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Thread: Died chicks (1-3 months old) with heart, liver and intestine inflammation

  
  1. #1
    Senior Member jemayku's Avatar
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    Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Doc Teddy,
    and any one who have encountered this problem,

    I have 85 chicks 1 to 3 months old and out of these 12 died so far. last week it was 8 chicks died. All chicks are vaccinated with B1B1, Lasota and Fowl pox. We changed the water 4 times evryday. We washed the feeder each time we change the water. Then this week 4 die and my farm manager decided to open (neprosy) one of the chick and what they seen is the heart, liver, vile and intestine are inflamed.

    Doc any remedy or recomendation on how to atleast reduce the mortality and the cause of inflammation of the said internal organs. Furthermore how to avoid this in the future.

    Any help will be much appreciated and it will be a big help to all small breeders and backyard breeders.

    Thanks and God bless

    Jeffrey

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    CyberFriends gamecock96's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Pre,
    Kung malapit ka lang din sa BAI or any vet laboratory. Pa check mo na kung mataas ang titer nya ng NCD. Ibig sabihin ay kung may antibodies sya for it. Pareho tayo ng bakuna, Yung akin ay may coryza pa pero dami rin ng mortality. After some tests, found out na positive sila for IBD which is Infectious bursitis. This attacks the immune system kaya yung pagbabakuna natin ay kahit na akala natin kumpleto eh hindi sila nag dedevelp ng antibodies dahil nga suppressed na ang immune system nila. Next time eh consider vaccinating for this too. Gumboro or IBD vaccine. Take note, iba ang IB sa IBD, and IB ay infectious bronchitis.
    Hope na makatulong ito sa iyo.



    Al

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    CyberFriends gamecock96's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Opps Sorry. Did not notice this is an english forum

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    Senior Member jemayku's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Sir, Al

    Thank you for the advice.
    Unportunately my farm location is far from BAI.
    So if its positive for IBD the application of vaccine now is useless? How can I know if those remaining chicks alive are not positive of IBD?
    Now how about those chicks that are still alive, can I vaccinate them with Gumboro or IBD vaccine?
    Thanks again.

    Jeffrey

    Sir Al, are you from batangas?

  5. #5
    Senior Member jemayku's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Sir Al,

    What age of chick/s do we vaccinate for gumboro or IBD and how to administer?

    Thanks again

    I think your the person that help me on the other thread.

    Maraming maraming salamat sir Al.

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    CyberFriends gamecock96's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    There are a lot of different vaccination program that you could follow. One of the vet suggested to me to vaccinate at 1 day old. It is acceptable it there is no maternal antibodies. What is maternal antibodies? That is the antibodies transfered by parents that were vaccinated before breeding. Follow it up with a booster dose after another week.

    Read up. This link i have posted before but nobody cared to read it.

    http://www.asasea.com/po36_97.html

    I find it very informative. Hope it helps you with your problem. I live in QC but we have a farm in Batangas.

    Al

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    Senior Member jemayku's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Sir Al,

    Thank you.

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    Senior Member renac001's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Quote Originally Posted by gamecock96
    There are a lot of different vaccination program that you could follow. One of the vet suggested to me to vaccinate at 1 day old. It is acceptable it there is no maternal antibodies. What is maternal antibodies? That is the antibodies transfered by parents that were vaccinated before breeding. Follow it up with a booster dose after another week.

    Read up. This link i have posted before but nobody cared to read it.

    http://www.asasea.com/po36_97.html

    I find it very informative. Hope it helps you with your problem. I live in QC but we have a farm in Batangas.

    Al
    Thanks i read it.Its very informative..Goodluck..

  9. #9
    archiel
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    If IBD, farmbreed is selling vaccine B1B1 with matching IBD, maybe you can ask them 3725019

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    Cyberfriends ncyabut's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    there no vaccine such as b1b1 plus ibd... IBD means Infectious Bursal Disease or Gumboro... this is like AIDS to chickens. maybe what you are referring to is b1b1 plus IB or infectious bronchitis. most probably, the disease that hit your chicks is GUMBORO. vaccination now might still help the remaining chicks. this is one disease that is often neglected ... but the vaccine is quite cheap. and will cost a lot cheaper in the long run.

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    Senior Member apong_ambo's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    gamecock96

    Great info, best detailed information I've seen so far on this site regarding Avian/Poultry diseases. Thank you vey much for sharing.




    Quote Originally Posted by gamecock96
    There are a lot of different vaccination program that you could follow. One of the vet suggested to me to vaccinate at 1 day old. It is acceptable it there is no maternal antibodies. What is maternal antibodies? That is the antibodies transfered by parents that were vaccinated before breeding. Follow it up with a booster dose after another week.

    Read up. This link i have posted before but nobody cared to read it.

    http://www.asasea.com/po36_97.html

    I find it very informative. Hope it helps you with your problem. I live in QC but we have a farm in Batangas.

    Al
    Last edited by apong_ambo; May 3rd, 2007 at 11:49 AM.

  12. #12
    tatodupaya
    Guest

    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Quote Originally Posted by gamecock96
    There are a lot of different vaccination program that you could follow. One of the vet suggested to me to vaccinate at 1 day old. It is acceptable it there is no maternal antibodies. What is maternal antibodies? That is the antibodies transfered by parents that were vaccinated before breeding. Follow it up with a booster dose after another week.

    Read up. This link i have posted before but nobody cared to read it.

    http://www.asasea.com/po36_97.html

    I find it very informative. Hope it helps you with your problem. I live in QC but we have a farm in Batangas.

    Al
    Great link dude. Thanks.

  13. #13
    Senior Member jemayku's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Sir NCYabut,

    Can I include those Imported Hens, Pullets and Cocks for vaccination?

    Thanks,

    Jeff

  14. #14
    Senior Member jemayku's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    One thing is, even you read, reread we the affected with any kind of diseases in our farm still needs the input, suggestion, reccomendation of all the seasoned breeder, (small time and bigtime alike) Vets Doc on how to where and when to administer the vaccine.

    Thank you from the input and helping not only me but all those breeder may it be small, backyard.

    I forget where I get this Document. Anyhow thank you who ever the author of this.

    Diseases and Parasites
    This is documentation of some of the diseases that can and may at
    one time threaten our fowl. Its is important to know what type of disease you are dealing
    with and this set of descriptions will aid in properly diagnosing your fowl.
    PARASITIC DISEASES
    (INTERNAL)
    Ascarids (Large Intestinal Roundworms)
    One of the most common parasitic roundworms of poultry (Ascaridia galli) occurs in chickens and turkeys. Adult worms are about one and a half to three inches long and about the size of an ordinary pencil lead. Thus, they can be seen easily with the naked eye. Heavily infected birds may show droopiness, emaciation and diarrhea. The primary damage is reduced efficiency of feed utilization, but death has been observed in severe infections.
    Chickens of three to four months of age show resistance to infection. Specimens of this parasite are found occasionally in eggs. The worm apparently wanders from the intestine up the oviduct and is included in the egg contents as the egg in being formed.
    The life history of this parasite is simple and direct. Females lay thick heavy-shelled eggs in the intestine that pass in the feces. A small embryo develops in the egg but does not hatch immediately. The larvae in the egg reaches infective stage within two to three weeks. Embryonated eggs are very hardy and under laboratory conditions may live for two years. Under ordinary conditions, however, few probably live more than one year. Disinfectants and other cleaning agents do not kill eggs under farm conditions. Eating eggs that have reached the infective stage infects birds.
    Available drugs remove only the adult parasite. The immature form probably produces the most severe damage. The treatment of choice is piperazine. Many forms of piperazine are produced, and all are effective if administered properly. Piperazine is only effective for treating this parasite. It has no effect on other internal parasites of fowl. Follow the manufacturer's instructions carefully.
    The parasite can be controlled by strict sanitation. If the birds are confined, clean the house thoroughly and completely before a new group is brought in. Segregate birds by age groups, with particular care applied to sanitation of young birds. If birds are on range, use a clean range for each group of birds.
    Cecal Worms
    This parasite (Heterakis gallinae) is found in the ceca of chickens, turkeys and other birds. The worms are small, white and measure _ to inch in length.
    This parasite apparently 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 (Capillary or 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
    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. Eating the eggs of tapeworms that are passed in the bird feces infects the intermediate host.
    Although several drugs are used to remove tapeworms from poultry, most are of doubtful efficacy. In general, preventing the birds from eating the infected intermediate host most readily controls tapeworms. 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.
    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.
    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, however, the Food and Drug Administration do not presently approve its use for use in birds.

    PARASITIC DISEASES (EXTERNAL)
    Poultry Mites
    All classes of poultry are susceptible to mites, some of which are bloodsuckers, while others burrow into the skin or live on or in the feathers. Others occur in the air passages and in the lungs, liver and other internal organs. Poultry mites cause retarded growth, reduced egg production, lowered vitality, damaged plumage and even death. Much of the injury, consisting of constant irritation and loss of blood, is not apparent without careful examination.
    Of primary concern to the poultryman is the Northern Fowl Mite (Ornithonyssus sylviarum) which is a frequent and serious pest of chickens. Heavy infestations result in low condition of the birds and lower egg production, as well as a scabby skin condition. The mite remains on the bird and does more damage than any other species of mite. The mite does not leave the host bird, as do may species of mites, and can be observed on birds in large numbers during daylight hours. It prefers the feathers below the vent and around the tail, but can be found on all parts of the body. The mite is extremely small and a microscope or magnifying glass may be needed to see it.
    The female northern fowl mite lays eggs on feathers where the young mites complete their development without leaving the host. Since they remain on the fowl most of the time, treatment of the birds is necessary to destroy the mites.
    The Common Chicken Mite (Dermanyssus gallinae) is the most common mite found on all types of poultry. It is a bloodsucker, and when present in large numbers, loss of blood and irritation may be sufficient to cause anemia. Egg production is seriously reduced.
    This mite feeds at night, and usually remains hidden in cracks and crevices during the day. It attacks birds at night while they are on the roost. In heavy infestations, some mites may remain on the birds during the day. About a day after feeding, the female lays eggs in cracks and crevices of the house. The eggs hatch and the mites develop into adults within about a week. During cold weather, the cycle is slower. A poultry house remains infested four to five months after birds are removed.
    Since the mite feeds on wild birds, these birds may be responsible for spreading infestations. However, it is more likely that spread of the mite is promoted by using contaminated coops. Human carriers are also important. Since these mites do not stay on the birds during the day, apply treatments to houses and equipment as well as the birds.
    The Scaly-Leg Mite (Knemidocoptes mutans) lives under the scales on feet and legs of poultry. It also may attach to the comb and wattles. It causes a thickening of scales on the feet and legs that give the impression that the scales are protruding directly outward, rather that laying flat on the limb. It spends its entire life cycle on the birds and spreads mainly by direct contact.

