| Dr Colin Walker
established the Australian Pigeon Company in 1994, to develop,
manufacture and distribute a range of veterinary medicines and
health supplements for pigeons.
http://www.auspigeonco.com.au/
Australian Pigeon
Company and
Aussie Bird Vet Pty Ltd
Can be contacted
either by:
Ringing
+ 61 3 9800 5311
or by fax
+ 61 3 9800 5944
Dr Walker's veterinary expertise,
together with his knowledge of the requirements of pigeon racers,
gathered through experience of his own race team, place him in the
unique situation to develop such products. The result is a range
of quality products made for the pigeon racer and based on sound
veterinary knowledge.
A summary list of the most popular and
widely used products follows, together with information on the
common diseases and the best way to use these medications in their
control. The most common health problems encountered in pigeons
are canker, respiratory infection, Coccidia, worms and external
parasites.
The medications that are used to control these are:
1. Baycox
Coccidiocide Solution - Toltrazuril-based, this effective
Coccidia medication requires only a 2-day treatment course; safe
to use during all stages of the pigeon year.
2.
Turbosole - The safe, effective,
quick-acting treatment for canker. The medication of choice during
breeding, racing and moulting.
3. Doxy-T
- A blend of Doxycycline and Tylan. Recommended by veterinarians
worldwide as the medication of choice to treat and manage the
respiratory infection complex during racing.
4. Resfite
- The antibiotic blend of choice for respiratory infection in
young birds.
5. Moxidectin
- A clear water-soluble wormer that not only eliminates roundworms
and hairworms but also eradicates all external parasites
(including airsac mites) that feed off body fluid. Readily taken
by the birds, there is no need to withhold food. The wormer of
choice during racing, breeding and moulting.
6. Permethrin
- A pyrethroid insecticidal spray that can not only be used to
spray or dip the birds but also to spray the loft.
7. Moxidectin
Plus- A moxidectrin/praziquantel water-soluble worming
solution that also treats tape worms.
DISEASE CONTROL AND THE USE OF MEDICATION
CANKER - ITS PREVENTION, CONTROL AND
TREATMENT
Nature of the disease
The disease canker is caused by a protozoan
Trichomonas columbae. This is a microscopic single-celled
organism. It lives within the digestive tract of pigeons, in
particular the throat and crop, and can also involve associated
areas such as the bile duct. The organism is fragile in the
environment, only surviving for a few minutes once outside the
bird. This helps with control of the disease and means that the
birds cannot become infected from the loft or immediate
environment as happens with other diseases such as worms and
paratyphoid. The organism (trichomonad) requires intimate contact
between birds to be spread and is usually transmitted by saliva or
pigeon milk. Saliva contaminates food and water. As a pigeon
drinks, the organism swims away from its beak and, when another
pigeon comes to drink, it not only drinks the water but also the
trichomonads there. When a pigeon sorts through grain, each
dropped grain contains a small amount of saliva. In this way, the
disease can also be spread through a feed hopper. Adult birds
'billing' can transmit the organism, as do parents when feeding
their nestlings.
Control of canker during the breeding
season
Correct medication is vital during the
breeding season so that the level of natural immunity in the
weaned youngster is as high as possible. Because the severity of
the disease varies in different lofts, there is no single blanket
program that is best for all lofts. There is no drug that by
itself will cure canker in a loft. It is a matter of using
medication correctly so that the birds can establish a strong
natural immunity to the disease. It is this natural immunity that,
in the longer term, protects them from the disease.
What causes canker to appear during
the breeding season?
In health, every time the feeding stock bird
feeds its youngsters, it passes on some of its own trichomonads to
them. This gives the youngsters a controlled gradual exposure to
the organism, which in turn allows them to establish their own
natural immunity. Clinical disease appears in the babies when the
stock birds shed too many trichomonads over a given period of time
to their youngsters.
Increased rates of trichomonad shedding will
occur if:
• the stock
birds are stressed for any reason
- Anything that stresses the stock bird will lead to an
increased rate of trichomonad shedding and includes such things as
a poorly designed loft, poor management practices, incorrect
feeding, and other concurrent diseases.
• the
stock birds' natural immunity is not high - Stock birds are
likely to shed higher numbers more readily when breeding if their
own natural immunity to the strains present in the loft is not as
yet solid. This can occur if new stock birds carrying different
trichomonad strains have been introduced to the loft during the
non-breeding time. All birds carry some immunity to the resident
trichomonad strains in their loft. When birds from different lofts
mix, they exchange their trichomonad strains. Adult stock birds
during the non-breeding season are not stressed and so exposure to
any new strains brought in by introduced birds is unlikely to lead
to disease. They are not moulting, not breeding, and have plenty
to eat, and therefore no sign of canker occurs. However, when
paired, if their natural immunity to the new different strains is
not solid, the stress of feeding will cause them to 'break down'
and shed larger numbers of trichomonads. In the same way, the
introduced birds need to establish an immunity to their new loft's
resident strains. This is why canker is more of a problem in lofts
that are still establishing with birds coming from a variety of
other lofts. As the years roll by, fewer new birds are introduced
and so the chance of new trichomonad strains getting into the loft
decreases. The birds' immunity to resident strains becomes solid
and the effect of the disease is less marked.
Many fanciers are frustrated when canker appears in the stock
loft. With excellent care in a good loft, they wonder just how it
is that the disease can come. Certainly they are on the right
track with this approach because in a good loft under good care it
is less likely that the stock birds will shed large numbers of
trichomonads. However, some strains are so active that problems
will arise no matter how well the birds are cared for.
How to manage an outbreak of canker
during the breeding season
When canker does appear during breeding, its
management is two-fold. It is a matter of:
1. treating the sick youngsters -
In lofts with a canker problem, all youngsters should be checked
daily. If a sick youngster is noticed it can be successfully
treated, and such youngsters can go on to become champions. Either
Spartrix or Flagyl tablets* can be used, however, Spartrix is more
convenient to medicate the nestlings. The dose of Spartrix is one
tablet per adult bird. Estimate how big the youngster is compared
to the adult and give it this proportion of the tablet once daily
until well. Usually, one to four doses are required. It is often
good to also medicate both the nest mate and parents for 2 days.
If the unwell youngster is slow to respond, it is usually best
eliminated. Individual pairs that breed youngsters with canker are
best mated to different birds for subsequent rounds.
At the same time, it is important to
2. decrease the
number of fresh cases -
This is done by checking the number of trichomonads that the stock
birds are shedding. This is achieved by giving 2 days Turbosole*
periodically. The exact frequency depends on the incidence of
canker but usually every 1 - 3 weeks is appropriate. One needs to
give sufficient 2-day courses to limit the number of new
youngsters with the disease, but at the same time to avoid overuse
of the drug so that the developing youngster is still getting an
on-going exposure to the organism. It is a matter of working
between these two extremes.
