Active Manuka Honey Research. (Article 2).

A household remedy millennia old is being reinstated: honey helps the treatment of some wounds better than the most modern antibiotics. For several years now medical experts from the University of Bonn have been clocking up largely positive experience with what is known as medihoney. Even chronic wounds infected with multi-resistant bacteria often healed within a few weeks. In conjunction with colleagues from Dьsseldorf, Homburg and Berlin they now want to test the experience gained in a large-scale study, as objective data on the curative properties of honey are thin on the ground.

Article 2: Establishing Honey as a Recognised Medicine.

Honey is becoming accepted as a reputable and effective therapeutic agent by practitioners of conventional medicine, and by the general public. This has been a consequence of there being an increasing awareness of the good clinical results that are obtained, and of there being rational explanations for its therapeutic actions. Further establishing this recognition of honey as a medicine involves a combination of literature research and laboratory research to obtain evidence and explanations of the therapeutic effectiveness of honey, and educating medical practitioners and the general public about the results of this research.

The fact that honey can help wounds to heal is something that was known to the Ancient Egyptians several thousand years ago. And in the last two world wars poultices with honey were used to assist the healing process in soldiers' wounds. However, the rise of the new antibiotics replaced this household remedy. 'In hospitals today we are faced with germs which are resistant to almost all the current anti-biotics,' Dr. Arne Simon explains. 'As a result, the medical use of honey is becoming attractive again for the treatment of wounds.'

Increasingly the medical profession is requiring evidence-based decisions on therapeutic options.

There are many reports in the medical literature of honey being very effective as a dressing for wounds, burns and skin ulcers: inflammation, swelling and pain are quickly reduced, malodour is reduced, shedding of dead tissue is induced so surgical removal is unnecessary, healing occurs rapidly with minimal scarring and with no need for skin grafting, and infection is rapidly cleared.

Dr. Simon works on the cancer ward of the Bonn University Children's Clinic. As far as the treatment of wounds is concerned, his young patients form part of a high-risk group: the medication used to treat cancer known as cytostatics not only slows down the reproduction of malignant cells, but also impairs the healing process of wounds. 'Normally a skin injury heals in a week, with our children it often takes a month or more,' he says. Moreover, children with leukaemia have a weakened immune system. If a germ enters their bloodstream via a wound, the result may be a fatal case of blood poisoning.

A moist environment is created which promotes the growth of new skin tissue. Although a moist environment also favours the growth of infecting bacteria, the antimicrobial properties of honey prevent infection. But unlike other antiseptics, honey is not harmful to tissues, and actually speeds up the growth of new tissue to heal the wound.

Most practitioners have not been aware that there is a marked variation in the potency of the antimicrobial activity of honey, due mainly to differences in the amount of hydrogen peroxide generated, but sometimes to additional antimicrobial components from specific plant sources.

For several years now Bonn paediatricians have been pioneering the use in Germany of medihoney in treating wounds. Medihoney bears the CE seal for medical products; its quality is regularly tested. The success is astonishing: 'Dead tissue is rejected faster, and the wounds heals more rapidly,' Kai Sofka, wound specialist at the University Children's Clinic, emphasises. 'What is more, changing dressings is less painful, since the poultices are easier to remove without damaging the newly formed layers of skin.' Some wounds often smell unpleasant – an enormous strain on the patient. Yet honey helps here too by reducing the smell. 'Even wounds which consistently refused to heal for years can, in our experience, be brought under control with medihoney – and this frequently happens within a few weeks,' Kai Sofka says.

Honey from manuka (Leptospermum scoparium) has an exceptionally high level of plant-derived antibacterial activity. The most common wound-infecting species of bacteria, Staphylococcus aureus, has been found to be particularly sensitive to this. All of the common wound-infecting species of bacteria have been tested and found to be sensitive to both types of antibacterial activity in honey. Clearing bacterial infection from a wound is essential to allow the healing process to occur. Recent tests carried out in collaboration with the Central Public Health Laboratory in London, UK, on many strains of multi-antibiotic-resistant bacteria such as MRSA strains MRSA, VRE and Acinetobacter baumarii have shown that these bacteria have no resistance to honey. (These "superbugs" are a serious clinical problem as infections with them often cannot be treated at all with antibiotics.)