    The Depluming Mite (Knemidocoptes laevis, variety gallinae) causes severe irritation by burrowing into the skin near the bases of feathers and frequently causes feathers to be pulled out or broken. The mite is barely visible to the naked eye and can be found in follicles at the base of the feathers. The mites crawl around the birds at times, spreading from bird to bird.
    The most effective treatment for all mite species is a regular inspection and spraying program of both the birds and their premises. An appropriate solution of permethrin, when sprayed on the birds, will eliminate all mites that infest the bird. The spraying of all facilities will ensure that any mites hiding in cracks and crevices will be destroyed. The treatment should be repeated on a one to two month schedule or whenever populations of the mites are detected.
    Poultry Lice
    The primary effects of lice on their hosts are the irritations they cause. The birds become restless and do not feed or sleep well. They may injure themselves or damage their feathers by pecking or scratching areas irritated by lice. Body weight and egg production may drop.
    All lice infecting poultry and birds are the chewing type. Mites may be confused with lice, but mites suck blood. In general, each species of lice is confined to a particular kind of poultry, although some may pass from one kind to another when birds are closely associated. Chickens usually are infested with one or more of seven different species; turkeys have three common species.
    All species of poultry lice have certain common habits. All live continuously on feathered hosts and soon die if removed. The eggs are attached to the feathers. Young lice resemble adults except in color and size. Lice differ in preferred locations on the host, and these preferences have given rise to the common names applied to various species.
    In general, the incubation period of lice eggs is four to seven days, and development of the lice between hatching and the adult stage requires about twenty-one days. Mating takes place on the fowl, and egg laying begins two to three days after lice mature. The number of eggs probably ranges from fifty to three hundred per female louse.
    As the name suggests, the Head Louse (Cuclotogaster heterographa) is found mainly on the head, although it occurs occasionally on the neck and elsewhere. It usually is located near the skin in the down or at the base of the feathers on the top and back of the head and beneath the beak. In fact, the head of the louse often is found so close to the skin that poultrymen may think it is attached to the skin or is sucking blood. Although it does not suck blood, the head louse is very irritating and ranks first among lice as a pest of young chickens and turkeys. Heavily infested chicks soon become droopy and weak and may die before they are a month old. When the chickens become fairly well feathered, head lice decrease but may increase again when the fowls reach maturity.
    This louse is oblong, grayish and about 1/10-inch long. The pearly-white eggs are attached singly to the down or at the base of the small feathers on the head. They hatch within five days into minute, pale, translucent lice resembling adults in shape.
    The Body Louse (Menacanthus stramineus) of chickens prefers to stay on the skin rather than on the feathers. It chooses parts of the body that are not densely feathered, such as the area below the vent. In heavy infestations, it may be found on the breast, under the wings and on other parts of the body, including the head.
    When the feathers are parted, straw-colored body lice may be seen running rapidly on the skin in search of cover. Eggs are deposited in clusters near the base of small feathers, particularly below the vent, or in young fowls, frequently on the head or throat. Eggs hatch in about a week and lice reach maturity within twenty days.
    This is the most common louse infesting grown chickens. When present in large numbers, the skin is irritated greatly and scabs may result, especially below the vent.
    The Shaft Louse or small body louse (Menopon gallinae) is similar in appearance to the body louse, but smaller. It has a habit of resting on the body feather shafts of chickens where it may be seen running rapidly toward the body when feathers are parted suddenly. Sometimes as many as a dozen lice may be seen scurrying down a feather shaft.
    Since the shaft louse apparently feeds on parts of the feathers, it is found in limited numbers on turkeys, guinea fowl and ducks kept in close association with chickens. It does not infest young birds until they become well feathered.
    The same control measures used to eliminate mite populations is effective for treating lice. It is more important to apply the insecticides directly to the bird's body rather than the premises.

    Fowl Tick (Blue Bug)
    The Fowl Tick (Argas persicus) may be a serious parasite of poultry if it becomes numerous in poultry houses or on poultry ranges. The tick is a blood-sucker, and when present in large numbers it results in weakened birds, reduced egg production, emaciation and even death. The fowl tick is found throughout most of the South and is extremely hardy. Ticks have been kept alive without food for more than three years. The ticks will feed on all fowl.
    Fowl ticks spend most of their lives in cracks and hiding places, emerging at night to take a blood meal. Mating takes place in the hiding areas. A few days after feeding, the female lays a batch of eggs. In warm weather the eggs hatch within fourteen days. In cold weather they may take up to three months to hatch. Larvae that hatch from the eggs crawl around until they find a host fowl. They remain attached to the birds for three to ten days. After leaving the birds they find hiding places and molt before seeking another blood meal. This is followed by additional moltings and blood meals.
    Ticks are difficult to eradicate and methods employed must be performed carefully. It is not necessary to treat the birds, but houses and surrounding areas must be treated thoroughly.

    Chiggers, Red Bugs or Harvest Mites
    These pests (Trombicula splendens, Trombicula alfreddugesi, and Neoschongastia americana americana) attack chickens and turkeys, as well as humans. Normally these small mites feed on wild animals, birds, snakes and lizards. Only the larvae of chiggers attack poultry or animals; adult mites feed on plants.
    Larvae usually attach to the wings, breasts and necks of poultry. They inject a poisonous substance that sets up local irritation and itching. After a few days, the larvae become engorged and drop off. Injury to grown fowl may not be apparent or noticed until the bird is dressed; then the lesions are readily apparent and greatly reduce the carcass value. Young chickens or turkeys may become droopy, refuse to eat and die. Due to methods of raising poultry, turkeys are more affected than chickens.
    Control of External Parasites
    There are many insecticides available to help control external poultry parasites. The most effective broad spectrum insecticide is permethrin. Permethrin has a significant residual activity, thus making it ideal for treating facilities and equipment. At reduced concentrations it can be applied to the bird. Follow all manufacturers recommendations when using all insecticides.

    BACTERIAL DISEASES
    Colibacillosis (Coliform infections)
    Problems attributed to coliform infections are often caused by strains of the Escherichia coli organism. There is a marked variation in severity. Problems range from severe acute infections with sudden and high mortality to mild infections of a chronic nature with low morbidity and mortality. Infections may result in a respiratory disease from air sac infection, a septicemic (blood) disease from generalized infections, an enteritis from intestinal infection or a combination of any or all of these conditions. The disease may result from a coliform infection alone as in primary infection or in combination with other disease agents as a complicating or secondary infection. Secondary infections commonly occur as a part of the classic air sac disease syndrome as a complication with Mycoplasma gallisepticum infections.
    All ages can be affected; however, the acute septicemia in young turkeys and air sacculitis in young chickens is more common in young growing birds. High, early mortality may occur as the result of navel infections.
    The symptoms of this disease is caused by the E. coli bacteria and the toxins produced as they grow and multiply. There are many different strains or serological types within the group of E. coli bacteria. Many are normal inhabitants in intestinal tracts of chickens and turkeys and consequently are common organisms in the birds' environment.
    A marked variation exists between different strains in their ability to cause disease. Some are severe and by themselves can cause disease while others are supposedly harmless. All degrees of pathogenicity exist between the two extremes.
    The primary routes of invasion by the organism are the respiratory system and the gastrointestinal tract. Omphalitis and infections in young birds may result from entry through the unhealed navel or penetration of the egg shell prior to or during incubation.
    The symptoms vary with the different types of infections. In the acute septicemic form, mortality may begin suddenly and progress rapidly. Morbidity may not be apparent and birds in apparently good condition may die. However, in most cases birds are listless with ruffled feathers and indications of fever. Additional symptoms of labored breathing, occasional coughing and rales may be apparent. Diarrhea may be evident. Mortality may be high in recently hatched chicks and poults as a result of navel infection of coliforms.
    Extremely acute septicemic infection may result in sudden death with very few, if any, lesions apparent. Common lesions include dehydration, swelling and congestion of the liver and spleen and kidneys and pinpoint hemorrhages in the viscera. Fibrinous to caseous exudate in the air sacs, heart sac and on the surface of the heart, liver and lungs is a characteristic lesion. The intestines may be thickened and inflamed and may contain excess mucus and areas of hemorrhage. Navel infections, similar to those described for omphalitis may be seen in young birds.
    Diagnosis by laboratory means is necessary since coliform infection in its various forms may resemble and be easily confused with many other diseases. Isolation and identification of the organism by culture procedures can be accomplished relatively quickly; however, mere isolation is not sufficient to make a diagnosis. One must take into consideration the organ from which the organisms were isolated, the pathogenicity of the particular isolate and the presence of other disease agents.
    Management and sanitation practices designed to reduce the number of these types of organisms in the birds' environment are necessary. In addition, reducing stress factors and other disease agents can enhance the ability of birds to defend against harmful infections. Providing adequate ventilation, good litter and range conditions, properly cleaned and disinfected equipment and facilities and high quality feed and water will improve the disease resisting status of the birds. The poultryman must always avoid overcrowding, environmental stresses like chilling or overheating and avoid vaccination or handling stress during periods when the birds are already subjected to stressful conditions. Proper egg handling, good hatchery management and implementing a good sanitation program is necessary to reduce early exposure of chicks or poults to disease organisms. It is always emphasized that problems due to one of the more pathogenic strains may occur even under ideal conditions.
    The response of coliform infections to various medications is erratic and often difficult to evaluate. Under practical conditions, treatment is often disappointing. Drug sensitivity varies with the strain of E. coli causing the condition. Laboratory tests to determine the sensitivity to the various drugs are useful to select the most beneficial drugs. When practical, moving birds to a clean environment may be of more value than medication. For example, when outbreaks occur in growing turkeys in the brooder house, moving to range is often the best treatment.