The important thing to always remember with canker during the
breeding season is that the disease can never be controlled
through medication alone. It is the development of a strong
natural immunity that protects the birds in the longer term. It is
important that medication is used to keep the birds well but used
in such a way as to not interfere with the development of this
immunity.
>>Back to Top
Preventative programs
for the breeding season
In the
stock loft that had canker last season
Treat all stock birds for 5 - 7 days before
pairing and then for 2 days every 1 - 3 weeks once paired.
Frequency of treatment depends on the severity of the problem and
the control achieved. Try and coincide these 2-day treatment
periods with the time of hatching when trichomonad shedding is
highest. If canker is still a problem in certain pairs, try to
only medicate these pairs. This can be achieved by breeding from
them in individual runs and only medicating their water with
Turbosole for 2 days as required or alternatively leaving them in
the loft and just treating them with Spartrix or Flagyl tablets
for 2 days when needed. Splitting the pair and remating each to
other birds for the next round may help.
Stock birds can be crop flushed before pairing to identify those
birds carrying large numbers of trichomonads. These birds are not
only more likely to shed large numbers of trichomonads more
readily once paired but also to pass on their genetic
susceptibility to canker. In the longer term, it is best if these
birds, when identified, are eliminated. The problem is that they
may, in fact, be the winners and here lies the challenge for the
fancier - to breed birds less susceptible to the disease that are
also winners.
In the stock loft that had no canker
last season
No treatment is required. If there was no
problem with canker in last year's nestlings, then it is best not
to medicate for canker. Any medication will stop the paired bird
shedding trichomonads and therefore interrupt the on-going
exposure of the growing youngster to the organism. This leads to a
lower natural immunity and may in fact create a vulnerability to
the disease in the postweaning period.
In the stock loft that had no canker
last season but to which new stock birds have been introduced
As discussed earlier, all birds carry in their systems the
resident trichomonad strains of the loft and usually have a strong
natural immunity to them. A newly introduced stock bird brings
these strains with it. These strains may not have been encountered
by your own birds and the new birds may not have encountered
yours. Both lots of birds in time must, through exposure, become
immune to the other strains. If introduced in the non-breeding
time, when the stock birds are not under any stress, i.e. not
moulting and in a good loft with plenty to eat, no clinical
disease will be seen. However, with the stress of breeding, any
immunity already developed will be put to the test. If immunity is
not solid at the time of breeding, excessive trichomonads will be
shed and the youngsters may develop canker. For this reason, new
birds, especially if introduced immediately before pairing, should
ideally be mated in individual runs and the youngsters monitored.
If youngsters in the main loft begin appearing with canker, the
loft should be managed as discussed under the section How to
Manage an Outbreak of Canker During the Breeding Season.
Control at weaning
In lofts with a canker problem, all youngsters can be treated with
Turbosole for 2 - 3 days at weaning, to avoid any check in their
development through this stressful time. In the longer term,
however, the important thing during this time is that only
youngsters with the disease should be treated so as not to
interfere with the developing natural immunity of the flock as a
whole. Affected birds should be separated and treated with either
one-quarter of a Flagyl tablet (200 mg) or one whole Spartrix
tablet once daily until well. This usually takes 1 - 3 days.
Alternatively, the unwell youngsters' water can be medicated with
Turbosole (1/2 teaspoon to 1 litre of water). It is important,
however, to ensure that any unwell youngster is still able to
drink. Turbosole can also be mixed into a paste and the
youngster's throat painted with this using a cotton bud. The group
of youngsters, as a whole, should only be treated if more than 10%
of youngsters are showing signs, usually with Turbosole for 2 - 3
days. However, in this situation it is best to seek veterinary
advice.
Control during the race season
If canker was a problem during the breeding season, this tells us
that the birds have the potential to have trichomonad flare-ups in
response to stress and that canker is likely to be a problem
during racing. However, through good management and the correct
use of medication, it is hoped, however, that most birds have
developed a reasonably strong natural immunity by the start of the
race season. The stress of racing will put any immunity that the
birds have formed to the test. Depending on what stresses the
birds are under, trichomonad levels will rise and fall. When high,
they have a typical parasitic effect, weakening the bird, in the
process creating a vulnerability to secondary infection
(particularly respiratory infection) and compromising race
performance. They also produce a toxin that makes the birds feel
unwell. Birds with elevated trichomonad levels are said to have
'wet canker'. Signs of infection can be subtle and quite varied.
Typical signs that would alert the fancier
to its possible presence include:
1. 'Penguin'
posture - Associated with proventricular (glandular
stomach) and crop pain. Birds will lean back on their tails and
gulp. Noticed particularly after eating and drinking.
2. 'Dry feather' - Due to lack of
down feather drop and bloom production.
3. 'Leady' feel - Affected birds
will not come into condition and feel heavy in the hand.
4. Wet dropping - Inflammation in
the digestive tract creates a thirst, leading to elevated water
intake and urine production. This produces a clear watery rim
around the dropping.
5. Green droppings - Due to
digestive tract irritation and in some birds decreased food
intake.
6. Inflammation in the throat -
Tonsillitis and increased clear to grey bubbly mucus.
7. Interference with crop function
- Delayed crop emptying and sometimes vomiting.
8. Increased food consumption by team as
a whole
9. Dry yellow canker - In birds of
any age, this tells you that many other birds have elevated
trichomonad levels, which have not yet passed the threshold for
yellow material to form.
10. Indirect signs - Poor loft
flying, poor tossing, respiratory problems that respond poorly to
medication or quickly relapse, a dramatic improvement in the
birds' general vigour in response to anticanker medication are all
suggestive.
Definitive diagnosis, however, depends on microscopic examination
of a crop flush. Microscopic changes that are suggestive of the
problem also develop in the dropping,. These changes are
associated with the stress of the disease and include elevated E.
coli and yeast levels. These changes, however, do not occur in all
birds.
Race lofts are divided into one of two groups for the purposes of
canker management:
1. Those without resident wet canker
strains.
Since the rapid spread of wet canker strains through the racing
pigeon fraternity since the early 1990's, not many lofts now fit
into this category. In these lofts, canker is unlikely to be a
problem during breeding and crop flushes done on members of the
race team will be repeatedly negative. Here, an effort is made to
prevent the introduction of these strains with returning race
birds. In races where the birds are provided with drinkers,
returning race birds are medicated with Turbosole (1/2 teaspoon to
1 litre of water) for 24 hours upon return. Often the single big
drink that returning race birds have, although not sufficient to
treat an active infection, will clear the trichomonads picked up
from a recent exposure.
2. Those lofts with resident wet canker
strains.
