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by Dr Colin Walker BSc, BVSc, MRCVS, Victoria, Australia

Megabacteria, which are cigarette-shaped organisms about 20 times the size of most common bacteria, live in the digestive tract of some birds. First identified in Australian Budgerigars in the early 1990s, they have the potential to ulcerate the lining of the bird= s glandular stomach. This leads to loss of blood and tissue fluid, predisposes the bird to secondary infection with other organisms and interferes with normal digestion. Initially, as the ulceration begins, the birds develop diarrhea and become fluffed and quiet. As the disease progresses, the birds start to lose weight and as the ulcers deepen and start to bleed the birds become anemic. Consequently they have trouble maintaining normal blood pressure and, as a result, their feet become pale and cold to the touch. In severe outbreaks, 50% or more of the birds can die.

Megabacteria infection is diagnosed usually by microscopic examination of a bird= s droppings. However, our understanding of the disease that Megabacteria cause has changed since the organism was first identified. We used to believe that if the organism was found in a bird= s droppings, then this would be the cause of any digestive tract health problem the bird was experiencing and that the bird should be immediately treated. We now realise that this is not necessarily the case. We now know that although the organism can cause disease in its own right, it is more often a secondary agent, only becoming involved after some other disease or poor management practice has already weakened the birds, making them more vulnerable to disease generally.

Recent work at the University of Melbourne has also shown that the organism is not a bacterium at all but rather a yeast and indeed the pattern of disease it causes is more typical of yeasts rather than many bacteria. As a result of this recent work, the organism has been renamed and now should be called by its correct name Avian Gastric Yeast. However, the term Megabacteria is so entrenched that its use is likely to persist.

It seems that Megabacteria are now fairly endemic in our Australian Budgerigar flocks, with many young birds being passively exposed from a young age to the organism either directly from their parents or other birds or droppings in the aviary. Fortunately with ongoing good care, this low-grade continuous exposure does not cause disease in many cases but rather encourages the development of a natural immunity to the organism. Disease comes when birds are exposed to a level of organism to which the natural immunity they have developed is not strong enough to protect them.

Typically, because of these factors, disease is seen most commonly in the post-weaning time. Young birds have simply not been alive long enough to develop the strong natural immunity of the adult and yet are under multiple stresses that are inherent in the weaning process such as separation from their parents, establishing themselves in the new aviary, and learning to feed and water themselves. Superimposed on this, any other stresses such as overcrowding, low hygiene, poor nutrition or failure to provide good control of other diseases during this time set the stage for a massive outbreak and particularly high losses.

Around the time the organism was first being identified, Assoc. Professor Louie Fillipich of the University of Queensland trialled an extensive range of antimicrobial agents to see which were effective against Megabacteria. He found only one, an antiyeast/antifungal drug called Amphotericin B. In Australia, this is available under several brand names. There used to be a Squibb product called Fungilin™, which contained Amphotericin B as a thick orange syrup. Birds would not drink this but it was useful in crop tubing individual birds. Unfortunately, Squibb no longer manufactures this product. Vetafarm, an Australian company based in Wagga Wagga, New South Wales produces a water-soluble yellow Amphotericin B-based powder called Megabac S™. This is not always easily available but at the time of writing can be purchased through their web site or through your veterinarian. Being water soluble, it is useful where large numbers of birds need to be treated. Squibb also produces Amphotericin B in tablets, called Fungilin™ lozenges. Although designed for human use, they can be adapted for use in birds under veterinary advice. Usually a tablet is crushed into 6ml of water and 0.25ml per 50 gram body weight of this solution is given to sick birds daily. The tablet is not easy to dissolve, however it eventually forms a yellow suspension that will flow through a crop needle. Alternatively, one tablet can be dissolved into 80ml of water and provided ad lib to unwell birds. The usual suggested treatment time is at least ten days. Do, however, remember that many birds such as Budgerigars are not obligate drinkers. Unlike other birds, such as pigeons, which will rush to a drinker if deprived of water for only a few hours, Budgerigars and some other birds can go without water for 20 days and still look basically normal on the perch. Although medicated water is provided, there is no guarantee that the birds are getting the drug.

Acids are another group of therapeutic agents that may help in managing Megabacteria. Initially this might seem a little strange. Stress disrupts the normal bowel bacteria and in the process interferes with lactic acid production. This lactic acid keeps the pH of the healthy bird= s bowel on the weakly acidic side, and in the process helps to protect it from disease. With stress, this innate protective mechanism can be lost. It is thought that by lowering (ie acidifying) gastric pH, an intestinal and stomach environment is created that not only makes it difficult for Megabacteria to establish in uninfected birds but also makes it difficult for Megabacteria to multiply in birds that are already infected. Usually, either citric acid (a white crystalline powder) at a dose of 1 teaspoon (3 grams) to 4.5B 6 litres or apple cider vinegar (acetic acid) 5B 10ml to 1 litre, are used. As these acids are natural nutrients, at the above doses there is no risk of a toxic reaction and thus can be used quite freely. Their use also helps ensure that droppings build up an acidic dressing in the aviary, helping to inhibit Megabacterial survival in the environment.

Probiotics are also thought to be of use through promoting health generally and by helping lower digestive tract pH through the production of lactic acid.

So, what should you do if your veterinarian tells you that your birds have Megabacteria? The correct answer depends on whether the birds are unwell and if so, how many are affected. Being a stress-based disease, only part of the answer involves the use of medication.

If all of the birds appear clinically normal, the appropriate thing to do is simply provide good care. With good management practices and the maintenance of a good aviary environment, the organism is unlikely to cause disease and the low-grade ongoing exposure is likely to strengthen the birds’ developing immunity.

If small numbers of birds occasionally become unwell (and the majority of aviaries fit into this group), a three-point plan is followed:

1. Megabacteria exposure to further birds is reduced by separating the unwell birds from the rest of the flock and then cleaning the aviary thoroughly. Unwell birds are treated with Amphotericin B (usually a Fungilin™ lozenge solution of 0.25ml per 50 gram body weight daily for at least ten days via crop tube). There may also be benefit in treating severely unwell birds with a broad-spectrum antibiotic to control any secondary bacterial infection. Baytril™ at a dose of 1 drop per 100 gram body weight twice daily per bird is a good choice.

2. Aviary management and environment are reviewed to identify any predisposing stresses that may have triggered the outbreak. To be thorough, this should involve a veterinary health profile to screen for any other concurrent health problems.

3. Ongoing good care is provided so that the majority of birds are best placed to resist the disease. Acids or probiotics can be placed in the water, mixed freshly each day, until a period without new birds becoming unwell occurs.

If large numbers of birds become unwell, then the same basic procedure is followed. It may no longer, however, be practical to crop tube individual unwell birds with Amphotericin B, and so water-based medications containing Amphotericin B (Fungilin™ lozenge or Megabac S™) may need to be used. In aviaries with severe ongoing problems, the regular use of acids or probiotics, e.g. two days per week may decrease the chance of severe disease outbreaks.


This article by Dr. Colin Walker is supplied by the World Budgerigar Organisation (www.world-budgerigar.org), as part of their encouraged exchange of research information, and reprinted with kind permission from Australian Birdkeeper Magazine.