    Mycoplasmosis (CRD, Air sac, Sinusitis)
    Organisms in the genus Mycoplasma are a significant cause of respiratory disease in poultry. Of the numerous species of Mycoplasma that have been isolated from domestic poultry, three are of known significance. Mycoplasma gallisepticum is associated with chronic respiratory disease (CRD)/air sac syndrome in chickens and turkeys and infectious sinusitis of turkeys; Mycoplasma meleagridis is associated with air sacculitis in turkeys; and Mycoplasma synoviae is the cause of infectious synovitis in chickens and turkeys.
    Chronic respiratory disease (CRD), air sac syndrome and infectious sinusitis of turkeys have a common cause. CRD was first recognized as a chronic but mild respiratory disease of adult chickens. It reduced egg production but caused little or no mortality. Afterward, a condition known as "air sac disease" became a problem in young birds. It caused high mortality in some flocks. Many birds became stunted, feed efficiency was reduced, and many fowl were rejected as unfit for human consumption when processed.
    Infectious sinusitis in turkeys produces a sinus swelling under the eye as well as an inflammation of respiratory organs. It is a chronic disease adversely affecting growth and feed conversion. It may also cause significant mortality in young poults.
    A peculiar bacterial-like organism known as Mycoplasma gallisepticum (MG) is common to all three conditions. CRD and sinusitis in turkeys are caused by a pure MG infections while the air sac syndrome is caused by an infection of MG in combination with E. coli. These conditions are triggered by acute respiratory infections such as Newcastle disease or infectious bronchitis.

    Mycoplasma gallisepticum is widespread and affects many species of birds. Eradication programs have reduced the incidence in recent years. It is primarily spread through the egg. Infected hens transmit organisms and the chick or poult is infected when it hatches. Organisms may also be transmitted by direct contact with infected or carrier birds.
    The true CRD produces slight respiratory symptoms such as coughing, sneezing and a nasal discharge. In the air sac syndrome there is an extensive involvement of the entire respiratory system. The air sacs are often cloudy and contain large amounts of exudate. Affected birds become droopy, feed consumption decreases and there is a rapid loss of body weight.
    Infectious sinusitis in turkeys occurs in two forms. When the "upper" form is present, there is only a swelling of the sinus under the eye. In the "lower" form, the lungs and air sacs are involved. The air sacs become cloudy and may contain large amounts of exudate. Both forms of the disease are usually present in the flock and frequently are present in the same bird.
    Diagnosis of either condition must be based on flock history, symptoms and lesions. Blood tests are useful in determining whether a flock is infected.
    The answer to the MG problem in both chickens and turkeys is eradication of the disease organisms. This goal has been achieved in commercial breeding flocks with voluntary programs conducted by the National Poultry Improvement Plan (NPIP) and National Turkey Improvement Plan (NTIP). The treatment of CRD, air sac syndrome and the lower form of infectious sinusitis is not considered satisfactory. Many antibiotics have been used with varying success. Whether to give treatment is a decision that must be made on each flock based on economic factors. If treatment is attempted, give high levels of one of the broad spectrum antibiotics (Tylosin, aureomycin, terramycin, gallimycin) either in feed, drinking water or by injections. The "upper"; form of infectious sinusitis can be treated with success by injecting antibiotics into the swollen sinus cavity.

    Fowl Cholera
    This disease occurs throughout the country wherever poultry is produced and in recent years has become the most hazardous infectious disease of turkeys. Host range is extensive and includes chickens, turkeys, pheasants, pigeons, waterfowl, sparrows and other free-flying birds.
    The causative organism of fowl cholera is Pasteurella multocida. The organism can survive at least one month in droppings, three months in decaying carcasses and two to three months in soil. Pasteurella apparently enters tissues of the mouth and upper respiratory tract. The disease is not transmitted through the egg.
    Major sources of infection include:
    Body excreta of diseased birds that contaminate soil, water, feed, etc.,
    Carcasses of birds that have died of the disease,
    Contaminated water supplies such as surface tanks, ponds, lakes and streams,
    Mechanical transmission by contaminated shoes or equipment.
    Studies indicate that animals other than birds may serve as reservoirs of infection and actively spread the disease. These animals include raccoons, opossums, dogs, cats, pigs, and vermin.
    The disease is seldom seen in chickens under four months of age, but is commonly seen in turkeys under this age. In the peracute form, symptoms may be absent; in the acute form some birds may die without showing symptoms, but many others are visibly ill before death. Characteristic symptoms include stupor, loss of appetite, rapid weight loss, lameness resulting from joint infection, swollen wattles, difficult breathing, watery yellowish or green diarrhea and cyanosis or darkening of the head and wattles.
    Lesions may be lacking in birds dying during peracute outbreaks. When present, lesions may resemble those associated with any acute septicemic bacterial infection, often those of fowl typhoid. Typical lesions may include pinpoint hemorrhages in the mucous and serous membranes and/or abdominal fat; inflammation of the upper third of the small intestine; light, firm "parboiled" appearance of the liver; enlarged and congested spleen; creamy or solid collection of material in joints; and cheesy material in the internal ear and air spaces of the cranium of birds having twisted necks. Turkeys may have pneumonia with solidification of one or both lungs.
    A tentative diagnosis may be made on flock history, symptoms and postmortem lesions. A definite diagnosis depends upon isolation and identification of the organism.
    Properly administered bacterins are helpful in preventing fowl cholera, particularly in turkeys. Their use must be combined with a rigid program of sanitation. In general, as it applies to the use of bacterins in turkeys, complete protection is unrealistic. Follow the manufacturer's recommendations for use of the bacterin. Vaccination in conjunction with treatment is not recommended.
    Sanitation practices that aid in preventing the disease are:
    Complete depopulation each year with definite breaks between older birds and their replacements,
    Implement a rodent control program,
    Dispose of dead birds properly,
    Provide safe, sanitary water,
    Clean and disinfect all houses and equipment after disposing of flock,
    Keep birds confined to the house and away from wild feral birds and animals,
    Allow contaminated ranges or yards to remain vacant for at least three months.
    Although drugs usually alter the course of a fowl cholera outbreak, affected birds remain carriers and the disease has a tendency to recur when treatment is discontinued. This may necessitate prolonged treatment with drugs added to the feed and water. Sulfa drugs and broad spectrum antibiotics (Penicillin) usually control losses.

    Necrotic Enteritis
    Necrotic enteritis is an acute disease that produces a marked destruction of the intestinal lining of the digestive tract. Common field names (rot gut, crud and cauliflower gut) accurately describe the condition. The cause of the disease is Clostridium perfringens, a spore-forming, rod-shaped bacterium. Bacterial organisms and their toxins are the primary cause but coccidiosis may be a contributing factor. Most of the damage to the intestinal lining apparently is due to toxins produced by the bacterial organisms.
    Little is known about the spread of the disease but transmission is thought to occur by oral contact with the droppings from infected birds. Necrotic enteritis appears suddenly in the affected flock. Apparently healthy birds may become acutely depressed and die within hours. Mortality is usually between two and ten percent, but may be as high as thirty percent in severe outbreaks. Losses due to reduced growth and feed conversion may be more costly than flock mortality.
    Lesions of the disease usually involve the lower half of the small intestine, but in some instances the entire length of the tract is involved. The intestine is dilated, contains dark offensive fluid and a diphtheritic cauliflower-like membrane that involves the mucosa. The lining of the intestine will have a coarse Turkish-towel appearance and portions of the lining may slough off and pass out with the intestinal contents. Diagnosis in based upon history, symptoms and findings of the characteristic lesions.
    Bacitracin or virginiamycin are effective treatments administered in the feed. Bacitracin can also be given in the drinking water. Supportive vitamin treatment may enhance the effectiveness of the treatments. Preventive medication may be of value on premises where prior infections have been observed. Since coccidiosis may be a contributing factor, attention must be given to an effective coccidiosis control program.

    Ulcerative Enteritis (Quail disease)
    Ulcerative enteritis is an acute or chronic infection of game birds, chickens, turkeys and other domestic fowl. Death losses may be high for young quail or pullets being raised for egg production.
    The cause of the disease is Clostridium colinum, a spore forming bacterial rod. The infection spreads by the droppings from sick or carrier birds to healthy birds. The disease organism is very resistant to disinfectants and will persist under varying environmental conditions.
    Birds with the acute form may die suddenly while in good flesh, whereas more chronically affected birds become listless, have ruffled feathers, whitish watery diarrhea, and develop a humped-up posture. Such birds usually die in an extremely emaciated condition.
    The dropping may be confused with those of birds with coccidiosis and the two diseases are often seen in the same bird. Droppings of birds with only ulcerative enteritis never contain blood.
    The postmortem lesions are characteristic. The entire intestinal tract often has button-like ulcers but the lower portion is most often affected. These ulcers often perforate, resulting in local or generalized peritonitis.
    Although the disease is characteristic in nature, anyone suspecting the infection should seek professional confirmation before treatment is started. Bacitracin and penicillin are the most effective drugs in the treatment and prevention of this disease. If bacitracin is used, it should be incorporated in the feed at levels up to 200 grams per ton of feed. Addition of bacitracin to the water at the rate of one teaspoon per gallon aids in controlling an outbreak of the disease. Either method of administering bacitracin will control the disease within two weeks, unless a bacitracin-resistant strain of the disease organism is present. Penicillin is also used to treat the disease if bacitracin is not effective.
    Raising birds on wire is an effective preventative measure. Specific drugs (bacitracin or penicillin) fed at low levels, are effective for controlling the disease in operations where the use of wire flooring is impractical.

    Pullorum Disease
    Pullorum disease is an acute or chronic infectious, bacterial disease affecting primarily chickens and turkeys, but most domestic and wild fowl can be infected.
    The cause is a bacterium named Salmonella pullorum. This organism is primarily egg transmitted, but transmission may occur by other means such as:
    Infected hen to egg, egg to chick, or chick to chick in incubator, chick box, brooder, or house. Survivors become infected breeders (cycle begins again),
    Mechanical transmission (carried around on clothes, shoes or equipment),
    Carrier birds (apparently healthy birds shed the disease organisms),
    Contaminated premises (from previous outbreaks).
    Disease organisms may enter the bird through the respiratory (as in the incubator) or digestive systems. Most outbreaks of acute pullorum disease in chickens or turkeys result from infection while in the hatchery.
    Pullorum disease is highly fatal to young chicks or poults, but mature birds are more resistant. Young birds may die soon after hatching without exhibiting any observable signs. Most acute outbreaks occur in birds that are under three weeks of age. Mortality in such outbreaks may approach ninety percent if untreated. Survivors are usually stunted and unthrifty. Infection in young birds may be indicated by droopiness, ruffled feathers, a chilled appearance with birds huddling near a source of heat, labored breathing, and presence of a white diarrhea with a "pasted-down" appearance around the vent. The white diarrhea symptom instigated the term "bacillary white diarrhea" that was commonly associated with this disease at one time. Gross lesions may be lacking in some adult birds.
    Diagnosis in young birds is made by isolating the causative organism in the laboratory. In older birds, blood testing may indicate an infection but a positive diagnosis depends upon isolation and identification of the organism by laboratory procedures.
    Complete eradication is the only sound way to prevent pullorum disease. All hatchery supply flocks should be tested and only pullorum-free flocks used as a source of hatching eggs. Purchase chicks or poults from hatcheries that are officially recognized as "Pullorum Clean" by National Poultry Improvement Plan representatives in your state.
    Treatment primarily is a salvage operation and does not prevent birds from becoming carriers. Consequently, do not keep recovered flocks for egg production. Among the drugs used to treat pullorum disease are furazolidone, gentamycin sulfate, and sulfa drugs (sulfadimethoxine, sulfamethazine, and sulfamerazine).