In the meantime two dozen hospitals in Germany are using honey in their treatment of wounds. Despite all the success there have hitherto been very few reliable clinical studies of its effectiveness. In conjunction with colleagues from Dьsseldorf, Homburg and Berlin, the Bonn medical staff now want to remedy this. With the Woundpecker Data Bank, which they have developed themselves, they will be recording and evalu-ating over 100 courses of disease over the next few months. The next step planned is comparative studies with other therapeutic methods such as the very expensive cationic silver dressings. 'These too are an effective anti-bacterial method,' says Dr. Arne Simon. 'However, it is not yet clear whether the silver released from some dressings may lead to side-effects among children.' Effective bacteria killer.

All of the testing of sensitivity of wound-infecting species of bacteria that we have carried out has been done with honeys selected to have mid-range levels of antibacterial activity. These have been found to have ten to fifty times more activity than is needed to completely suppress the growth of the bacteria tested. Although this may suggest that therefore other less potent honeys would be suitable for use on wounds, it should be taken into account that honey gets diluted by serum exuding from wounds, and that the depth of penetration of an effective level of antibacterial activity depends on the strength of the activity on the surface.

The hydrogen peroxide generated in honey is responsible for some of the other therapeutic effects seen in wound treatment as well as for the antibacterial activity.

It has already been proved that medihoney even puts paid to multi-resistant germs such as MRSA. In this respect medihoney is neck and neck in the race to beat the antibiotic mupirocin, currently the local MRSA antibiotic of choice. This is shown by a study recently published by researchers in Australia. In one point medihoney was even superior to its rival: the bacteria did not develop any resistance to the natural product during the course of treatment.

It stimulates the growth of the cells responsible for replacing damaged tissue. Additionally it has an insulin-like effect on cells which would be expected to be beneficial to the healing process as application of insulin to wounds aids healing. It also stimulates the development of new blood vessels, a key first step in tissue regeneration. It serves as a messenger between the different types of cells involved in the immune response of the body to infection. It also activates protein-digesting enzymes in tissues which are involved in the healing process.

It is also known today why honey has an antiseptic effect: when producing honey, bees add an enzyme called glucose-oxidase. This enzyme ensures that small amounts of hydrogen peroxide, an effective antiseptic, are constantly being formed from the sugar in the honey. The advantage over the hydrogen peroxide from the chemist's is that small concentrations are sufficient to kill the germs, as it is constantly being produced. As a rule much larger quantities of hydrogen peroxide would have to be used, as hydrogen peroxide loses its potency over time. However, in large concentrations it not only damages the bacteria, but also the skin cells.

Although hydrogen peroxide is generally an inflammatory substance, the enzymic generation in honey gives only low levels. Also, antioxidants in honey prevent the formation of free radicals which are responsible for this inflammatory effect. The antioxidants in honey are also the likely explanation of the anti-inflammatory action of honey.

The acidity of honey and its content of sugars and other nutrients are also important for the promotion of the healing process. Acidification of a wound prevents ammonia from bacterial metabolism being harmful to the body tissues.

Furthermore, medihoney consists of two different types of honey: one which forms a comparatively large amount of hydrogen peroxide, and another known as 'lepto-spermum honey'. Leptospermum is a species of tree which occurs in New Zealand and Australia. Honey from these trees has a particularly strong anti-bacterial effect, even in a 10% dilution. 'It is not yet known exactly why this is,' Dr. Arne Simon says. 'Probably it is a mix of phenol-type substances which come from the plant and make life particularly difficult for the bacteria in the wound.'... [read more]

It also increases the release of oxygen from haemoglobin in the blood, oxygenation of the tissues being essential for growth of new tissue. Another important factor for growth of new tissue is a supply of nutrients, usually limited because of damage to the underlying circulation resulting from injury or infection. Honey will supply the cells with a wide range of vitamins, amino acids and minerals. It will also supply white blood cells with the glucose necessary for their "respiratory burst" to destroy bacteria. Further, it will supply nutrients to the cells by drawing serum out through the tissue by osmosis induced by the high sugar content of honey. This is what creates the moist environment for healing, preventing the deformity that would result if the re-growth were forced down by a dry scab forming on the surface. It also serves to create a film of liquid between the tissues and the dressing, which allows the dressing to be lifted off painlessly and without tearing off the recently re-grown cells. Another benefit is that it serves to reduce swelling in the surrounding inflamed tissue, and thus reduces a major cause of pain. The sugar content of honey also eliminates the unpleasant odour associated with major burns and skin ulcers, as the infecting bacteria use the sugar from the honey in preference to amino acids from the serum and dead cells, from which amines and sulphur compounds are produced.

