapour concentration for a short time.

Sherry, E., Warnke, P. H. (2001). Percutaneous treatment of chronic MRSA osteomyelitis with a novel plant-derived antiseptic. BMC Surgery 1(1).

The single case clinical report described the use of a polytoxinol (PT) antimicrobial, a complex mixture whose major components are tea tree oil and eucalyptus to cure an intractable methicillin-resistant Staphylococcus aureus (MRSA) infection of the lower tibia in an adult male. The study introduced a cheap, simple technique as a possible alternative to long-term systemic antibiotic therapy when administered percutaneously.

Benencia, F. (1999). Antiviral activity of sandalwood oil against Herpes simplex viruses-1 and -2. Phytomedicine 6(2), 119-23.

The study tested the antiviral activity of sandalwood oil, the essential oil of Santalum album L against Herpes simplex virus type 1 (HSV-1) and 2 (HSV-2). Results demonstrated dosedependent effect of sandalwood oil in inhibiting the replication of virus, and more significantly against HSV-1. The results also indicate a possible chemopreventive action of sandalwood oil against carcinogenesis.

Hammer, K. A., Riley, T. V. (1999). Antimicrobial activity of essential oils and other plant extracts. Journal of Applied Microbiology 86, 985-90.

Hammer et al. investigated 52 plant oils and extracts for their antimicrobial activity(1999). They found that the essential oils extracted from lemongrass, oregano and bay inhibited all organisms at concentrations of <=2.0% (v/v). The study also found the antimicrobial effect of thyme oil against C. albicans and E. coli at the lowest minimum inhibitory concentration of 0.03% (v/v).

Chinou, I. B., Perdetzoglou, D., Tzakou, O., & Loukis, A. (1996). Chemical and antibacterial studies of two Helichrysum species of Greek origin. Planta Medica 63, 181-3.

Chinou et al (1996) studied the antibacterial activity of the essential oils obtained from the aerial parts of two Helichrysum species. The authors collected the plants during their flowering period and thirty-nine constituents were identified and quantified from the total oil. Six bacterial strains were tested. It was found that oils exhibited significant antibacterial activity against the six Gram ( ± ) bacteria.

Hayashi, K., & Hayashi, T. (1994). Virucidal effects of the steam distilate from Houttuynia cordata and its components on HSV-1, influenza virus, and HIV. Planta Medica. 61, 237-41.

The anti-inflammatory activities of the water extract of dried plants of Houttuynia cordata was investigated by Hayashi et al (1994). The authors found the essential oils (Saururaceae) to have direct inhibitory activity against herpes simplex virus type 1 (HSV-1), influenza virus, and human immunodeficiency virus type 1 (HIV-1) without showing cytotoxicity, although it was not shown to have direct impact against poliovirus and coxsackie-virus.

Anti-microbial: Tea Tree Oil
Caelli, M., Porteous, J., Carlson, C. F., Heller, R., & Riley, T. V. (2001). Tea tree oil as an alternative topical decolonization agent for methicillin-resistant Staphylococcus Aureus. The International Journal of Aromatherapy 11(2). [Originally published in The Journal of Hospital Infection (2000), 46, 236-237.]

In this pilot study, 30 adult patients infected or colonized with methicillin-resistant Staphylococcus aureus (MRSA) were randomly assigned to receive a 4% tea tree oil nasal ointment and 5% tea tree oil body wash and a standard 2% mupirocin nasal ointment and the triclosan body wash. Tea tree oil products were found to perform better than mupirocin and triclosan, although the number of patients was too small for the difference to be statistically significant.

Hammer, K. A., & Riley, T. V. (1998). In-vitro activity of essential oils, in particular Melaleuca alternifolia (tea tree) oil and tea tree oil products, against Candida spp. Journal of Antimicrobial Chemotherapy 42, 591-5.

The study examined the in-vitro activity of a range of essential oils against the yeast candida. The final concentrations of tea tree oil were obtained from the diluted products in sterile distilled water after inoculation. A variety number of Candida isolates were tested for sensitivity to tea tree oil by the methods of agar dilution and broth microdilution. The study found the majority of tea tree oil tested possess anticandidal properties in vitro and suggested that they may be useful in the topical treatment of superficial candida infections.

Gustafson, J. E., Chew, S., Markham, J., Bell, H.C., Wyllie, S. G., & Warmington, J. R. (1988). Effects of tea tree oil on Escherichia coli. Letters in Applied Microbiology, 26, 194-8.

The study documented the effect of tea tree oil (TTO0 in stimulating autolysis in exponential and stationary phase cells of Escherichia coli. Stationary phase cells demonstrated less TTOstimulated antolysis and also showed greater tolerance to TTO-induced cell death, compared to exponentially grown cells.

Jandourek, A. & Vazquez, J. (1998). Efficacy of melaleuca oral solution for the treatment of fluconazole refractory oral candidiasis in AIDS patients. AIDS 12, 1033-7.

A single center, open-label clinical trial was conducted to evaluate the efficacy of melaleuca solution derived from an Australian tea leaf. Two of the twelve AIDS patients treated for candidiasis were cured and six improved at the 4-week evaluation and a follow-up evaluation 2-4 weeks after the treatment stopped showed no clinical relapses in the two patients cured. The results of the study indicate that malaleuca oral solution may be used as an alternative regimen for AIDS patients with oropharyngeal candidiasis refractory to flueconazole.

Bassett, I. B., Pannowitz, D. L., & Barnetson, R. S. (1990). A comparative study of tea-tree oil versus benzoylperoxide in the treatment of acne. Med J Aust, 153(8), 455-458.

This single blinded randomized clinical trial evaluated the efficacy and skin tolerance of 5% teatree oil gel in treating mild to moderate acne comparing with 5% benzoyl peroxide lotion. The results showed that both forms of treatment had a significant effect in reducing the number of inflamed and non-inflamed lesions. It was observed that tea-tree oil had fewer side effects, although the onset of action of tea-tree oil was slower.