    Fowl Typhoid
    Fowl typhoid is an infectious, contagious bacterial disease that is usually acute but sometimes chronic. It affects most domestic and wild fowl including chickens, turkeys, ducks, pigeons, pheasants and other game birds. It must not be confused with typhoid fever in humans that is caused by a distinctly different organism.
    The cause in the bacterium, Salmonella gallinarum. Methods of transmission are the same as for pullorum disease, including egg transmission. However, mechanical transmission is more prevalent with this disease than with pullorum disease.
    Any age bird can be infected, but the disease primarily occurs in young adults (usually those older than twelve weeks of age). Mortality varies from less than one to about forty percent, but higher mortality has been observed. Signs include sudden or sporadic mortality, listlessness, green or yellow diarrhea (accompanied with pasting of the vent feathers), loss of appetite, increased thirst and a pale, anemic appearance of comb and wattles.
    A tentative diagnosis may be made from the history, signs and lesions but final diagnosis must be based on isolation and identification of the causative organism. Lesions observed at necropsy help verify a diagnosis of fowl typhoid. The lesions include an enlarged and mottled spleen, enlarged liver (colored yellow or greenish brown), small pinpoint hemorrhages in muscles and fat surrounding internal organs, and a slimy inflammation of the front third of the small intestine. Small, white plaque-like areas are visible through the walls of the intestine is suggestive of fowl typhoid in turkeys. Blood tests used to detect pullorum reactors are also used to identify fowl typhoid birds.
    Prevention and control depend heavily upon basic disease prevention practices including the hatching chicks from disease-free flocks (as determined by pullorum testing), practicing strict sanitation on the farm, providing clean feed and water, and proper disposal of all dead birds as approved by the state animal health agency. The causative organism can live outside the bird body for at least six months, thus requiring extra management precautions to break the disease cycle. Following an outbreak, thoroughly clean and disinfect the premises. When feasible, practice range rotation and other special precautions to prevent the carryover of infection to the following flock.
    Drugs cannot be depended upon as a means of typhoid prevention and are not recommended for that purpose. Infected birds may be salvaged using the same drugs as used to salvage pullorum infected birds.

    Botulism
    Botulism is a disease caused by the ingestion of a toxin produced by the Clostridium botulinum bacterium. All domestic fowl and most wild birds are susceptible to the toxin's effects. Many human deaths have also been attributed to the consumption of food or water containing the toxin.
    Botulism is not a bacterial infection, but a condition produced by a byproduct of the bacteria's growth. The organism is common in nature and is widely dispersed in soils. Ingestion of the organism is not harmful. It becomes dangerous only when conditions are favorable for its growth and subsequent toxin formation. The organism grows best under high humidity and relatively high temperature and in an environment containing decaying organic material (plant or animal). The organism requires an environment in which all atmospheric oxygen is eliminated. The organism cannot multiply in the presence of air. Stagnant pools or damp areas with buried decaying matter are danger areas for toxin development. Botulism results after the decaying animal or plant material containing the toxin is consumed. Decaying carcasses are a frequent source of the toxin, as are many insects feeding in the same tissue. The insects may contain enough toxin to cause the disease in any bird that ingests it. Since the toxin is water soluble, water sources may become contaminated and provide a reservoir for the disease.
    The toxin is one of the most potent discovered by scientists. The toxin is relatively heat stable but may be destroyed by boiling. There are different types of the toxin; types A and C cause the disease in birds while type B frequently produces the disease in man.
    Weakness is generally the first sign of the illness and is followed by progressive flaccid paralysis of the legs, wings and neck. When neck muscles are affected the head hangs limp, thus causing a condition referred to as "limberneck". Affected birds may have a peculiar trembling, loose feathers that are pulled out easily and dull partly closed eyes. Some birds (turkey) do not develop loose feathers or limberneck symptoms. Because of the paralysis, birds are unable to swallow and mucous accumulates in the mouth. Fatally affected birds may lie in a profound coma appearing lifeless for several hours before death. Significant lesions are not usually observed in affected birds. Examining digestive contents may reveal insects, decomposed animal or vegetable material or other matter suggesting that the birds have consumed the toxin.
    A tentative diagnosis can be made from the history, symptoms and post-mortem findings. As an aid to diagnosis, sick birds may be given water into the crop, kept in a cool environment and treated intravenously with antitoxin. Recovery of a large percentage of the affected birds would substantiate diagnosis.
    Prevention should be aimed at eliminating sources of toxin production and preventing access of birds to such materials. These practices include prompt removal of all dead animals from houses and pens, debeaking the birds, controlling fly and insect populations and avoiding access to decaying organic material. Contaminated water supplies are particularly dangerous.
    If the disease strikes, locate and remove the source of the toxin and separate all visibly affected birds from the flock for treatment. Place sick birds in a cool shaded area and give fresh water into the crop, twice daily. Mild laxatives may be used for birds that have been exposed but do not show disease symptoms. Epsom salts (one pound per 100 birds) may be mixed into feed. Adding a level teaspoonful of Epsom salts in one ounce of water and placing in the crops of sick birds has been beneficial in many instances. Antitoxin therapy is indicated only in birds that have high individual value since the antitoxin is difficult to obtain and is expensive.

    Infectious Coryza
    Infectious coryza is a specific respiratory disease in chickens that occurs most often in semi-mature or adult birds. Infection may result in a slow-spreading, chronic disease that affects only a small number of birds at one time, or in a rapid spreading disease with a higher percentage of birds being affected. The occurrence of infectious coryza is not widespread and the incidence is relatively low.
    The disease is caused by a bacterium known as Hemophilus gallinarum. Outbreaks usually result from the introduction of infected or carrier birds into a flock. Transmission of the infection occurs by direct contact, airborne infection by dust or respiratory discharge droplets and drinking water contaminated by infective nasal exudate. Susceptible birds usually develop symptoms within three days after exposure to the disease. Recovered individuals may appear normal but remain carriers of the organism for long periods. Once a flock is infected, all birds must be considered as carriers.
    The most characteristic symptoms of infectious coryza include edematous swelling of the face around the eyes and wattles, nasal discharge and swollen sinuses. Watery discharge from the eyes frequently results in the lids adhering together. Vision may be affected because of the swelling. The disease results in a decrease in feed and water consumption and an increase in the number of cull birds. An adverse effect on egg production usually occurs in proportion to the number of affected birds.
    Diagnosis can be confirmed only by isolation and identification of the causative organism. The organism, Hemophilus gallinarum, is extremely fastidious and often difficult to isolate.
    Prevention is the only sound approach in controlling infectious coryza. It usually can be prevented by management programs that eliminate contact between susceptible and infected birds. It requires only separating affected or carrier birds from the susceptible population. In order to prevent the infection, introduce started or adult birds only from sources known to be free of the infection. If infection occurs, complete depopulation followed by thorough cleaning/disinfecting is the only means for eliminating the disease.
    A number of drugs are effective for treating the symptoms of the disease although the disease is never completely eliminated. Sulfadimethoxine or sulfathiazole in the feed or water or erythromycin administered in the drinking water can reduce the symptoms of this disease.

    Omphalitis
    Omphalitis may be defined technically as an inflammation of the navel. As commonly used, the term refers to improper closure of the navel with subsequent bacterial infection (navel ill; mushy chick disease).
    Apparently, most problems result from mixed bacterial infections including the common coliforms and various species belonging to the genera Staphylococcus, Streptococcus, Proteus, and others. Omphalitis can usually be traced to faulty incubation, poor hatchery sanitation or chilling/overheating soon after hatching (such as in transit). The significance of isolating one of the bacterial species mentioned above is complicated in that many of the same species can be isolated from the yolks of supposedly normal birds immediately after hatching.
    Omphalitis occurs during the first few days of life, so it cannot be considered transmissible from bird to bird. It is transmitted from unsanitary equipment in the hatchery to newly hatched birds having unhealed navels.
    Affected chicks usually appear drowsy or droopy with the down being "puffed up". They also generally appear to be of inferior quality and show a lack of uniformity. Many individuals stand near the heat source and are indifferent to feed or water. Diarrhea sometimes occurs. Mortality usually begins within 24 hours and peaks by five to seven days.
    Characteristic lesions are poorly healed navels, subcutaneous edema, bluish color of the abdominal muscles around the navel and unabsorbed yolk material that often has a putrid odor. Often yolks are ruptured and peritonitis is common.
    A tentative diagnosis can be made on the basis of history and lesions. The presence of mixed bacterial infections and absence of any specific disease-producing agent is used for confirming the diagnosis.
    Good management and sanitation procedures in the hatchery and during the first few days following hatching are the only sure ways to prevent omphalitis. Broad spectrum antibiotics help reduce mortality and stunting in affected groups, but they do not replace sanitation.