Other traditional therapeutic uses of honey, for peptic ulcers, diarrhoea, eye infections, and throat infections, have also been researched to find evidence for their effectiveness. Clinical trials have been reported in which honey was found to be effective in the treatment of peptic ulcers and diarrhoea, and a clinical reports of the use of honey for the treatment of eye infections indicate that the treatment is effective. Laboratory research has been carried out that demonstrates that the bacteria that cause these infections are sensitive to the antibacterial action of honey.

In addition, laboratory research has been carried out to establish if there is a rational basis for trialing honey treatment of fungal infections of the skin, for protection of dental health, and treatment of mastitis in dairy cows and goats. In all of these it has been found that the microorganisms involved are sufficiently sensitive to the antimicrobial action of honey for a good therapeutic effect to be expected.

Clinical trials are currently being undertaken to measure the effectiveness of honey as a treatment for persistently non-healing wounds, for eczema, and for mastitis in dairy cattle.

Active Manuka Honey Research. (Article 1).

Treating Burns and Scars on Dog, Cats and Horses.

The major goal in treating burns in your dog, horse or cat is to relieve the pain and heal the burn without infection or major scarring.

Article 1: What's Special about Active Manuka Honey?

For over past 19 years, honey researchers at the University of Waikato have been investigating what many local New Zealanders have accepted as common wisdom: our local manuka honey is a superior treatment for wounds and infections.

First degree burns usually don’t require any medical treatment, since the fur of your dog or cat will have protected it more than likely from being burned.

Manuka honey is gathered in New Zealand from the manuka bush, Leptospermum scoparium, which grows uncultivated throughout the country. (More recently, as a result of systematic screening of Australian honeys, a honey with the same properties has been found to be produced from Leptospermum polygalifolium, which grows uncultivated in a few parts of Australia.)

Second degree burns need to be checked by a vet if they exceed an area of more than two fists. The blisters that usually occur with second degree burns should be left alone if they look normal. The skin will start healing on its own underneath the blister. The function of the blister is to protect the new skin from infections and further damage. The only thing you can do is applying a light gauze to the blister. Then, once the blister bursts it is important to gently remove the dead skin, for example by washing it off the affected area.

After the results of my work became known through scientific journals, many people contacted the Honey Research Unit to find out what is so special about active manuka honey. A thorough and scientific response is available in articles listed on my Web site, http://www.honey.bio.waikato.ac.nz/. However, I have compiled the pertinent facts here:

• Approximately 50 reports in medical journals detail the effectiveness of honey as a wound dressing and as therapy for eye infections and diarrhea.
  
  
The new skin that formed under the blister lays open now and needs to be protected. The best way to treat the wound is applying a wound dressing under sterile gauzes. There are various wound dressings for burns available.
• Honey has an antibacterial activity, due primarily to hydrogen peroxide formed in a "slow-release" manner by the enzyme glucose oxidase present in honey, which can vary widely in potency. Some honeys are no more antibacterial than sugar, while others can be diluted more than 100-fold and still halt the growth of bacteria. The difference in potency of antibacterial activity found among the different honeys is more than 100-fold.
  
  
Active Manuka Honey has proven many pet and horse owners how fast and effective a completely natural wound dressing can help healing their animals’ second degree burns, without leaving any scarring, just beautiful new skin and fur!
• "Active manuka honey" (and its Australian equivalent) is the only honey available for sale that is tested for its antibacterial activity. It contains an additional antibacterial component found only in honey produced from Leptospermum plants: "unique manuka factor" (UMF). There is evidence that the 2 antibacterial components may have a synergistic action.
  