In these lofts, canker is likely, but not always, to be a problem
during breeding, and crop flushes done on individual race birds,
particularly following stress, will contain large numbers of
trichomonads. Here, attention focuses not on treating returning
birds, because the strains are already in the loft, but on keeping
the numbers of trichomonads low so that they cannot affect race
form. This is achieved by giving periodic 2-day courses of
Turbosole. The length and frequency of each treatment is variable
from one loft to the next, being affected by a number of factors
intrinsic to that loft. In most lofts, however, 1 - 2 days every 1
- 3 weeks will keep trichomonad levels low. In the absence of
testing, treatment 2 days every third week is advised. This is
usually given on the Monday and Tuesday. Preferably, however, the
use of Turbosole within a loft is based on the results of testing
birds from that loft. If trichomonads are detected in a crop
flush, an initial 2-day course of Turbosole is given. Follow-up
crop flushes are then done every few days so that the exact time
that trichomonads start to reappear is detected. Once this
interval is known for that loft, then, given a constant set of
loft parameters, the trichomonads will repeatedly and predictably
reappear at this time. Follow-up 2-day Turbosole treatments at
this interval will ensure the trichomonad levels are always low
and therefore not given a chance to affect race form. The main
loft parameters are the genetic make-up of the birds, the strain(s)
of trichomonad present, the loft environment and the management
practices. If these change, the use of Turbosole may also need to
change, e.g. increased tossing combined with cold weather may
stress birds, leading to premature trichomonad flare-ups and a
shortening of the treatment interval for one or two treatments.
Generally, however, as the season progresses, the need for
medication declines as the birds get older, both their level of
fitness and natural immunity rise and, in particular, in Victoria,
as the weather becomes warmer.
Other sites of canker
As fanciers would be aware, most canker lesions are found in the
bird's throat and are often associated with their tonsils here.
However, canker can affect a variety of other sites.
Navel canker
If pigeon milk is spilt into the nest bowl and this, in
turn, contaminates a nestling's navel that has not fully healed, a
canker nodule can develop on the navel. Treat the nestling with
the correct dose of Spartrix daily (usually 1 - 4 days).
Antiseptics (such as Betadine) can be applied to the navel daily
until the area has dried. After several days, the nodule can be
'popped' like a scab and separated from underlying healthy tissue.
The condition must be caught early for treatment to be successful
and for the youngster to be of value racing. The condition is more
likely to occur when nest conditions are poor, leading to delayed
navel healing, and is therefore often associated with 'wet nests'
and with inappropriate nesting material. The condition is also
more likely to occur if the parents are shedding large numbers of
trichomonads. A suggested course of treatment is:
• Treat youngster and both parents
daily with Spartrix
• Dab navel daily with Betadine
• Clean nest
• Treat parents for 'wet nest' if
appropriate (PVM Powder and Probac)
• Improve nest conditions
Sour crop
In pigeons with sour crop, at least 90% have an internal canker
nodule located at the base of the crop or within the glandular
stomach (proventriculus). As the nodule increases in size, it
squashes the windpipe making breathing difficult and blocking the
crop outlet. This interferes with crop emptying, leading to
bacterial infection of the crop and secondary starvation and
dehydration due to the crop contents not being able to pass into
the bird's system. Usually by the time the bird is noticed to be
unwell, the condition has passed the point where it will respond
to treatment. Deaths often occur due to the nodule growing through
the stomach wall, leading to stomach contents leaking into the
chest. Alternatively, the nodule can damage the heart or large
blood vessels within the chest, causing sudden and severe
bleeding. Such birds are often found dead on the floor with blood
coming from the mouth. It is always worth attempting to treat
valuable birds and I suggest :
• Manually empty the crop
• Give electrolytes in water
• Treat bird with 3 drops Baytril
twice daily
• Treat bird with 1 tablet of
Spartrix or a 1/4 Flagyl tablet or 0.5 ml Flagyl syrup once daily
• Separate unwell bird from loft
mates
Cloacal canker
The cloaca is the pigeon's bottom. Within its wall is a gland
called the Bursa of Fabricius. This gland is an important part of
the youngster's immune system. It shrivels up and disappears
during puberty. If pigeon milk containing trichomonads
contaminates the nest bowl, the trichomonads can cause a
trichomonad nodule to develop in the cloaca. Affected birds are
usually noticed to be a bit quiet or their growth is slightly
retarded compared to others of their age. On examination of the
cloaca, a firm lump can be felt in the skin above it. Sometimes
these lumps do not become apparent until the postweaning period.
Affected birds should be treated daily with either Spartrix or
Flagyl, usually for 3 - 4 days, by which time the nodule has
usually localized and can be expressed by gentle but firm pressure
through the cloaca.
Canker nodule in throat or crop
Older youngsters or mature stock birds with a reasonably strong
natural immunity will often try and localize a canker infection,
leading to nodule formation. If in the throat, these nodules can
usually be seen or if in the crop wall can usually be felt as firm
mobile lumps ranging in size from 0.5 cm to 4 cm in diameter.
Affected birds are treated daily with Spartrix or Flagyl tablets.
Once localized (usually 1 - 4 days), throat lesions can usually be
teased free with a cotton bud or crop lesions pinched free into
the crop. Occasionally, surgical removal is necessary. Premature
attempts at removal usually result in excessive bleeding.
Internal canker
Canker can infect internal sites associated with the digestive
tract, notably the bile duct, which drains bile from the liver
into the bowel. Birds with internal canker nodules usually display
non-specific signs of illness, including weight loss, lethargy,
reluctance to eat and green diarrhoea. The final diagnosis is
often made at autopsy. In lofts with a canker problem, it is
usually best to include a daily Spartrix or Flagyl tablet in the
treatment regime of an unwell bird in case this is the problem.
Sinus canker
Sometimes canker organisms can invade the sinuses through the slot
in the roof of the mouth and form a canker nodule here. The birds
present with a firm swelling across the forehead between the base
of the cere and the eyes. Anticanker medication is given for 4 - 5
days to kill the active infection. After this, lancing the area by
making an incision in the skin over the most prominent area of the
nodule enables the canker nodule to be expressed. Once the nodule
is removed, it is best to continue with anticanker medication for
several days. Healing is usually uneventful.
Other sites
It is important not to confuse infection in other parts of the
body with canker. Trichomonads, partially because of their
fragility, can only infect the digestive tract and associated
structures. Pigeons are very restricted in their response to
infection. Their white blood cells lack many of the enzymes
(called lysosomes) that are normally found in mammals and
therefore cannot produce pus. For this reason, no matter where the
site of infection, the resultant reaction often looks like a
canker infection. Bacterial (or other) infections of the skin,
feet and eye, etc. for this reason are often confused with canker
because of their appearance.
Medications Available
Any one of a group of medications called nitro imidazoles are
effective against trichomonads. There are four commonly in use:
1. Dimetradazole - The common
brand name here is Emtryl, available as a water-soluble powder.