    Erysipelas
    Erysipelas is a bacterial disease caused by Erysipelothrix insidiosa. The disease affects several species of birds including chickens, ducks and geese, but the fowl in which it has been of primary importance is the turkey. Man is susceptible to infection and may contract the disease from infected turkeys. Since this organism is pathogenic for man, care should be taken when handling infected birds or tissues.
    Erysipelas in turkeys occurs most often during the fall and winter months and usually affects birds that are four to seven months of age, although any age bird is susceptible. Incidence has often been reported to be higher in males than in females, possibly because fighting males receive numerous skin abrasions that serve as portals of entry for the bacteria. In some instances the incidence is higher in hens than toms because of artificial insemination techniques that provide a means of transmission.
    The organism may survive for long periods in the soil and most outbreaks are thought to originate from contaminated soil or premises. Sheep, swine and rodents may be carriers of the disease organisms. Recurrence of the disease on a premise is common. Predisposing or aggravating factors include over-crowding damp or inclement weather and poor sanitation and range management.
    The first indication of the disease may be the discovery of several dead birds. Usually several morbid birds can be found; however, most affected birds are visibly sick for only a short period before death. Symptoms are typical of a septicemic disease and include a general weakness, listlessness, lack of appetite and sometimes a yellowish or greenish diarrhea. Occasionally, the snood of toms may be turgid, swollen and purple. Some birds may be found lame with swollen leg joints due to localization of the infection. In breeding flocks, this disease occasionally is associated with decreased fertility and hatchability. Daily morbidity and mortality usually are low; however, in untreated flocks mortality may persist for some time and become excessive.
    The most characteristic lesions are small or diffuse hemorrhages located in almost any tissue or organ. Such hemorrhages are commonly observed in the muscles, heart, liver, spleen, fat and other tissues of the body cavities. Hemorrhagic conditions of skin may result in purple blotches. The liver and spleen are usually enlarged, congested and occasionally contain necrotic foci. Enteritis or inflammation of the intestinal tract is commonly observed, as in most septicemic diseases.
    Symptoms and lesions may resemble other diseases so closely that a reliable diagnosis can be made only through isolation and identification of the causative organism.
    Good management practices that aid in preventing erysipelas include avoiding the use of ranges previously occupied by swine, sheep or turkeys where erysipelas is known to have existed. Debeaking, removal of the snoods of toms, measures that prevent injury from fighting, avoiding overcrowding and providing well drained ranges will aid in preventing this disease problem.
    Bacterins are available and are useful on premises where history indicates that outbreaks may be a problem. The amount and duration of protection is relative to the amount of exposure and may not be sufficient for the entire laying period. Administer bacterins in accordance with the manufacturer's directions.
    Move sick birds to a hospital pen for individual treatment and to prevent cannibalism. Moving unaffected birds to a clean range may aid in preventing the spread of the disease but may also contaminate an additional range.
    Various antibiotics have shown efficacy in treating erysipelas; however, penicillin is best. Penicillin injections in the leg or breast muscles of visibly sick birds is effective in decreasing mortality. One injection is usually sufficient, but more may be given if necessary. Water and feed medication may be of value under certain conditions.
    MISCELLANEOUS MANAGEMENT RELATED DISEASES
    Caged Layer Fatigue
    Cage layer fatigue is a condition that is unique to hens that are in a high state of egg production, primarily caged layer hens. The cause of the condition is thought to be associated in an imbalance of minerals/electrolytes in the body.
    Rickets and abnormal bones in adult birds is commonly present. In layers under thirty weeks of age, the cause is usually a temporary calcium deficiency when egg production reaches eighty percent or higher. If intake of calcium does not satisfy the need for egg production, the hen will remove calcium stored in the bones. Ultimately, osteoporosis develops, bones become soft and hens are subject to bone fractures. Crippled and unable to stand, the hen suffers from the caged fatigue symptoms.
    Many hens show spontaneous recovery if removed from the cages and allowed to walk normally on the floor. This indicates that a lack of exercise may be a partial cause. Cage layer fatigue is more prevalent in single-hen cages than in multiple-hen cages. When two or more hens are caged together, they get more exercise because of competition for feed and water.
    Supplementation of the diet with phosphate, calcium and vitamin D3 is usually helpful. Adding calcium to young birds by top-dressing the feed with twenty pounds of oyster shell or limestone per one thousand hens will often help the condition. In older hens, calcium deficiency is less likely than phosphorus or vitamin D3 deficiencies. Recommended treatment in these birds is to remove the hens from cages and top-dress feed with equivalent level of dicalcium phosphate. Adding a vitamin/electrolyte supplement to drinking water is recommended in any age bird suffering from this condition.
    Flocks that do not respond to the above therapy should be submitted to a poultry disease diagnostic laboratory to determine the cause of the problems. Several diseases can cause symptoms similar to caged layer fatigue. Flock treatment for the condition can be prescribed after diagnosis is completed.
    F
    atty Liver Hemorrhagic Syndrome
    Fatty liver syndrome is a condition that affects only hens. The basic cause is thought to be excessive dietary energy intake. Hereditary tendencies vary among various strains of egg production stock, but heredity is not the entire cause for this malady. Laying hens housed in cages are most often affected since they are less able to get sufficient exercise and dispose of the extra dietary energy.
    Birds within a flock that are most often affected are the high producers. This indicates that physiological energy metabolism and production are closely associated with this condition. Mortality varies considerably among flocks but can become excessive in some cases. Lesions include accumulation of large amount of abdominal fat; enlarged, easily damaged liver and presence of blood clots that indicate that hemorrhages have occurred prior to death. Death usually is caused by a fatal internal hemorrhage originating in a portion of the liver. This hemorrhage is often caused as the hen is straining to lay her egg and the enlarged, friable liver is more vulnerable to injury. When a large blood vessel ruptures, sufficient blood is lost to cause death of the hen.
    The primary treatment for this condition requires an alteration of the diet or amount of dietary energy consumed. Replacement of some of the corn in the diet with lower energy feedstuffs like wheat bran can provide a lower energy diet. If a complete layer ration is being fed, addition of vitamins can be of benefit. If grains are the primary feedstuff, it is suggested that the birds be switched to a complete layer diet. Control of body fat is the only successful remedy for this condition and is best accomplished by regulation and reduction of total energy intake.

    Cannibalism
    Cannibalism is prevalent among chickens of all ages and can become a serious problem if not corrected early. The problem is most severe when birds are housed in close confinement. In most cases it is a vice that progresses from a minor stimulus and soon becomes a severe problem.
    Many causes are thought to initiate the problem but it is not understood why it is uncontrollable in some cases but never becomes a problem in other situations. Cannibalism may start as toe picking in baby chicks; feather picking in growing birds; or head, tail and vent picking in older birds. The early symptoms of a cannibalism problem may be difficult to detect. It is necessary that the poultry man be on constant guard to detect any aggressive behavior and take necessary management changes before the problem progresses into a severe case of cannibalism.
    Causes that can result in cannibalism include:
    High density of birds within a confined area,
    Brooding chicks at temperatures that are too warm,
    Small or weak chicks, especially those having oddly colored down or feathers,
    Exposing birds to light that is too intense or having a color that induces aggression,
    Restriction of feed or water intake,
    Feeding a diet with a deficiency of salt or sulfur-containing amino acids (protein),
    Allowing dead birds to remain exposed to the flock,
    Lack of or absence of properly designed nest boxes.
    Regardless of the cause, some method of preventing this vice must be used. The most common procedure to reduce cannibalism is to debeak the birds. Birds grown in houses with very low light intensity may not require debeaking. Those grown in houses receiving normal daylight should be debeaked at the hatchery or within the first two weeks after hatching. This helps reduce the incidence of feather picking that often develops into a severe case of cannibalism.
    A special method of hot debeaking has been developed for debeaking broiler chicks at one day of age. Rather than severing or cutting the beak, a hot blade is used to burn an area near the tip of the upper beak (egg tooth). The procedure is designed to leave a thin base to the tip of the upper beak. This makes it easier for the chick to eat without having a sensitive, raw beak. The tip of the upper beak gradually drops off without apparent injury to the chick, thus leaving a shortened upper beak and a normal lower mandible.
    Reducing the mortality is a primary concern that responds well to adequate floor space. Birds should not be crowded but instead, provide sufficient room so that weaker birds can escape from those that are more aggressive. Reducing the amount of floor space usually results in increased mortality and reduced growth rate. Not only is there a monetary loss involving the cost of the chick, but the value of the feed, labor, and other items necessary to grow a chick until the time of death is a direct loss. There is also the lost profit that could have been earned if the dead birds had lived until market or egg production age.

    VIRAL DISEASES
    Avian Pox
    Avian pox is a relatively slow-spreading viral disease in birds, characterized by wart-like nodules on the skin and diphtheritic necrotic membranes lining the mouth and upper respiratory system. It has been present in birds since the earliest history. Mortality is not usually significant unless the respiratory involvement is marked. The disease may occur in any age of bird, at any time.
    Avian pox is caused by a virus of which there are at least three different strains or types; fowl pox virus, pigeon pox virus and canary pox virus. Although some workers include turkey pox virus as a distinct strain, many feel that is identical to fowl pox virus.
    Each virus strain is infective for a number of species of birds. Natural occurring pox in chickens, turkeys and other domestic fowl is considered to be caused by fowl pox virus.
    Fowl pox can be transmitted by direct or indirect contact. The virus is highly resistant in dried scabs and under certain conditions may survive for months on contaminated premises. The disease may be transmitted by a number of species of mosquitoes. Mosquitoes can harbor infective virus for a month or more after feeding on affected birds. After the infection is introduced, it spreads within the flock by mosquitoes as well as direct and indirect contact. Recovered birds do not remain carriers.
    Since fowl pox usually spreads slowly, a flock may be affected for several months. The course of the disease in the individual bird takes three to five weeks. Affected young birds are retarded in growth. Laying birds experience a drop in egg production. Birds of all ages that have oral or respiratory system involvement have difficulty eating and breathing. The disease manifests itself in one or two ways, cutaneous pox (dry form) or diphtheritic pox (wet form).

    Dry pox starts as small whitish foci that develop into wart-like nodules. The nodules eventually are sloughed and scab formation precedes final healing. Lesions are most commonly seen on the featherless parts of the body (comb, wattles, ear lobes, eyes, and sometimes the feet).
    Wet pox is associated with the oral cavity and the upper respiratory tract, particularly the larynx and trachea. The lesions are diphtheritic in character and involve the mucous membranes to such a degree that when removed, an ulcerated or eroded area is left.
    Fowl pox is readily diagnosed on the basis of flock history and presence of typical lesions. In some cases, laboratory diagnosis by tissue or transmission studies is necessary.
    There is no treatment for fowl pox. Disease control is accomplished best by preventative vaccination since ordinary management and sanitation practices will not prevent it. Several kinds of vaccines are available and are effective if used properly.
    Vaccination of broilers is not usually required unless the mosquito population is high or infections have occurred previously. The chicks may be vaccinated as young as one day of age by using the wing-web method and using a one needle applicator. All replacement chickens are vaccinated against fowl pox when the birds are six to ten weeks of age. One application of fowl pox vaccine results in permanent immunity.