  
Before treating the second degree burn of your animal with Active Manuka Honey, be sure that your hands and all instruments are clean. Clip back the hair of your pet that could be in the way. If possible clean the edges of the wound.
• Unique manuka factor is not affected by the catalase enzyme present in body tissue and serum. This enzyme will break down, to some degree, the hydrogen peroxide which is the major antibacterial factor found in other types of honey. If a honey without UMF were used to treat an infection, the potency of the honey's antibacterial activity would most likely be reduced because of the action of catalase.
  
  
Now you can apply Active Manuka Honey to a sterile gauze. Then apply the gauze with the honey to the wound. Change the honey wound dressing twice a day, approximately every 12 hours.
• The enzyme that produces hydrogen peroxide in honey is destroyed when honey is exposed to heat and light. But UMF is stable, so there is no concern about manuka honey losing its activity in storage.
  
  
If the burn you are treating is already infected it is recommended to change the wound dressing more frequently.
• The enzyme that produces hydrogen peroxide in honey becomes active only when honey is diluted. But UMF is active in full strength honey, which will provide a more potent antibacterial action diffusing into the depth of infected tissues.
  
  
If your animal has been burned on the leg or paw you will have to use more than just one sterile gauze.
• The enzyme that produces hydrogen peroxide in honey needs oxygen to be available for the reaction, so may not work under wound dressings or in wound cavities. Honey with UMF is active in all situations.
  
  
In order to keep the gauze with the wound dressing in place you can place cotton balls between the toes and wrap adhesive tape around. Then you can bandage the leg loosely for a good blood circulation.
• The enzyme that produces hydrogen peroxide in honey becomes active only when the acidity of honey is neutralised by body fluids, but then the honey is diluted.
  
  
• The UMF antibacterial activity diffuses deeper into skin tissues than does the protein-digesting enzymes that are in wound fluids.
  
  
If you bandage a leg try to flex the knee to make sure that the bandage is not too tight and to assure movement of the joints.
• Honey with UMF is more effective than that with hydrogen peroxide against some types of bacteria. For example, active manuka honey with UMF is about twice as effective as other honey against Eschericihia coli and Staphylococcus aureus, the most common causes of infected wounds.
  
  

If you notice a swelling of the leg or paw, loosen the bandage. Some people use socks over the gauze or bandage to keep the dressing in place.

Many medical professionals are using active manuka honey-and getting good results-in patients with wounds that have not responded to standard treatment. For example, a successful trial of active manuka honey on unresponsive skin ulcers was recently published in the New Zealand Medical Journal.

When wrapping adhesive tape around the affected area, try to not overlap the tape. The tape should stick to your animal’s hair in order to keep the bandage in place.

In addition, staff at a large hospital in Brisbane, Australia, recently used active manuka honey as a wound dressing on a patient for whom honey without UMF had failed.

Especially after a surgery it is important to treat the healing wound properly in order to prevent an infection of the fresh scar. Treating the healing skin of your dog or horse with Manuka Oil can speed up the healing process.

None of the results being obtained clinically should be considered evidence that active manuka honey is more effective than other honey - a comparative clinical trial will be needed to establish that. Nevertheless, when asked, I recommend active manuka honey with a good level of antibacterial activity for management of infections.

Manuka tea tree oil is antibacterial and anti-inflammatory. Many pet owners trust natural Manuka Oil for their pets’ scar treatment. Manuka Oil is very soothing, strengthens the skin and has no known side effects.

Medical professionals in New Zealand use active manuka honey with a rating of 10 UMF or higher. Although good results may be obtained with lower levels of activity, there is a chance that the lower activity will not be enough to fully clear an infection. In addition, honey with a lower level of activity will not allow as much of the antibacterial elements to diffuse into infected tissue, which could mean that effective control of infection may not be achieved in deeper tissue.

Use a cotton ball and simply massage the oil onto the healing scar twice a day... [read more]

To rate the potency of antibacterial activity of honey, I devised the testing method and the UMF number. The UMF numbers come from a standard laboratory test of antibacterial activity, with honey being compared with a standard antiseptic (phenol) for potency. For example, a honey with a UMF rating of 4 would be equivalent to the antiseptic potency of 4% solution of phenol, a carbolic disinfectant; a honey with a rating of 10 would have a potency equivalent to a 10% solution of phenol. To alleviate any concern over the possible risk of introducing infection by the use of an unprocessed natural product on wounds, honey can be sterilised by gamma irradiation without loss of any of its antibacterial activity.