Dimetradazole was the first nitro imidazole available and is still
an effective drug, although trichomonad resistance to it in some
areas is a problem because it has been used for the longest. It
must be used with care as it has a narrow safety margin. Overdose
leads to a reversible loss of balance and coordination and, in
high doses, death. The medication can interfere with sperm
production in cocks, leading to a temporary infertility, and so is
not recommended for use during breeding. The usual dose is 1
teaspoon (3 grams) to 4½ - 8 litres of water. Lower dose rates
should be used in stock birds feeding youngsters and during hot
weather when water intake increases and evaporation occurs from
drinkers, increasing the concentration of the medication.
2. Carnadazole - The common brand
name here is Spartrix. It is only available in tablet form. It has
a wide safety margin and is very useful for individual bird
dosing, particularly youngsters in the nest. The dose is one 10-mg
tablet daily.
3. Metronidazole - The common
brand name is Flagyl. This is available as a water-soluble syrup
and as tablets in a variety of strengths. It is very economical,
with the tablets being useful to dose individual birds. Individual
birds are given ¼ of a 200-mg Flagyl tablet once daily. Flagyl
syrup is water soluble and is given at the dose of 5 - 10 ml per
litre but is very sugary and not very palatable to the birds.
4. Ronidazole - This is available
as a water-soluble powder under a number of brand names
world-wide, including Ridsol-S, Turbosole, Tricho-Plus and Ronivet.
The usual strength used is 10%. The dose at this strength is ½
teaspoon per litre. Weaker preparations are available but the
birds need to be treated longer with these. The drug is very
bitter so preparations stronger than 10% tend to be unpalatable to
the birds. It has a very wide safety margin and is safe to use
during breeding, racing and moulting. World-wide, ronidazole is
the current medication of choice to treat canker. However, in some
countries it is not available for use in pigeons, authorities
being concerned that resistant organisms may develop. As the drug
is used in food-producing animals such as pigs, its use is
reserved for these.
In any canker-control program, it is often best to rotate between
at least two of these medications in order to decrease the chance
of a resistant trichomonad strain developing. Currently,
ronidazole-based preparations are used as the primary treatment
because of their effectiveness and wide safety margin, but it is a
good idea to swap to one of the other available drugs every third
or fourth treatment.
>>Back to Top
THE PARASITIC DISEASES
There are many parasites that infect
pigeons and I feel that it is beyond the scope of this book to
discuss all of them in detail. The most important and most
commonly encountered parasites are roundworm, hairworm, tapeworm,
the external parasites, lice and mites and Coccidia.
Worms
Worms are a primary and serious parasite and it is important that
they are completely eradicated for the birds to perform at their
best. They weaken the bird, meaning that race performance cannot
be optimal, and also increase vulnerability to other secondary
diseases, such as canker and respiratory infection. There are
three common intestinal worms - roundworm, hairworm and tapeworm.
Roundworm and hairworm
These worms live in the digestive tract of the pigeon and release
eggs, which are passed with the bird's droppings. After several
days in the environment, these eggs become infective and, if then
accidentally ingested by a pigeon, hatch inside them and grow into
the new worm. In the loft, there is no easy way for the fancier to
tell whether his birds have these parasites as the adult worms are
only rarely passed in the droppings and indeed hairworms are
microscopic. They are usually diagnosed by microscopic examination
of a dropping sample, in which their eggs can be seen.
Treatment
I recommend Moxidectin to treat hairworm and roundworm. Moxidectin
(2 mg/ml) is a clear fully water-soluble liquid that, when diluted
in the drinking water, is readily taken by the birds. The dose is
5 ml per 1 litre of water for 24 hours. It has a wide safety
margin and is perfectly safe to use during racing, breeding and,
in particular, moulting. Moxidectin does not cause nausea and
vomiting as many older worming preparations do and so the birds
can be fed and loft flown quite normally. Moxidectin also has the
added advantage that it eliminates any external parasites that
feed off body fluid. Mites in pigeons live off blood and so these
are all cleared with Moxidectin. Lice live off feather debris and
bloom and so in theory this drug should have no effect on them but
in practice, during the 3 weeks following Moxidectin treatment,
most lice also disappear. Moxidectin is also a safe and effective
treatment for airsac mites at the usual dose given above.
Control in the stock loft
The stock loft should be completely free of worms. The roundworm
life cycle can be completed in 3 - 4 weeks and so a single worming
before breeding (or racing) will improve things for that period of
time only. Eradication can be achieved by using Moxidectin twice
at a 3-week interval followed by a superthorough clean after each
treatment. This removes droppings passed before medication, which
may contain infective parasite eggs with the potential to reinfect
the birds. It is a good idea to have the droppings rechecked 3
weeks after the second worming to ensure that the parasite has
been cleared. Once these parasites have been cleared, worming any
new bird before it goes into the stock loft should prevent
reintroduction of worms. The dose of Moxidectin for a single bird
is 0.25 ml of the neat liquid. If it is not possible to completely
and thoroughly clean the loft, Moxidectin can be repeated every 3
weeks over a 6-month period as the longest that eggs can remain
infective in the environment is 5 - 6 months. Worms can also
reenter the stock loft if the droppings of pigeons or doves
outside the loft can enter. To prevent this, any external flight
should either have a grid or suspended floor.
Control in
the racing loft
It is important that the race team is free of worms before racing.
The need to treat can be determined by a dropping analysis. In the
absence of testing, it is better to assume that the birds are
infected and treat twice at a 3-week interval followed by a
thorough clean before the commencement of racing. With the
commencement of Thursday night basketing, race unit reinfection
can occur and so it is important that the droppings are regularly
checked during racing to monitor this. If a positive result is
returned, worming is usually done on the Sunday or Monday (when
racing is on the Saturday). In the absence of testing, it is a
good idea to give the birds 1 day Moxidectin every fourth week
(usually on a Monday) to clear any roundworms or hairworms that
might have been picked up in addition to any lice or mites that
they might be carrying.
>>Back to Top
Tapeworm
Tapeworms also live in the pigeon's digestive tract. They have a
head or scolex, which is embedded deeply into the lining of the
pigeon's bowel. Behind this head mature segments, called
proglottids, which are essentially packets of eggs. New segments
are continuously forming behind the head, pushing maturing
segments further and further away until eventually ribbons of
segments trail behind the head down the bowel, with the most
mature ones at the end. When fully mature, these egg packets snap
free either singly or several at a time in ribbons before passing
down the bowel and out with the droppings. The fancier will notice
either a segmented white ribbon hanging from the pigeon's cloaca
or, alternatively, as the segments are motile when passed, he may
see small white segments wriggling within the droppings shortly
after being passed or air-dried segments stuck to the surrounding
perch. Tapeworms are therefore not a microscopic diagnosis because
these segments can be seen with the naked eye. Different types of
tapeworm vary in size. The small ones look like white pieces of
cotton trailing through the dropping, larger ones look like pieces
of rice stuck on the surface of the droppings, while the largest
ones appear as whitish squares up to 0.5 cm x 0.5 cm. Once in the
environment, the eggs inside these segments are ingested by
insects. These eggs hatch into infective larvae in the insects.
