Difference between revisions of "Lamb Dysentery"
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Positive ELISA rtest results for identification of toxins in intestinal contents or peritoneal fluid support, but do not confirm the diagnosis because iimmune animals may have high concentrations of toxin but not suffer from its effects. | Positive ELISA rtest results for identification of toxins in intestinal contents or peritoneal fluid support, but do not confirm the diagnosis because iimmune animals may have high concentrations of toxin but not suffer from its effects. | ||
| − | watt: | + | |
| − | + | watt: similar lesions has been described involving | |
| − | + | Cl wet1ihil type C.) The causal organism is readily demonstrated | |
| − | + | on1 s.mear anld its cxact identity can be conifirmed in the | |
| − | Cl wet1ihil type C.) | + | laboratory. |
===Pathology=== | ===Pathology=== | ||
Revision as of 17:17, 24 August 2010
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This article is still under construction. |
Also known as: Clostridium perfringens type B Enterotoxaemia
Description
Lamb dysentery is a peracute and fatal enterotoxaemia of young lambs caused by the beta and epsilon toxins of Clostridium perfringens type B. C. perfringens is a large, gram positive, anaerobic bacillus that is ubiquitous in the environment and commensalises the gastrointestinal tract of most mammalsivis. Five genotypes of Clostridium perfringens exist, named A-E, and all genotypes produce potent exotoxins. There are 12 exotoxins in total, some of which are lethal and others which are of minor significancelewis. These are produced as pro-toxins, and are converted to their toxic froms by digestive enzymes. The enterotoxaemias are a group of diseases caused by proliferation of C. perfringens in the lumen of the gastrointestinal tract and excessive production of exotoxin.
In healthy animals, there is a balance between multiplication of Clostridium perfringens and its passage in the faeces. This ensures that infection is maintained at a low level. However, C. perfringens is saccharolytic and is therefore able to multiply rapidly when large quantities of fermentable carbohydrate are introduced to the anaerobic conditions of the abomasum and small intestine, leading to build-up of exotoxin. Gut statis, for example due to insufficient dietray fibre or a high gastrointestinal parasite burden, can also contribute to the accumulation of toxins.
Enterotoxaemia due to Clostridium perfringens type B causes severe enteritis and dysentery with a high mortality in young lambs and also calves, pigs, and foals. The β toxin highly necrotizing and lethal β toxin that is responsible for severe intestinal damage. This toxin is sensitive to proteolytic enzymes, and disease is associated with inhibition of proteolysis in the intestine. Sow colostrum, which contains a trypsin inhibitor, has been suggested as a factor in the susceptibility of young piglets. Type C also causes enterotoxemia in adult cattle, sheep, and goats. The diseases are listed below, categorized as to cause and host. C perfringens also has been associated with hemorrhagic enteritis in dogs. (See also intestinal diseases in horses, Intestinal Diseases in Horses and Foals: Introduction.) Lamb dysentery: type B in lambs up to 3 wk of age
Signalment
Diagnosis
The initial diagnosis of enterotoxaemia is made on the basis of history of sudden deaths in well-grown, unvaccinated lambs fed on a carbohydrate rich diet, supported by post-mortem finsings. Positive ELISA rtest results for identification of toxins in intestinal contents or peritoneal fluid support, but do not confirm the diagnosis because iimmune animals may have high concentrations of toxin but not suffer from its effects. The diagnosis can be confirmed by brain histopathology.
Clincal Signs
Affected lambs are usually less than two weeks old, but sporadic suffen death of stronger single lambs does occur. Lambs may be seen with acute abdominal pain but die within four hours. Faeces are usually normal, but can be semi-fluid and blood stained.
merck: Lamb dysentery is an acute disease of lambs <3 wk old. Many may die before signs are seen, but some newborn lambs stop nursing, become listless, and remain recumbent. A fetid, blood-tinged diarrhea is common, and death usually occurs within a few days
songer: In lambs, inappetence, abdominal pain and bloody diarrhea are followed by recumbency and coma. Lesions consist primarily of hemorrhagic enteritis, with evidence of enterotoxemia (Frank, 1956). Chronic disease in older lambs (’pine’) is characterized by chronic abdominal pain without diarrhea
Laboratory Tests
Positive ELISA rtest results for identification of toxins in intestinal contents or peritoneal fluid support, but do not confirm the diagnosis because iimmune animals may have high concentrations of toxin but not suffer from its effects.
watt: similar lesions has been described involving
Cl wet1ihil type C.) The causal organism is readily demonstrated
on1 s.mear anld its cxact identity can be conifirmed in the
laboratory.
Pathology
Hemorrhagic enteritis with ulceration of the mucosa is the major lesion in all species. Grossly, the affected portion of the intestine is deep blue-purple and appears at first glance to be an infarction associated with mesenteric torsion. Smears of intestinal contents can be examined for large numbers of gram-positive, rod-shaped bacteria, and filtrates made for detection of toxin and subsequent identification by neutralization with specific antiserum
- The gut is blown and distended with foamy ,bloody contents.
- Sometimes ulceration with perforation and fibrinousperitonitis is seen.
- Focal or diffuse congestion and haemorrhage
- Coagulative necrosis of villi.
- Oedema.
- Haemorrhage.
- Influx of inflammatory cells in the lamina propria and submucosa.
Treatment
Presentation of lamb dysentery is usually peracute, with sudden deaths occuring before treatment can be implemented. Even if animals are seen in the stages of disease preceeding death, treatment is usually ineffective. Suggested drugs include oral antibiotics and specific hyperimmune serumMerck.
Lamb dysentery can be controlled through vaccination against clostridial diseases. Before ewes enter the breeding flock, they should be given two vaccinations separated by an interval of 4-6 weeks. An annual booster should be given about six weeks before lambing to afford passive protection to lambs until around sixteen weeks of age. Lambs born to unvaccinated ewes should themselves be vaccinated at between 3 and 12 weeks old, with a second injection given at least four weeks later. Good husbandry is also critical to the control of lamb dysentery. Lambing is a particularly important period where supervision and hygiene should be maintainted and adequate colostrum intake should be ensured. Care should be taken when introducing animals to an improved plane of nutrition.
watt: In the face of ain outbreak each lamb born must be treated with atntiserumii and a programme of ewe % accination instituted be tote subsequent lambings.
Links
References
- Merck & Co (2008) The Merck Veterinary Manual (Eighth Edition), Merial.
- The Center for Food Security and Public Health, Iowa State University (2004) Animal Disease Factsheet: Epsilon toxin of Clostridium Perfringens.
- Songer, J G (1998) Clostridial diseases of small ruminants. Veterinary Research, 29, 219-232.
- Van Metre (2006) Clostridial Infections of the Ruminant GI Tract. Proceedings of the North American Veterinary Conference 2006
- Lewis, (1998) C Aspects of clostridial disease in sheep. In Practice, 20(9), 494-499.