    Newcastle Disease
    Newcastle disease is a contagious viral infection causing a respiratory nervous disorder in several species of fowl including chickens and turkeys. Different types or strains of the virus (varying in their ability to cause nervous disorder, visceral lesions and death) have been recognized.
    The most severe strain is called viscerotropic velogenic Newcastle disease (VVND) and is kept from birds in the U.S. by enforcement of strict quarantines at our national borders. It is often referred to as "Exotic Newcastle Disease" and infection of susceptible fowl with this form usually causes high mortality. Due to the reduced chance that poultry in this country will become infected with this disease form, it will not be discussed.
    A milder form of the disease is called "mesogenic" Newcastle disease and is the most serious strain found in the U.S. This is the form that is referred to as Newcastle disease in this discussion.
    Newcastle disease is highly contagious. All birds in a flock usually become infected within three to four days. The virus can be transmitted by contaminated equipment, shoes, clothing and free-flying birds. During the active respiratory stage, it can be transmitted through the air. The virus is not thought to travel any great distance by this method. Recovered birds are not considered carriers and the virus usually does not live longer than thirty days on the premises.
    Signs of Newcastle disease are not greatly different from those of other respiratory diseases. The signs most frequently observed are nasal discharge, excessive mucous in the trachea, cloudy air sacs, casts or plugs in the air passages of the lungs and cloudiness in the cornea of the eye.
    The disease in young chickens begins with difficult breathing, gasping and sneezing. This phase continues for ten to fourteen days and may be followed by nervous symptoms. If nervous disorders develop, they may consist of paralysis of one or both wings and legs or a twisting of the head and neck. The head often is drawn over the back or down between the legs. Mortality may vary from none to total loss of the flock.
    In adult chickens, respiratory symptoms predominate. Only rarely do nervous disorders develop. If the flock is laying, egg production usually drops rapidly. When this occurs, it takes four weeks or longer for the flock to return to the former production rate. During the outbreak, small, soft-shelled, off-colored and irregular-shaped eggs are produced. Mortality in adult birds is usually low but may be fairly high from some virus strains.
    In turkeys, the symptoms are usually mild and may be unnoticed unless nervous disorders develop. During an outbreak, turkeys will produce eggs with a chalky white shell. Reduced production in breeder flocks is the main economic loss from this disease in turkeys.
    The flock history, signs of a respiratory nervous disorder and other typical lesions often may be sufficient to allow a tentative diagnosis. Usually, however, the disease cannot be differentiated from infectious bronchitis and some of the other respiratory infections, except by laboratory methods.
    Vaccination is practiced widely and is the recommended method for prevention. Several types of vaccines are available but the most successful and widely used is the mild live virus vaccine known as the B1 and La Sota types. The vaccines may be used by drops into the nostril or eye, addition to the drinking water or applied in spray form.
    Broiler chickens are usually vaccinated when seven to ten days of age. Chickens kept for egg production are usually vaccinated at least three times. The vaccine is given when birds are approximately seven days, again at about four weeks and a third time at about four months of age. Revaccination while in lay is commonly practiced.
    Vaccination is not widely used in turkeys. It is used to protect egg producing breeder flocks. One dose of the mild type vaccine is given after selecting breeder birds.
    There is no treatment for Newcastle disease. The disease does not always respect even the best management programs, but good "biosecurity" practices will help reduce the possibility of exposure to Newcastle disease virus.

    Infectious Bronchitis
    Infectious bronchitis is an extremely contagious respiratory disease of chickens characterized by coughing, sneezing and rales (rattling). It is caused by a virus that affects chickens only. Other fowl or laboratory animals cannot be infected with this virus. Several distinct strains of the virus exist.
    Infectious bronchitis is considered the most contagious of poultry diseases. When it occurs, all susceptible birds on the premises become infected, regardless of sanitary or quarantine precautions. The disease can spread through the air and can "jump" considerable distances during an active outbreak. It can also be spread by mechanical means such as on clothing, poultry crates and equipment. The disease is not egg transmitted and the virus will survive for probably no more than one week in the house when poultry are not present. It is easily destroyed by heat and ordinary disinfectants.
    The infection is confined to the respiratory system. Symptoms are difficult breathing, gasping, sneezing and rales. Some birds may have a slight watery nasal discharge. The disease never causes nervous symptoms. It prevails for ten to fourteen days in a flock and symptoms lasting longer than this are from some other cause.
    In chickens under three weeks of age, mortality may be as high as thirty or forty percent. The disease does not cause a significant mortality in birds over five weeks of age. Feed consumption decreases sharply and growth is retarded.
    When infectious bronchitis occurs in a laying flock, production usually drops to near zero with a few days. Four weeks or more may be required before the flock returns to production. Some flocks never regain an economical rate of lay. During an outbreak, small, soft-shelled, irregular-shaped eggs are produced.
    Infectious bronchitis is difficult to differentiate from many of the other respiratory diseases. For this reason, a definite diagnosis usually requires a laboratory analysis.
    Infectious bronchitis is highly contagious and does not always respect sanitary barriers. Vaccinate chickens being retained as layers. Whether broilers should be vaccinated depends upon many factors and is an individual decision. Numerous vaccines are available commercially. Most of them represent a modified or selected strain of the infectious bronchitis virus. The vaccine used should contain virus known to be present in the area. All vaccines contain live virus and those that give the best protection are also capable of producing symptoms and reducing egg production. The vaccine virus will spread to other susceptible birds. Vaccine is usually added to the drinking water, but may be dropped into the eye or nostril or used as a spray.
    There is no treatment for this disease. In young chickens it is helpful to increase the brooder temperature and provide as nearly ideal environmental conditions as possible.

    Quail Bronchitis
    Quail bronchitis is a contagious, highly fatal disease in young bobwhite quail. The virus causing this disease also infects chickens and turkey. This agent is also known as a CELO (Chick Embryo Lethal Organism) virus. It has been isolated from chicken eggs but does not produce a recognizable disease in chickens or turkeys. This agent may play a part in respiratory diseases and in infertility problems, but its importance must be established by additional research. It is important because it is one of the agents that may be isolated from birds with respiratory symptoms and is difficult to separate from other agents such as infectious bronchitis virus.

    Lymphoid Leukosis
    Characteristically, lymphoid leukosis is a disease of adult chickens; however, the disease appears to be increasing in importance for turkeys and game birds. Although the virus of lymphoid leukosis can produce various responses (blood, bone, lymph), the lymphoid tumor response is the most common.
    The disease is transmitted in a variety of ways. The causative viral agent is passed out of the body of infected birds via eggs and feces. The virus may be transmitted mechanically from infected birds to susceptibles by blood-sucking parasites or by man in such procedures as fowl pox vaccination.
    Lymphoid leukosis characteristically produces lymphoid tumors, particularly in the liver and spleen. The tumors may also affect other visceral organs such as ovary and lungs. Affected birds may die without preliminary symptoms, but the disease usually is chronic in nature and affected birds show loss of appetite, progressive emaciation and diarrhea. Clinically affected birds invariably die. Losses due to the disease are most severe shortly after onset of egg production, but losses will continue for as long as the flock is retained. Total loss may approach twenty percent during the life of a flock.
    Clinical diagnosis of lymphoid leukosis is based upon flock history and disease manifestations. The lymphoid disease cannot be readily distinguished from the visceral response to Marek's disease; however, there are some features that aid in differential diagnosis.
    There is no treatment for lymphoid leukosis. Although the disease cannot be prevented completely, there are certain steps that can be taken to help control the level of infection within a flock. Some steps are:
    Buy resistant strains of birds since genetic resistance is a deterrent,
    Brood in isolation and do not mix birds of different ages, especially through six weeks of age,
    Keep the incubator clean and disinfected,
    Control blood-sucking parasites,
    Good care, limiting stress, and adequate ration will be of benefit.

    Marek's Disease (Visceral Leukosis)
    Marek's disease is characteristically a disease of young chickens but older birds can also be affected. In contrast to the lymphoid leukosis tumor response, Marek's disease may be observed in more diverse locations.
    Marek's disease is caused by a virus belonging to the Herpes virus group. Much is known about the transmission of the virus; however, it appears that the virus is concentrated in the feather follicles and shed in the dander (sloughed skin and feather cells). The virus has a long survival time in dander since viable virus can be isolated from houses that have been depopulated for many months.
    The usual mode of transmission is by aerosols containing infected dander and dust. Young birds are most susceptible to infection by Marek's disease; however, since the incubation period is short, clinical symptoms can appear much earlier than in the case with lymphoid leukosis. Marek's disease may produce a variety of clinical responses, all lymphoid in character. These are acute visceral, neural, ocular, skin or combinations of the responses that can be seen. Marek's of the visceral type is characterized by widespread involvement with lesions commonly seen in gonads, liver, spleen, kidney and occasionally heart, lungs and muscles. The disease is often acute, with apparently healthy birds dying very rapidly with massive internal tumors. The disease may appear in broiler-age birds but the most severe losses occur in replacement pullet flocks prior to onset of egg production.
    The neural type of Marek's is typified by progressive paralysis of the wings, legs and neck. Loss of body weight, anemia, labored respiration and diarrhea are common symptom. If lesions are present, they are confined to the nerve trunks and plexes enervating the paralyzed extremities. Frequently no gross lesions can be observed.
    Ocular (eye) leukosis or "gray-eye" is usually seen in early maturity. Morbidity and mortality are usually low but may approach twenty-five percent in some flocks. It is characterized by the spotty depigmentation or diffuse graying of the iris in the eye. The pupil develops an irregular shape and fails to react to light. Emaciation diarrhea and death follow.

    Skin leukosis produces the most severe losses in broilers. The losses result from high condemnations at the processing plant. Enlargement of the feather follicles due to accumulations of lymphocytes is the typical lesion. This is the most infective virus since it is produced in the regions of the feather follicles and is shed with the skin dander.
    Acute Marek's disease can be extremely rapid in its course, producing mortality in apparently healthy birds. However, in some cases the lesions may regress and clinically affected birds may make complete recoveries.
    Diagnosis is based upon flock history and disease manifestations. Accurate diagnosis may depend on results of laboratory procedures. As is the case with lymphoid leukosis, there is no treatment for Marek's disease.
    A vaccine is available that is extremely effective (90% +) in the prevention of Marek's disease. It is administered to day-old chickens as a subcutaneous injection while the birds are in the hatchery. Use of the vaccine requires strict accordance with manufacturer's recommendations in a sterile environment.