Pigeons become infected by eating these insects.
Treatment
For tapeworm eradication, I recommend Prazivet Solution. This is a
new preparation that has many advantages over previously available
treatments. It is fully water-soluble, meaning that birds do not
have to be picked up individually and given tablets. It only needs
to be made available for 24 hours, unlike other water-soluble
preparations. It can also safely be given during racing, breeding,
and, in particular, moulting. There is no need to remove food and
the birds behave quite normally so that feeding and loft training
can continue uninterrupted. It is also very cheap, costing less
than 4 cents to treat each bird. The dose is 5 ml to 1 litre of
water. It's active constituent is praziquantel. Praziquantel
tablets (Droncit) are also available for those fliers preferring
to give tablets to individual birds.
A tapeworm's life cycle can be completed as quickly as 21 days.
This means that if a pigeon swallows an insect the day after
worming, within 21 days it will have tapeworms again. It is
therefore important to minimize the birds' exposure to insects.
However, in the warmer northern areas of Australia where tapeworms
are common, Prazivet can be given for 1 day every 3 - 4 weeks.
Weevils are one of the insects that can carry tapeworm and so seed
that either has or has had weevils in it (look for the little
bored holes) must be avoided. Within the loft, slaters are the
most common insect carrying tapeworm. When disturbed, slaters roll
themselves into balls, which I think pigeons mistake for peas,
because these balls are a similar size and colour. To prevent
reinfection, it is therefore best to spray out the loft with
Permethrin Solution simultaneously with a Prazivet treatment.
Permethrin has a residual effect for 4 months.
>>Back to Top
Lice and mites
The two most common external parasites of pigeons are lice and
mites. Lice live their entire life cycle on the bird, dying
quickly once they are off the bird. They live off feather debris
and bloom. Mites drink blood and other body fluids and not only
live on the pigeon but also live in cracks and crevices throughout
the loft. Not all mites that infect the pigeon are on the bird at
any one time. Many live in the loft environment, hiding in cracks
and crevices, and, in particular during the breeding season, below
nest bowls and within nesting material, only moving onto the birds
and nestlings at night to feed.
Treatment
Permethrin is a synthetic pyrethroid used to treat lice and mites.
Pyrethroids are plant-origin insecticides, which are very
effective but very safe for use in pigeons. Permethrin Solution is
used in the following three situations:
1. To dip birds to eradicate lice
- Fill a bucket, diluting 10 ml Permethrin to 1 litre of water.
Use warm water and treat the birds in the morning of a warm day.
Add half a teaspoon of soap flakes to act as a wetting agent.
Immerse birds up to their neck, fanning their wings and tail
through the solution. Momentarily dip their heads below the
surface. Addition of the wetting agent enables complete
penetration by the Permethrin. The birds look normal 2 hours after
dipping. Permethrin does not remove the birds' bloom and has a
residual effect for up to 4 months.
2.To spray the loft - This is done
in conjunction with Prazivet treatment to kill any insects in the
loft that might be carrying any tapeworm and also to eradicate
mites in conjunction with a Moxidectin treatment. It is also done
before breeding to eliminate mosquitoes, flies and, in particular,
red mite. Birds are removed from the section, which is then
scraped clean. Permethrin is diluted 10 ml to 1 litre and sprayed
onto the clean scraped surfaces and into any nooks and crannies.
The loft will dry in 1 - 2 hours and the birds allowed to
re-enter.
3. To treat individual birds - It
is a good idea to have some diluted Permethrin mixed and ready to
use in a spray bottle. Any introduced birds can be quickly sprayed
before being placed in the loft as can any late returning race
birds. The usual dilution used is also 10 ml to 1 litre.
>>Back to Top
Coccidia
Coccidia are fascinating organisms. They can infect not only
pigeons, and in fact all birds, but also dogs, cats, sheep, pigs,
cows and a range of other animals. They are, however, very
species-specific so that it is only pigeon Coccidia that can
infect pigeons and, for example, only sparrow Coccidia that infect
sparrows. There are however, several types that can infect each
animal. The most common Coccidia type in pigeons is called Eimeria
spp.
Animals become infected by swallowing the organism's eggs. All
Coccidia once swallowed replicate in the cells of the host, in the
process causing extensive damage. In pigeons, this occurs in the
lining of the bowel. After multiplying here, the newly produced
eggs are passed in the droppings. When initially passed, the eggs
(oocysts) are thin-shelled and contain a spherical body, which
looks granular, called a sporoblast. The sporoblast is an
amorphous blob of protoplasm. Once in the environment, the
sporoblast within the bigger egg develops into several smaller
eggs called sporocysts (there are four in Eimeria), which in turn
each contain a number of structures called sporozoites (there are
two in Eimeria). Once this has happened, the egg is said to be
sporolated. It is not until this has happened that the egg is
infective if swallowed. This process usually takes 4 - 5 days but
depends on temperature and humidity. Once an infective (i.e.
sporolated) egg is swallowed, the sporozoites hop out and burrow
into the wall of the bowel. They at first multiply asexually in
the bowel cells but then develop into the equivalent of male and
female gametes, which then 'mate' to produce further eggs (oocysts),
which rupture back through the bowel lining before being passed in
the dropping, thus completing the life cycle.
The significance of Coccidia for us as pigeon racers is that as
the Coccidia multiplies in the bowel lining, it damages it,
interfering with it doing its job of digestion properly. This is
complicated by the fact that each time an egg ruptures back into
the bowel from the lining, it causes a microscopic 'pin prick',
allowing the bird's blood, electrolytes and protein to be lost.
This weakens the birds and interferes with the absorption of vital
nutrients. Severely affected birds develop greenish diarrhoea, are
lethargic, thirsty and lose weight. Race birds with even the
slightest infection are not able to give of their best.
In most lofts, a low level of infection is present and out of the
racing season is regarded as normal, serving to maintain the
flock's level of immunity. In two situations, the organism can
increase in number and cause clinical problems:
1. As a primary disease, where there are
flaws in loft management or design that lead to high exposure to
the organism - The loft must be clean and dry. A build-up
in the loft is prevented by regular cleaning with particular
attention to the drinkers and hoppers. There is no place for
wetness in a healthy loft; it not only enables the Coccidia egg to
become infective more quickly, but promotes bacterial infection.
2. As a secondary disease, where other
factors weaken the bird, enabling the Coccidia to increase in
number and cause clinical disease - Such factors may be
other concurrent disease, such as worms, or alternatively
overcrowding, excessive tossing, poor nutrition, etc.
