Cecal Worms - birds can get these
worms by eating infected droppings
This parasite is found in chickens, turkeys and other birds.
The chicken has two bags that grow
off each side of the intestine track called Cecal the worms live
near the tip of the Cecal. The worms are small, white and measure
up to ½ inch in length.
The parasite does not seriously affect
the health of the bird. At least no marked symptoms or pathology
can be blamed on its presence. Its main importance is that it
has been incriminated as a vector of Histomonas meleagridis, the
agent that causes blackhead.
This protozoan parasite apparently
is carried in the cecal worm egg and is transmitted from bird
to bird through this egg.
The life history of this parasite is similar to
that of the common roundworm. The eggs are produced in the ceca
and pass in the feces. They reach the infective form in about
two weeks. In cool weather, this may take longer. The eggs are
very resistant to environmental conditions and will remain viable
for long periods.
The cecal worm can be effectively treated with fenbendazole.
Since the worm itself produces no observable damage and the eggs
live for long periods, it is advisable and necessary to keep chickens
and turkeys separated to prevent spread of blackhead.
Capillaria
(Thread Worms)
There are several species of Capillaria
that occur in poultry. Capillaria annulata and Capillaria
contorta occur in the crop and esophagus. These may cause
thickening and inflammation of the mucosa, and occasionally
severe losses are sustained in turkeys and game birds.
In the lower intestinal tract there may be several different
species but usually Capillaria obsignata is the most prevalent.
The life cycle of this parasite is direct. The adult worms
may be embedded in the lining of the intestine.
The eggs are laid and passed in the droppings.
Following embryonation that takes six to eight days, the eggs
are infective to any other poultry that may eat them. The most
severe damage occurs within two weeks of infection. The parasites
frequently produce severe inflammation and sometimes cause hemorrhage.
Erosion of the intestinal lining may be extensive and result in
death. These parasites may become a severe problem in deep litter
houses. Reduced growth, egg production and fertility may result
from heavy infections.
If present in large numbers, these parasites are
usually easy to find at necropsy.
Eggs may be difficult to find in droppings, due to the small size
and time of infection.
Since treatment for capillaria is often lacking,
control is best achieved by preventive measures. Some drugs, fed
at low levels, may be of value in reducing the level of infection
on problem farms. Game birds should be raised on wire to remove
the threat of infection. As some species of capillaria have an
indirect life cycle, control measures may have to be directed
toward the intermediate host. Hygromycin and meldane may be used
for control. Additional vitamin A may be of value. Effective treatments
that are not approved by the Food and Drug Administration are
fenbendazole and leviamisole.
Tapeworms
- Long, flat, segmented worms in adult stage. Larval
stage is a cyst.
Tapeworms or cestodes are flattened, ribbon-shaped worms
composed of numerous segments or division. Tapeworms vary
in size from very small to several inches in length. The head
or anterior end is much smaller than the rest of the body.
Since tapeworms may be very small, careful examination often
is necessary to find them. A portion of the intestine may
be opened and placed in water to assist in finding the tapeworms.
The pathology or damage tapeworms produce in poultry
is controversial. In young birds, heavy infections result in reduced
efficiency and slower growth. Young birds are more severely affected
than older birds.
All poultry tapeworms apparently spend part of their
lives in intermediate hosts, and birds become infected by eating
the intermediate hosts. These hosts include snails, slugs, beetles,
ants, grasshoppers, earthworms, houseflies and others. The intermediate
host becomes infected by eating the eggs of tapeworms that are
passed in the bird feces.
Although several drugs are used to remove tapeworms
from poultry, most are of doubtful efficacy. In general, tapeworms
are most readily controlled by preventing the birds from eating
the infected intermediate host. Tapeworm infections can be controlled
by regular treatment of the bird with fenbendazole or leviamisole.
Gapeworms
The gapeworm (Syngamus trachea) is a round red worm that attach
to the trachea (windpipe) of birds and causes the disease referred
to as "gapes". The term describes the open-mouth breathing
characteristic of gapeworm-infected birds. Heavily infected birds
usually emit a grunting sound because of the difficulty in breathing
and many die from suffocation. The worms can easily block the
trachea, so they are particularly harmful to young birds.
Gapeworms are the most significant of the worm infestations
to affect poultry. Infection is caused by a roundworm called Syngamus
trachea and the clinical signs of 'gapes' results from physical
blockage of the windpipe by the worms.
The gapeworm is sometimes designated as the "red-worm";
or "forked-worm" because of its red color and because
the male and female are joined in permanent copulation. They appear
like the letter Y. The female is the larger of the two and is
one-fourth to one inch in length. The male gapeworm may attain
a length of one-fourth inch. Both sexes attach to the lining of
the trachea with their mouthparts. Sufficient numbers may accumulate
in the trachea to hinder air passage.
The life cycle of the gapeworm is similar to that
of the cecal worm; the parasite can be transmitted when birds
eat embryonated worm eggs or earthworms containing the gapeworm
larvae. The female worm lays eggs in the trachea, the eggs are
coughed up, swallowed, and pass out in the droppings. Within eight
to fourteen days the eggs embryonate and are infective when eaten
by birds or earthworms. The earthworm, snails and slugs serve
as primary intermediate hosts for the gapeworm. Gapeworms in infected
earthworms remain viable for four and a half years while those
in snails and slugs remain infective for one year. After being
consumed by the bird, gapeworm larvae hatch in the intestine and
migrate from the intestine to the trachea and lungs.
In rearing birds disease can be seen from two weeks
of age but more usually it is seen in the release pens.
Gapeworms infect chickens, turkeys, guinea fowl,
pheasants, chukar partridge, and probably other birds. Young birds
reared on soil of infected range pens are at high risk (pen-raised
game birds). Some control or reduction in infection density (worms/bird)
is achieved by alternating the use of range pens every other year
and/or using a pen for only one brood each year. Tilling the soil
in the pens at the end of the growing season helps to reduce the
residual infection. Treating the soil to eliminate earthworms,
snails and slugs is possible but the cost is usually prohibitive.
Gapeworms are best prevented by administering a
wormer at fifteen to thirty day intervals or including a drug
at low levels continuously beginning fifteen days after birds
are placed in the infected pens. One drug that is effective for
eliminating gapeworms is fenbendazole. It can be seen from the
lifecycle of the gapeworm that complete control of infection is
virtually impossible in some cases.
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