Dr Peter Molan – “Honey as an Antimicrobial Agent”

Research from New Zealand

The following article appearing in this section, on the nature of honey and its medicinal properties have been written by Dr. Peter Molan (Professor of Biochemistry) and Co-director of the Waikato Honey Research Unit.

Professor Peter Molan

Professor Peter Molan.

Honey as an Antimicrobial Agent Article from
The Honey Research Unit Waikato University, Hamilton, New Zealand
Honey as an Antimicrobial Agent

1. Introduction
That honey has antibacterial properties has been known for more than a century. Although it has been used as a medicine since ancient times in many cultures, in its ancient usage there was no recognition of its antibacterial properties – it was just known to be an effective remedy.

This is not surprising considering that it is only since the latter part of the last century that it has become known that many ailments are the result of infection by microorganisms. Now it can be seen that the effectiveness of honey in many of its medical uses is probably due to its antibacterial activity. It is well established that honey inhibits a broad spectrum of bacterial species. There are many reports of bactericidal as well as bacteriostatic activity. There have also been reports of honey having antifungal activity.

These numerous reports of the antimicrobial activity of honey have been comprehensively reviewed the collation of data shows that honey is active against a wide range of bacterial and fungal species, many of which cause infections. However, there are ailments which may be treated with honey which have not had the infectious agents tested for their sensitivity to the antimicrobial activity of honey. Also, there has not been much distinction made in the different types of antimicrobial activity in honey to which the various microbial species are sensitive. For serious consideration to be given to the use of honey as a therapeutic agent it is necessary that these aspects be further investigated.

2. Antimicrobial Properties of Honey
The numerous reports of investigations which have established the nature of the antimicrobial factors in honey are cited in a comprehensive review of this subject  A brief summary of what has been established is given here.

2.1 Explanation of Antibacterial Activity

2.1.1. Osmotic effect
Honey is a saturated or super-saturated solution of sugars, 84% being a mixture of fructose and glucose. The water content is usually only 15-21% by weight. The strong interaction of these sugar molecules with water molecules leaves very few of the water molecules available for microorganisms. This “free” water is what is measured as the water activity (aw): mean values for honey have been reported from 0.562 to 0.62. Although some yeasts can live in honeys that have a high water content, causing spoilage of the honey, the aw of ripened honey is too low to support the growth of any species, no fermentation occurring if the water content is below 17.1%. Many species of bacteria have their growth completely inhibited if the aw is in the range 0.94-0.99. These values correspond to solutions of a typical honey (aw of 0.6 undiluted) of concentrations from 12% down to 2% (v/v). On the other hand, some species have their maximum rate of growth when the aw is 0.99, so inhibition by the osmotic (water-withdrawing) effect of dilute solutions of honey obviously depends on the species of bacteria.

2.1.2. Acidity
Honey is characteristically quite acidic, its pH being between 3.2 and 4.5, which is low enough to be inhibitory to many animal pathogens. The optimum pH for growth of these species normally falls between 7.2 and 7.4. The minimum pH values for growth of some common wound-infecting species is: Escherichia coli, 4.3; Salmonella sp., 4.0; Pseudomonas aeruginosa, 4.4; Streptococcus pyogenes, 4.5. Thus in undiluted honey the acidity is a significant antibacterial factor. But if honey is diluted, especially by body fluids which are well buffered, the pH will not be so low and the acidity of honey may not be an effective inhibitor of many species of bacteria.

2.1.3. Hydrogen Peroxide
The major antibacterial activity in honey has been found to be due to hydrogen peroxide produced enzymically in the honey. The glucose oxidase enzyme is secreted from the hypopharyngeal gland of the bee into the nectar to assist in the formation of honey from the nectar.
The hydrogen peroxide and acidity produced by the reaction:
glucose + H2O+ O2 –> gluconic acid + H2O2
serve to preserve the honey. The hydrogen peroxide produced would be of effect as a sterilising agent only during the ripening of honey. Full-strength honey has a negligible level of hydrogen peroxide because this substance is short-lived in the presence of the transition metal ions and ascorbic acid in honey which catalyse its decomposition to oxygen and water. The enzyme has been found to be practically inactive in full-strength honey, it giving rise to hydrogen peroxide only when the honey is diluted. This is because the acidity produced in the action of the enzyme drops the pH to a point which is too low for the enzyme to work any more. On dilution of honey the activity increases by a factor of 2,500 – 50,000, thus giving a “slow-release” antiseptic at a level which is antibacterial but not tissue-damaging.

2.1.4. Phytochemical Factors
The evidence for the existence of other antibacterial factors is mainly that the peroxide-generating system does not account for all of the observed antibacterial activity, but there have also been some reports of isolation of antibacterial substances from honey that are not hydrogen peroxide. Furthermore, it has ben found that heating honey, which inactivates the glucose oxidase, causes loss of activity against some species whilst it is retained against others. Although the stability of the enzyme varies in different honeys, there have been reports of honeys with stability well in excess of this variation, showing that there must be an additional antibacterial factor involved. The most direct evidence for the existence of non-peroxide antibacterial factors in honey is seen in the reports of activity persisting in honeys treated with catalase to remove the hydrogen peroxide activity. Several chemicals with antibacterial activity have been identified in honey by various researchers: pinocembrin, terpenes, benzyl alcohol, 3,5-dimethoxy-4-hydroxybenzoic acid (syringic acid), methyl 3,5-dimethoxy-4-hydroxybenzoate (methyl syringate), 3,4,5-trimethoxybenzoic acid, 2-hydroxy-3-phenylpropionic acid, 2-hydroxybenzoic acid and 1,4-dihydroxybenzene. However, the quantities of these present were far too low to account for any significant amount of activity.

Dr Peter Molan Honey research unit Waikato University New Zealand
Acknowledgement

Much credit for the advancement of our current understanding relating to the  therapeutic properties of honey and the identification of the pytochemical active components of honey must be given to Dr. Peter Molan and the research team at the Honey Research Unit. They have been one of the world leaders in this field of honey science and without their dedicated research, we would not be using honey today, as a recognised therapeutic and beneficial product.

While Dr. Peter Molan supports the use of Active Honey in health care, his position regarding any company, brand or honey product is totally impartial. These articles appear here for general interest only and are not intended to constitute medical advice or make medical claims.

Please note
Dr. Peter Molan and those at the Honey Research Unit have no involvement with any commercial activities of the Tyagarah Apiaries or its website.