Treatment
Coccidia should always be suspected where loose droppings appear,
particularly in young birds or following wet periods or heavy
training. Diagnosis is through faecal examination under a
microscope. The best drug to use is Baycox Coccidiocide Solution,
which acts entirely within the bowel. It does not interfere with
race form and can therefore be safely used during racing. It can
also be used safely during breeding and moulting. The dose is 1 ml
per 2 litres of water for 2 - 3 days. Avoid medicating if you
believe your birds do not have coccidiosis.
Monitoring of coccidial counts by faecal examination (I suggest
every 4 weeks) through the race season is a good indicator of the
team's form. Birds with elevated counts will benefit from a course
of Baycox Coccidiocide Solution. In faecal samples from perfectly
fit birds, no coccidial eggs are seen.
Other parasites
Other less common parasites that the fancier might encounter are
pigeon flies, scaly leg mites and Hexamita.
>>Back to Top
PIGEON FLIES
Have you ever seen a row of holes on a pigeon's flight feather?
These are caused by a special type of fly called Pseudolynchia
canariensis. The adults live on the body of the bird, scurrying
between the feathers. They are blood suckers, with their bites
causing pain, irritation and restlessness. They will insert their
feeding tube into a blood-filled growing feather follicle to feed.
As this feather unfurls, the tunnel created by the feeding tube
unravels into a series of holes.
The flies lay their eggs on accumulated pigeon droppings and their
maggots develop here. Fly numbers are highest during the warmer
months when the birds are breeding when they can bite nestlings
and breed in the droppings around nest bowls. Interestingly, the
saliva of the adult flies gives the nestlings diarrhoea, which
makes it easier for the maggots to survive.
Treatment
On-going hygiene and efficient disposal of droppings (remembering
that accumulated droppings below a grid floor or piled in the
garden near the loft can serve as breeding grounds) will do much
to control the problem. However if necessary, any flies on the
birds can be killed by either spraying the birds with Permethrin
or treating them with a 24-hour course of Moxidectin. Coupling
this with spraying the loft with Permethrin, particularly before
breeding, will solve the problem.
>>Back to Top
SCALY LEG MITES
Some mites, e.g. Cnemidocoptes mutans, will actually burrow into
the skin of a pigeon's feet. They lay their eggs in the tunnels
they create and leave little breathing tubes connected to the
surface. This irritation causes the skin of the feet to become
thickened and scaly. At any one time, the mites can also be found
on other parts of the body, in particular on the wing butts,
around the face and on the skin over the abdomen. Even though the
mites are infectious only certain birds seem vulnerable so that
not all birds in the team will be infected.
Treatment
The best treatment is to give all birds a simultaneous 24-hour
course of Moxidectin. It is important not to confuse scaly leg
mite infestation with the thickened crusty growths that occur on
the feet of some birds with age.
>>Back to Top
HEXAMITA
Hexamita is an organism closely related to the organism that
causes canker. It lives primarily in the bowel and in high numbers
can cause diarrhoea. It is diagnosed by microscopic examination of
a fresh faecal smear, in which it looks just like a canker
organism but appears slightly more elongated and moves faster and
more purposefully Well-cared-for, non-stressed pigeons can carry
low-level infections asymptomatically. However, Hexamita should be
totally eradicated in any racing pigeon loft to ensure that the
birds give their best.
Treatment
Any medication that kills canker also kills Hexamita. However,
Hexamita needs to be treated for longer. Usually, a continuous
7-day course of a drug such as Turbosole is given simultaneously
to all birds in the loft. The organism cannot survive in the
environment and so reinfection from the loft is not a concern.
Treating all birds simultaneously for 7 days therefore ensures
eradication. It is always worthwhile doing a follow-up dropping
test to ensure its removal.
>>Back to Top
RESPIRATORY INFECTION
If you ask any experienced flier what
health problem he fears the most, then if it is the breeding
season he will probably say canker, but if it is the race season
he will probably say respiratory infection. Respiratory diseases
are very common in pigeons. They are the major cause of poor
performance and pigeon loss during the race season. Young birds
under stress are most at risk of contracting respiratory diseases,
although healthy old birds can fall ill when exposed to
respiratory diseases in the race basket. Race birds with
respiratory infection can be difficult to detect and yet, like a
human athlete with flu, cannot compete. When some fanciers talk
about respiratory infection, they give the impression that they
are discussing a single problem and, yet, several organisms can be
involved and often simultaneously. Clinical respiratory infection
in pigeons is the end result of the interplay of a number of
factors but, in particular, the type of infective organism and the
vulnerability of the birds to infection are important . The
respiratory system can be infected by Chlamydia, Mycoplasma,
bacteria (in particular E. coli), fungi, viruses and mites. The
control of some of these starts, in certain lofts, not only before
racing and not even during breeding, but right before the stock
birds are paired.
Stress is always a big factor. The vulnerability of the pigeon is
affected by what stress it is under. Stress weakens the bird,
enabling infective organisms to cause clinical disease. The
control of respiratory disease is therefore two-pronged.
1. Control of any predisposing stress
factors - These can take the form of :
(a) Environmental triggers, e.g.
dampness, overcrowding, low hygiene
(b) Management triggers, e.g. poor
feeding, excessive tossing, or
(c) Concurrent disease, in
particular parasitism. This includes wet canker. The combination
of either worms or elevated trichomonad levels and respiratory
disease is very common.
The fancier must establish a healthy loft environment, otherwise
respiratory disease will continually recur, despite medication.
2. Correct use of appropriate drugs to
either eradicate or keep the organism level low so that disease
does not occur.
The organisms that infect the respiratory system and how they are
controlled are set out below.
>>Back to Top
Chlamydia
Chlamydia is a microorganism that is found within the system of
many pigeons all the time. There are many strains, which vary
tremendously in their capacity to cause disease. Lofts tend to
have resident strains to which those birds, often through their
on-going exposure, have developed an immunity. In such lofts, it
is only when the birds are stressed that the Chlamydia is able to
flare up and cause disease. It is through contact with other birds
(strays, in race units, new introductions) that new and
potentially nastier strains gain entry to the loft. Control of
Chlamydia is, therefore, double-barrelled and involves the control
of stress to avoid resident Chlamydia strains flaring up together
with the correct use of medication and the prevention of new
chlamydial strains entering the loft.
Control of stress to avoid chlamydial
strains, already in the loft, flaring up
A subsequent chapter deals with what constitutes stress and how to
avoid it, but essentially this involves on-going good care with
good management practices, a good loft environment and control of
other diseases, notably the parasitic diseases. Any problem that
weakens the birds makes them vulnerable to a chlamydial flare-up.