    Infectious Bursal Disease (Gumboro)
    Infectious bursal disease is an acute, highly contagious viral disease of young chickens. It is most often found in highly concentrated poultry producing areas. It causes marked morbidity and mortality in affected flocks. Although the disease causes severe losses, its affect on reducing the bird's ability to develop immunity to other diseases may be the most serious effect produced by this disease.
    The transmission or spread of the disease can occur by direct contact (bird to bird), contaminated litter and feces, caretaker, contaminated air, equipment, feed, servicemen and possible insects and wild birds. It is extremely contagious.
    Birds have ruffled feathers, a slight tremor at onset of the disease, strained defecation, loss of appetite and are dehydrated. Affected birds have a tendency to sit and when forced to move, have an unsteady gait. Vent picking is common and a whitish diarrhea frequently develops. A sudden rise in body temperature is followed by a drop to subnormal temperature, prostration and death. Birds surviving the initial infection will recover rapidly within two weeks.
    Postmortem lesions include dehydration and changes in the bursa, skeletal muscle, liver and kidneys. All affected birds have bursal changes characterized by swelling, change in shape (oblong), color (pink, yellow, red, black) and the formation of a gelatinous film around the bursa. Within a few days the bursa shrinks to half its normal size or smaller.
    Diagnosis of infectious bursal disease is based on flock history and postmortem lesions. Laboratory procedures may be used to substantiate the diagnosis.
    Vaccines are available but must be carefully used. If given correctly, good immunity can be developed. There is no specific treatment for infectious bursal disease and indiscriminate medication with certain drugs may severely aggravate mortality. Supportive measures such as increasing heat, ventilation and water consumption are beneficial.

    PROTOZOAN DISEASES
    Coccidiosis
    Coccidiosis is a disease of fowl caused by a microscopic animal or protozoa and is characterized by diarrhea, unthriftiness and variable levels of mortality. In spite of much research to advance the control and treatment of this disease, it remains the most costly disease of the poultry industry.
    Coccidiosis is caused by microscopic animals called coccidia. There are many species of coccidia that can infect fowl, domestic animals and humans. Each species of coccidia is host specific and does not infect a wide variety of animals. After an outbreak of a specific species of coccidia, the flock will develop a resistance to the exposed coccidia species but remain resistant to other infective species. This means that a flock may experience several outbreaks of coccidiosis, each being caused by a different species of coccidia. Chickens are susceptible to any of nine coccidia species, turkeys are susceptible to seven species and quail are susceptible to at least four different species of coccidia.
    Coccidiosis is transmitted by direct or indirect contact with droppings of infected birds. When a bird ingests coccidia, the organisms invade the lining of the intestine and produce tissue damage as the undergo reproduction. Within a week after infection, the coccidia shed immature descendants that are referred to as oocysts. The oocysts shed in the droppings are not capable of infecting another bird unless they pass through a maturation process (sporulation) in the litter. This sporulation occurs within a one to three day period if the litter is warm and damp but can take much longer if the conditions are cool and dry. After sporulation the coccidia are infective if consumed by a new host bird.
    The number of infective coccidia consumed by the host is a primary factor as to the severity of the resulting infection. An infection may be mild enough to go unnoticed while a large infective dose of coccidia may produce severe lesions that can cause death. Coccidia survive for long periods outside the bird's body. They are easily transmitted from one house to another on contaminated boots, clothing, free-flying birds, equipment, feed sacks, insects and rodents.
    Coccidiosis usually occurs in growing birds and young adults. It is seldom seen in birds under three weeks or in mature birds. Signs of an outbreak include birds that are pale, droopy, tend to huddle, consume less feed and water, have diarrhea, and may become emaciated and dehydrated. Laying hens will experience a reduction in rate of egg production.

    Cecal coccidiosis may produce bloody droppings and anemia that is often followed by death. Intestinal coccidiosis is not as acute and is more chronic in nature. It produces less mortality than the cecal form.
    Lesions of the infection depend on the species of coccidia causing the problem, its severity and stage of the disease. Cecal coccidiosis may produce a ballooning of the cecal pouches that is filled with free blood. A later stage is characterized by cecae that are filled with a material with a cheesy consistency and being tinged with variable amounts of blood. Lesions of intestinal coccidiosis vary from a rather mild enteritis to a severe necrotic or hemorrhagic type.
    Cecal coccidiosis may be confused with blackhead and salmonellosis due to their similar lesions. Intestinal coccidiosis may be confused with hemorrhagic anemia syndrome and other enteric diseases. Definite diagnosis is made from the microscopic examination of scrapings of the digestive tract and identification of the coccidia organisms. Since it is common for healthy birds to possess some coccidia, consideration of flock history and lesions must be considered before making diagnosis and treatment recommendations.
    It is difficult, if not impossible, to prevent coccidiosis by sanitation alone. It is best prevented by addition of a drug (coccidiostat) to the feed that controls the growth of coccidia in the digestive tract. Many coccidiostats are available commercially. Coccidiostats should not be indiscriminately used and recommendations must be followed precisely.
    A coccidiosis vaccine is also available commercially. The product is useful only in certain types of poultry operations and must be used as recommended. Seek expert advice before using the vaccine.

    Blackhead (Histomoniasis, Enterohepatitis)
    Blackhead is an acute or chronic protozoan disease of fowl, primarily affecting the cecae and liver. The disease is present wherever poultry are raised. Blackhead is one of the critical diseases of growing turkeys and game birds. It may cause stunted growth, poor feed utilization and death. It is of lesser economic importance in chickens since they are more resistant, but the incidence in chickens apparently is increasing.
    Blackhead is caused by a protozoan parasite called Histomonas meleagridis. The organism in passed in the fecal material of infected birds. In many instances, the organism is shed within the eggs of the cecal worm of chickens, turkeys and game birds. Free-living blackhead organisms do not survive long in nature, but those in cecal worm eggs may survive for years. Therefore, most blackhead transmission is considered due to ingesting infected cecal worm eggs. Transmission may also occur by the earthworm.
    Chickens are frequently infected without showing signs of the disease. These chickens may shed enormous numbers of blackhead organisms, many of which are protected by cecal worm eggs. Outbreaks in turkeys can often be traced to direct or indirect contact with ranges, houses or equipment previously used by chickens. Free-flying birds may also contribute to an infection.
    Most blackhead losses occur in young birds (six to sixteen weeks). Among the symptoms are loss of appetite, increased thirst, droopiness, drowsiness, darkening of the facial regions and diarrhea. Morbidity and mortality are variable, but mortality seldom exceeds fifteen percent; however, it may approach one-hundred percent in uncontrolled turkey outbreaks. Losses are usually low in chickens.
    Lesions of uncomplicated blackhead are confined to the cecae and liver, thus the reason for the synonymous term, enterohepatitis. The cecae are ballooned and walls may be thickened, necrotic and ulcerated. Caseous (cheesy) cores within the cecae may be blood tinged. Peritonitis may be present if ulcers have perforated the ceca walls. Livers are swollen and display circular depressed areas of necrosis about one-half inch in diameter. Smaller lesions coalesce to form larger ones. Lesions are yellowish to yellow-green and extend deeply into the underlying liver tissue. Healing lesions may resemble those seen in visceral leukosis.
    Blackhead diagnosis is made readily on the basis of the lesions. Atypical forms, particularly in chickens, must be differentiated from cecal coccidiosis and Salmonella infections in particular. Medications may interfere with atypical lesions. Laboratory tests may be required for positive diagnosis in such cases.
    Good management practices can do much to control the blackhead problem. Do not keep birds of different species on the same premises. Do not range turkeys on ground previously used by chickens unless several years have elapsed. Rotate ranges periodically if possible. Cecal worm control is necessary to reduce blackhead incidence. Wire or slatted floors reduce exposure.
    Good management is the only effective method of preventing this disease since many of the effective drugs used in past years are no longer available commercially. Drugs that reduce the presence of cecal worms, and thus reduce the infection rate, are available but do not have an effect on the Histomonas organism. Refer to the cecal worm section for recommended control practices.
    Hexamitiasis (Infectious Catarrhal Enteritis)
    Hexamitiasis is an acute infectious disease of turkeys, quail, ducks, chukar partridges and pigeons. Heavy losses have been reported in one outbreak in ring-necked pheasants. Chickens apparently are not affected.
    Hexamitiasis is a problem in every commercial turkey-producing area. It may be a major problem in localized areas during a particular year, followed by one or more years in which incidence is low.
    Hexamitiasis is caused by a one-celled parasite of the genus Hexamita. Hexamita meleagridis is the cause in turkeys; in pigeons it is Hexamita columbae. Experimentally, the Hexamita of turkeys can be transmitted to young quail, chicks and ducklings, and that of quail and partridges can be transmitted to poults. However, poults cannot be infected with the organism isolated from pigeons.
    This disease is found primarily in young birds, and outbreaks seldom occur in poults past ten or eleven weeks. Losses are most severe in birds three to five weeks old. Apparently, resistance develops rapidly with increasing age, regardless of previous exposure.
    The primary infection source is droppings from carrier birds. About a third of recovered birds become carriers. Most outbreaks result from a buildup of organisms through several broods of poults, making exposure of the following brood overwhelming. Indirect transmission may result from fecal material carried from one location to another on shoes or equipment. Free-flying birds also may be carriers.
    Primary symptoms are listlessness and foamy or watery diarrhea with rapid weight loss due to the dehydrating effect. Birds often huddle together near the heat source and cry or "chirp" constantly as though in pain. Convulsions due to lowered blood sugar levels shortly precede death. Affected birds suffer losses in weight and survivors remain stunted.
    Dehydration and emaciation are the principal gross lesions. Muscles are dark and dry. The intestine usually appears to have lost muscle-tone. Intestinal contents are usually thin and watery, or may contain mucus.
    Diagnosis depends upon history, symptoms and microscopic examination of intestinal contents. A definite diagnosis cannot be made unless typical flagellated organisms can be detected in intestinal contents of the duodenum. Most flagellate organisms in the cecae are not disease producers.

