Favus+Aflatoxicosis
Total Page:16
File Type:pdf, Size:1020Kb
Dermatomycosis or Favus or “Ringworm” Etiology Microsporum or Trichophyton gallinae Transmission The fungus is spread by direct contact or by contaminated cages or transport coops. Clinical Signs and lesions Grey to white scaly lesions appear on the comb and wattles, especially in young birds These spots increase in size and join together to form dirty grayish-wrinkled crusts Feather loss may occur if lesions extend to the neck and body of the bird Microspoic lesion Acanthosis, hyperkeratosis and dermatitis Diagnosis Culture on Sabourauds dextrose agar Microscope: characteristic hyphae Treatment Application of a 2% quaternary ammonium disinfectant, 1% tincture of iodine, or 5% formalin will eliminate the infection. Prevention Biosecurity precautions should be implemented to avoid introducing infected birds to the flock. Transport crates and other equipment should be thoroughly decontaminated and disinfected to prevent lateral transmission of the agent. Grayish-white circinate spots Feather fall out in patches Aflatoxicosis Growing fungi (moulds) produce a large number of chemicals as by-products and secrete them into surrounding substances. Some are toxic to birds. These toxic by-products are called 'mycotoxins' or 'fungal toxins'. Among them, aflatoxin is the most common and also the most important mycotoxin likely to be consumed by poultry. Aflatoxins are highly toxic mycotoxins produced by various species of fungus Aspergillus. The fungus produces aflatoxin in warm, high humidity conditions, such as rainy season. Aflatoxins can withstand extreme environmental conditions and are very heat stable. Aflatoxin contamination is therefore more common in grains in a tropical country like ours. Young birds are more sensitive to aflatoxin than adults. Harmful Effects of Aflatoxin Affects weight gain Affects feed intake Affects feed conversion efficiency (FCR) Affects egg production Affects male and female reproductive performance Increases susceptibility to infectious diseases due to immunosuppression Egg size, yolk weight, and yolk as percentage of total egg size, are decreased Even less than 100 ppb (parts per billion) in broilers, can result in poor feed conversion and reduced weight gain, which may be due to liver damage and reduced nutrient absorption Symptoms In growing birds, there is decreased growth and poor feed conversion There is also marked decrease in the resistance of birds to infections, such as coccidiosis and Gumboro disease, due to immunosuppression Affected hens have decreased egg production. Also, the hatchability of eggs is reduced Postmortem Findings Liver is greatly enlarged, yellow and friable (easily broken) Small haemorrhages may occur due to increased fragility of minute blood vessels. This leads to a condition known as 'bloody thigh syndrome' Diagnosis Symptoms and postmortem findings would indicate aflatoxicosis Confirmation requires identification of the level of toxin present in the feed Treatment Toxic feed should be removed and replaced with uncontaminated feed Increase the dietary levels of protein. Increase also the vitamin supplementation Supply of methionine and other sulphur-containing amino acids should be increased Poor management, if present, should be improved Liver tonics may be given Increase also the supplementation of vitamin E and selenium Control Purchase a clean feed stuff. Check the ingredients before purchase. Monitor feed ingredients for levels of mycotoxins. Discard the grains suspected of contamination. That is, mouldy and caked feed. Keep the moisture of grains less than 12%. Sun drying is the best method to prevent mould growth. However, it does not destroy the toxin. Store the feed and ingredients in well ventilated dry place. Avoid storage of feed for more than a week. Withdraw toxin contaminated feed immediately. The most practical way to control aflatoxicosis is through the effective use of mould inhibitors and broad-spectrum toxin binders. .