Sometimes, however, despite the best possible care, because the
strain of Chlamydia in the loft is virulent or the family of
pigeons is particularly vulnerable (as with some European
strains), it becomes necessary to medicate the birds through
stressful times to prevent chlamydial flare-ups and the resultant
clinical disease. The particular times when these flare-ups are
more likely to occur are during breeding, after weaning and during
the racing season.
Breeding
Stress for a stock bird is breeding. Stressed stock birds will
shed the organisms in their droppings, saliva and eggs. If the
Chlamydia is in the egg, the developing embryo is weakened and can
either die during incubation, during the hatching process or as a
nestling or, if it survives, be a retarded youngster. In a nestbox
heavily contaminated with Chlamydia, the developing youngsters
become weakened and die. If these things have happened in earlier
years, and breeding has commenced, it is too late to treat the
stock birds. However, medication (usually doxycycline) can be
given before mating to decrease the level of Chlamydia in the
stock birds' system. This means that they will then require more
stress before they start to shed the organism.
The length of treatment depends on the need, usually 7 - 30 days.
If your loft has a history of chlamydial problems during breeding,
a prebreeding doxycycline course is a good idea. Chlamydia can be
completely cleared with a 30 - 45-day course of doxycycline.
However, this is rarely done because the weaned youngsters will be
exposed to the organism later in life and may in fact be more
vulnerable to illness through this lack of exposure and the
resultant low level of natural immunity. Doxycycline, like other
antibiotics, causes disruption of the normal bowel bacteria,
interfering with vitamin metabolism and calcium absorption. It is
therefore important that preventative courses are completed
several weeks before pairing and there is benefit in giving the
birds probiotics, vitamins and calcium supplements following them.
After Weaning
The next vulnerable time is the postweaning period, when both
weaning and moulting are the underlying stresses. In Victoria,
Australia, January to May are the respiratory months. Most lofts
contain large numbers of young birds having just had the stress of
weaning and now having the stress of moulting, coupled with young
bird tossing and racing. It is a time of high humidity and
fluctuating temperature, conditions that favour respiratory
disease. Between 1 December and 1 March (the usual time that the
last youngsters are weaned in many lofts in Australia), fanciers
must monitor the youngsters, in particular, for signs of 'one-eye
cold', dirty wattles or sneezing. However, green watery droppings,
failure to thrive, shortness of breath and a reluctance to fly may
also be indicative of the problem.
Because of the disruption to normal bowel bacteria caused by the
antibiotics, which can compromise feather quality and check
development, and also because of the interference with development
of a natural immunity, it is important that only the birds that
need medication should receive it. If only a small number are
affected, they may be treated individually with doxycycline (Vibravet
50 mg, 1/2 tablet once daily) or Baytril (3 drops twice daily).
Once on medication, they stop shedding the organism and so there
is no need to isolate them. If one bird has become unwell while
the others are okay, it is often a reflection on its vigour. If
such a bird fails to respond quickly or relapses, it is unlikely
to go on and make a competitive race bird and is often best
eliminated. If more than 5 - 10% of young birds are affected, with
fresh cases daily, then all should be treated. Usually doxycycline
12% (½ teaspoon per litre for 3 - 5 days) is used. However, such a
situation represents a major flaw in the birds' environment or
management and the longer-term solution is not going to be drugs
but identification and correction of the underlying cause. In
young birds, this is often overcrowding. A faecal examination and
a crop flush are a good idea to check for any concurrent disease
in addition to reviewing other loft factors.
After 1 March in Australia, as the youngsters get older, fanciers
look for signs of poor loft flying, excessive panting after
training, and sneezing within the loft. Even in the most healthy
lofts, there can be occasional outbreaks of respiratory diseases.
It is important to recognize that more than three sneezes within 5
minutes is a significant indicator of early respiratory disease.
One would expect two to three sneezing outbreaks between January
and May, even in the best managed loft. If there is doubt as to
whether a sneezing outbreak is due to chlamydial respiratory
infection, a test called a chlamydial antigen test can be done on
the droppings by an avian veterinarian. Medication is used during
this time as it is from 1 December to 1 March. However, provided
the birds are well, medication is best avoided. With on-going good
care, the birds are likely to fix themselves and the level of
natural immunity they form as a result will be much higher.
>>Back to Top
During The Racing Season
Exposure to new strains of respiratory
infection
All lofts are continually being exposed to respiratory infection
through the race unit. In the race unit, many different birds from
many different lofts mix intimately in a warm humid environment,
which is ideal for the transfer of disease. In addition, the
confinement, different feeding patterns and time away from the
loft stress the birds. As a result, the Chlamydia levels can rise
to the point where form is affected.
If respiratory symptoms are noted, all birds are treated with
antibiotics (eg Doxy-T, Resfite) for 3 - 5 days. It is important
to treat these outbreaks early before they change into the serious
form of respiratory, which can involve, and permanently damage,
the air sacs, thus seriously compromising race performance.
Stress-induced flare-ups of resident
strains
As mature race birds, it is racing itself that provides the
stress, testing the level of immunity formed by the birds. In a
well managed loft where drugs have been used correctly, this
immunity should be relatively solid by the start of the season.
Racing puts this immunity to the test. In race birds, signs of
Chlamydia flare-ups are considerably more subtle. The birds are
older, their natural immunity is higher and their response to
disease is different. The signs observed have been modified by
these factors. Birds with respiratory infection have lost their
zest for life and this is reflected in their race results.
However, many things can lead to disappointing results and, as
antibiotics have the potential to make a race team worse, I, like
most fanciers, have to be convinced that respiratory infection is
present and that their use is warranted. Birds that are reluctant
to fly, quiet in the loft and with dry feathers (no bloom) are
suggestive of respiratory infection. Sneezing (more than three
times in 5 minutes from 100 birds), scratching at the nose,
yawning, and wiping the nose on the wing butt all indicate
irritation of the upper airways. On opening the beak, the tonsils
may be inflamed, a thick white mucus may be extending into the
throat from the windpipe or from the slit in the roof of the
mouth, which may be closed due to swollen edges, the top of the
windpipe may be red and inflamed, the beak at the nostril opening
may be wet, the cere may be slightly discoloured or there may be a
slightly mucous component to the birds' grunt while the gums or
the muscles may be bluish. Chronically infected birds show delayed
recovery after a race and will develop green droppings after
stress because of damage to the liver. Testing of the droppings
usually confirms the diagnosis.
If the loft has not had respiratory problems in previous years, I
feel it is best to try and avoid antibiotic medication but monitor
the birds closely and treat for 3 - 4 days if respiratory
infection occurs. If respiratory infection during racing has been
a problem in earlier years, preventative courses of antibiotics
can be given before racing in the same way that they are given to
stock birds to decrease the level of Chlamydia in the birds'
system so that they are less likely to break down with the stress
of racing ahead. Depending on the severity of the problem in
earlier years, these courses are usually 7 - 20 days in length. In
such lofts, follow-up periods of medication may be necessary
during the season, and a common recommendation is 3 days treatment
every third week, with Monday, Tuesday and Wednesday usually being
the days to treat such a resident problem. After antibiotic use
during racing, the birds should always be given a day on either
probiotics or multivitamins.