    FUNGAL DISEASES
    Aspergillosis (Brooder Pneumonia)
    Aspergillosis has been observed in almost all birds and animals, including man. The disease is observed in one of two forms; acute outbreaks with high morbidity and high mortality in young birds, and a chronic condition affecting adult birds. It is more of a problem in turkeys than in chickens.
    The condition is caused by Aspergillus fumigatus, a mold or fungus-type organism. Occasionally other types of molds are involved. These organisms are present in the environment of all poultry. They grow readily on many substances such as litter, feed, rotten wood and other similar materials.
    The bird comes in contact with the organisms through contaminated feed, litter or premises. The disease is not contagious and does not spread from one bird to another. Most healthy birds can withstand repeated exposure to these organisms. Inhalation of large amounts of the infectious form of the mold or reduced resistance of the bird apparently results in infection. In adult turkeys, the disease more often affects the male.
    In the acute form in young birds, main symptoms are gasping, sleepiness, loss of appetite and sometimes convulsions and death. Occasionally the organism invades the brain, causing paralysis or other forms of nervous symptoms. The more chronic form in older birds usually results in loss of appetite, gasping or coughing and a rapid loss of body weight. Mortality is usually low and only a few birds are affected at one time.
    The disease produces hard nodular areas in the lungs and an infection of the air sacs. Sometimes the air sac lesions are similar to those produced by infectious sinusitis or CRD. In some birds, colonies of mold growth can be seen on the air sac membranes.
    Diagnosis is usually made from history, symptoms and lesions. It may be necessary to base diagnosis on microscopic lesions. The disease can usually be prevented by avoiding moldy litter, feed or premises. There is no treatment for the affected flock. Cleaning and disinfecting the equipment is often helpful.

    Mycotoxicosis
    It is known that certain strains of fungi (molds) growing in feed or feed ingredients can produce toxins that, when eaten by man or animals, can cause a very lethal disease called mycotoxicosis. The toxins produced by these fungi are very toxic and rivals the botulism toxin for toxicity.
    Mycotoxicosis is caused by ingestion of toxic substances produced by molds growing on feed, feed ingredients and possibly litter. Several types of fungi produce toxins that may cause problems in poultry, but of primary concern are substances produced by the Aspergillus flavus fungi and are thus called aflatoxins. Aspergillus flavus is a common mold that grows on many substances, and grows especially well on grain and nuts. Several other fungi also produce toxins that cause the disease.
    The aflatoxins include four closely related metabolites of A. flavus known as B1, B2, G and G2. The B1 toxin is the most toxic and is of greatest concern to the poultry industry.
    Mold toxins cause a wide variety of signs, many difficult to recognize. The aflatoxins under certain conditions cause death, reduced growth, reduced egg production, reduced hatchability, signs associated with "physiological stress" and impaired ability to develop immunity to infectious agents. Diagnosis is difficult because characteristic lesions usually are not present, and detection of the toxin is not conclusive.
    Molds are widespread in nature. Standing grains and other feed substances are frequently infected with toxin-producing molds prior to harvest. The key is proper storage to control moisture and temperature to reduce growth of the molds while in storage. Although the mold is present, it cannot produce toxic products unless allowed to grow freely. Aflatoxins in feeds can be detected by chemical tests. Once the toxin is produced there is no known method for removing it from the feed or cancelling its harmful effects. Providing a diet containing high fat and high protein levels and augmenting the ration with vitamin supplements may be of value.

    Moniliasis (Crop Mycosis, Thrush)
    This is a disease that primarily affects the upper digestive tract of all birds and is characterized by whitish thickened areas of the crop and proventriculus, erosions in the gizzard, and inflammation of the vent area. It is caused by a yeast-like fungus (Candida albicans).
    Poultry of all ages are susceptible to the effects of this organism. Chickens, turkeys, pigeons, pheasants, quail and grouse are species most commonly affected as well as other domestic animals and humans. The Candida organism is widely spread throughout the poultry producing areas of the world.
    Moniliasis is transmitted by ingestion of the causative organism in infected feed, water or environment. Unsanitary and unclean water troughs are an excellent reservoir of the Candida organism. The disease does not however, spread directly from bird to bird. The organism grows especially well on corn, so infection can be introduced by feeding moldy feed.
    This malady produces no specific symptoms. Young birds become listless, pale, show ruffled feathers and appear unthrifty. Affected caged layer hens become obese and anemic. Some birds exhibit a vent inflammation that resembles a diarrhea induced condition having whitish incrustations of the feathers and skin around the area. Feed consumption may increase by ten to twenty percent.
    Gross lesions are mostly confined to the crop, proventriculus and gizzard. The crop and proventriculus have whitish thickened areas that are often described as having a "turkish towel" appearance. Erosion of the lining of the proventriculus and gizzard is commonly observed, as well as an inflammation of the intestines. Diagnosis is based on history and typical lesions in the flock. Confirmation of the condition is by isolation and laboratory identification of the C. albicans organism.
    Treatment of the flock with an antimycotic drug will control the infection. Many broad spectrum antibiotics will enhance this disease; therefore they should not be used until after control of this condition is completed. Addition of Nystatin (100 g/Ton) or copper sulfate (2-3 lb/Ton) to the feed for seven to ten days should control moniliasis.
    Once introduced into the flock, moniliasis is perpetuated by suboptimal management conditions. Preventative measures include the continual use of mold inhibitors in the feed, proper feed handling and storage, daily cleaning and sanitizing of the watering system and periodic stirring and/or replacement of wet litter areas to prevent caking. An inexpensive, yet effective, water treatment is the continuous addition of household chlorine bleach to the drinking water at the rate of five parts per million (ppm).

  15. #15
    Accredited Merchant tjtcokngacademy's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    gamecock96
    tatodupaya
    apong_ambo
    ncyabut
    Thank you for all your inputs especially ncyabut who is an asset to this forum. I appreciate your opinions so keep them coming.

  16. #16
    Accredited Merchant tjtcokngacademy's Avatar
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    Jemayku

    In as much as I enjoy giving information in this thread, frankly.....its difficul to come up with an accurate diagnosis basing my evaluation from information written by someone. I am caught in between wanting to help and following the right ethics.
    Based on your information, I suspect that they died from FOWL TYPHOID.
    Gumboro is also a possibility and the confirmation of the diagnosis can be made through a necropsy by examining the visible changes in the cloacal bursa. If the bural sac (Fabricius) is normal then it is caused by>>???????

    Purulent Bursitis



    Above are different stages of inflammation of the Bursa Fabricii (serous to hemmorhagic) compared to normal size & appearance (below)
    Last edited by tjtcokngacademy; May 4th, 2007 at 11:31 AM.

  17. #17
    Accredited Merchant tjtcokngacademy's Avatar
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    jemayku

    I admire your very informative post and I suggest you read the portion about fowl typhoid. Let me quote from it:

    "Fowl typhoid is an infectious, contagious bacterial disease that is usually acute but sometimes chronic. It affects most domestic and wild fowl including chickens, turkeys, ducks, pigeons, pheasants and other game birds. It must not be confused with typhoid fever in humans that is caused by a distinctly different organism.
    The cause in the bacterium, Salmonella gallinarum. Methods of transmission are the same as for pullorum disease, including egg transmission. However, mechanical transmission is more prevalent with this disease than with pullorum disease.
    Any age bird can be infected, but the disease primarily occurs in young adults (usually those older than twelve weeks of age). Mortality varies from less than one to about forty percent, but higher mortality has been observed. Signs include sudden or sporadic mortality, listlessness, green or yellow diarrhea (accompanied with pasting of the vent feathers), loss of appetite, increased thirst and a pale, anemic appearance of comb and wattles.
    A tentative diagnosis may be made from the history, signs and lesions but final diagnosis must be based on isolation and identification of the causative organism. Lesions observed at necropsy help verify a diagnosis of fowl typhoid. The lesions include an enlarged and mottled spleen, enlarged liver (colored yellow or greenish brown), small pinpoint hemorrhages in muscles and fat surrounding internal organs, and a slimy inflammation of the front third of the small intestine. Small, white plaque-like areas are visible through the walls of the intestine is suggestive of fowl typhoid in turkeys. Blood tests used to detect pullorum reactors are also used to identify fowl typhoid birds.
    Prevention and control depend heavily upon basic disease prevention practices including the hatching chicks from disease-free flocks (as determined by pullorum testing), practicing strict sanitation on the farm, providing clean feed and water, and proper disposal of all dead birds as approved by the state animal health agency. The causative organism can live outside the bird body for at least six months, thus requiring extra management precautions to break the disease cycle. Following an outbreak, thoroughly clean and disinfect the premises. When feasible, practice range rotation and other special precautions to prevent the carryover of infection to the following flock.
    Drugs cannot be depended upon as a means of typhoid prevention and are not recommended for that purpose. Infected birds may be salvaged using the same drugs as used to salvage pullorum infected birds."


    Fowl Typhoid (FT) is a septicemic disease of gamefowl. The course may be acute or chronic. Signs are swollen liver, catarthral inflammation of the intestine, proliferative lesions in the intestinal and heart walls {pericarditis-myocardium} and enlarged spleen.



    Lastly I would like to suggest some management and preventive procedures to control an outbreak:
    1. Proper disposal of dead birds is essential.
    2. Free flying birds, rats & mice are carrieirs of salmonella.
    3. Insect control is important particularly flies & poultry mites.
    4. Provide clean water at all times. Water coming from a contaminated deep well is usually the main culprit.

    I hope this can be of help to you as I have reserved the rest for my academy students. Some important details are best explained verbally & through actual demo.
    Last edited by tjtcokngacademy; May 4th, 2007 at 12:10 PM.

  18. #18
    Senior Member jemayku's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    Doc Teddy,

    Thank you very much for the advise. You are a great help to us.

    When time permits I will send my farm manager to your academy.

    I'm friend of Andoy Malinao.

    Once again thank you Doc.

  19. #19
    TrippleA
    Guest

    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    I've just read the information about the prevention of the deseases. Thanks Doc.

  20. #20
    TrippleA
    Guest

    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    I've just read the information about the prevention of the deseases. Thanks Doc.

  21. #21
    Senior Member rodrigoski2002's Avatar
    Join Date
    Jun 2006
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    very nice thread!very informative.

  22. #22
    D.G.F
    Guest

    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    I would be looking at Avian Leucosis ( spelling may be wrong).
    Do you have any older fowl that have gotten light eyed after about 2 years of age and possibly gone blind or started head knocking?
    Read up on this Disease it is very interesting
    Cheers

  23. #23
    Accredited Merchant tjtcokngacademy's Avatar
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    Re: Died chicks (1-3 months old) with heart, liver and intestine inflammation

    As the saying goes....An ounce of prevention is worth a pound of cure.
    TJT Cocking Academy
    March 19, 20 & 21

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