Prevention of new chlamydial strains
entering the loft
New strains enter the loft through exposure to other birds. Stray
youngsters and youngsters bought at squeaker sales are always high
risk because, due to their age and the stress they are under, they
are likely to be shedding chlamydial organisms they are carrying.
Strays should be removed immediately and birds introduced
deliberately only from reliable sources. By far the main means of
exposure is through the race unit. One stray is one exposure. Ten
birds going to a race and each sharing a drinker with ten other
birds is 100 exposures (i.e. like getting 100 strays in one day).
In some situations and, in particular within certain clubs and
areas of Australia, it becomes necessary to medicate returning
race birds to guard against infection picked up in the race unit.
Management
It can be seen that the appropriate management regime for
Chlamydia , including use of medications, varies from loft to loft
depending on each loft's earlier problems and particular
loft-based factors. An example is what I do with my own birds. My
own loft is based on an established Australian long-distance
strain. Chlamydia is not a big problem. I do not medicate my stock
birds before pairing because I do not have chlamydial problems
during breeding. If I did, however, I would treat for 7 - 21 days
before mating as the need dictated. I get three to four youngsters
per year with eye colds and these are individually treated with
Baytril (3 drops twice daily). To date, these have responded
promptly. My race loft is very enclosed, which gives me good
control over the loft environment and enables me keep it as close
to ideal as possible. Draughts, temperature extremes and high
humidity can be avoided. I would like to think that I care for my
birds well. Under my system of management during racing and with
my loft environment, the resident chlamydial strains do not flare
up during the race season and so I do not treat preventively
before racing. I do, however, have intermittent flare-ups of wet
canker and the birds are regularly checked and treated through
racing for this. I feel that with inadequate control of this,
because of the trichomonads parasitic, i.e. weakening, effect, it
is likely that the Chlamydia would also become a problem. I check
my birds droppings once or twice weekly and the birds are
monitored closely for signs of respiratory infection. If a
respiratory infection became established, the birds would be given
a 3 - 5-day antibiotic course. My returning race birds are not
treated for respiratory infection because, to date, this has not
been a problem. However, if it was a problem, I would treat them.
>>Back to Top
MYCOPLASMA
Mycoplasma is a problem of the race season. It is what is
called a primary erosive disease. Many vets agree that
Mycoplasma by themselves do not cause disease and, in fact, in
experiments in which healthy pigeons have been deliberately
infected, the birds have not become sick. However, the organisms
do superficial injury to the lining of the respiratory system,
enabling secondary organisms, notably Chlamydia, bacteria
(such as E. coli) and fungi (such as Aspergillus),
to become established. In this way, Mycoplasma, although
not directly affecting health, has a big effect on race
performance. Failure to control the problem in an affected team
renders all attempts at success hopeless. Some Dutch vets state
that as many as 90% of teams are affected and teams are presumed
to be affected unless they have been recently treated. Pigeons
harbouring Mycoplasma organisms cannot achieve superhealth
and are prevented from achieving top racing results.
Mycoplasma are primary pathogens of the respiratory system
and the signs displayed by the birds depend on the part of the
respiratory system affected. In the throat, nose and windpipe,
signs are similar to those described for Chlamydia earlier.
However, Mycoplasma notably causes inflammatory changes in the top
20 - 30% of the windpipe, causing mucus to accumulate there and
birds that have a broken grunt or sound mucousy in the upper
airway always make me think of Mycoplasma. Where the
airsacs are affected, the birds cannot properly breathe and so
even moderate exercise is tiring and sometimes forces the birds to
land on the nearest available surface, which may be a tree or
building near the loft. Because of the difficulty in breathing,
the gums and muscles can turn blue and because of the inability to
exercise, muscle tone and race fitness cannot come. The airsacs
regulate fluid within the body by controlling evaporation of
moisture from their surfaces. When diseased, excessive moisture is
lost and the birds, therefore, need to drink more even after
moderate exercise, or run the risk of dehydration. Often, however,
signs are very subtle and may simply be deteriorating
performances.
Like Chlamydia, Mycoplasma are more likely to cause disease
when the birds are stressed. Most lofts do have resident
Mycoplasma strains and new Mycoplasma strains can enter
the loft through contact with other birds. Mycoplasma is a
difficult disease to diagnose in the live bird. Only certain labs
culture Mycoplasma, which is an expensive procedure. Blood
tests are used to diagnose the condition in chickens. There are
changes at autopsy, both grossly and microscopically, that are
suggestive. Changes are also found on faecal smears and crop
flushes of affected birds, which are discussed in other sections
of this book. A good response to a short treatment trial with
Doxy-T (see Medication Guide) also supports the diagnosis
Management
What should the fancier do if the problem
is diagnosed?
• A health profile, i.e.
examination of the saliva and droppings, to assess any concurrent
disease that may need treatment and general on-going good care to
ensure a good response to medication.
• A gradual return to exercise.
Always with respiratory infection there is an extended
convalescence of usually 1 - 3 weeks. The birds must be given time
to recover their fitness once medication has cleared the
infection. They should not be forced to fly around the loft and
once it is apparent that their vigour for flying has returned,
initially short tosses only should be given (less than 1/2 hour).
Observe the birds closely for signs of breathlessness on landing
from these tosses and only when they are handling these well
should longer tosses be given. When managing tosses of 1 - 1 1/2
hours well, it is usually safe to resume racing. In well-managed
lofts with no other health problems, response to treatment can,
however, be dramatic and I have had an interesting experience
where two flyers both diagnosed with Mycoplasma in their
teams succeeded in gaining 1st and 2nd Federation (3000 birds) in
an all-day 500-mile race 3 weeks after treatment.
• Good food, good care and an
appropriate multivitamin supplement speed recovery.
• Medication. The choice of drug
is sometimes dependent on the involvement of secondary organisms
such as Chlamydia and E. coli. Baytril can be used
with care during racing. Other antibiotics such as doxycyline,
Tiamulin or Tylan are effective. However, the current
recommendation is that doxycycline and Tylan combined be given. An
initial course of usually 5 - 10 days is given depending on the
severity of the infection with several follow-up courses, usually
2 - 3 days every 2 - 3 weeks until one is sure that the birds are
well. The usual preparation used in Australia is Doxy-T which
contains doxycycline and Tylan.
In some Federations in Australia, there is significant risk of
picking up nasty Mycoplasma strains in the race basket. In
these areas and Federations, antibiotic combination medication is
given throughout the season to control the problem, usually for 2
- 3 days every 2 - 3 weeks depending on the severity of the
problem and the control achieved.
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