Changes

Bovine Viral Diarrhoea Virus (view source)

Revision as of 13:52, 24 August 2010

1,059 bytes removed , 13:52, 24 August 2010

→‎Treatment and Control

Line 98: Line 98:

==Treatment and Control==

−

Once a herd’s status has been established, BVDV control measures can be implemented. Previously, PI animals have been used as natural “vaccinators” to increase herd immunity, although naïve animals must endure acute infection before this is achieved. Eradication by identification and culling of PI animals is possible, having been successfully accomplished in Scandinavia. However, this gives many seronegative, susceptible animals which is an imperfect solution for those units not completely biosecure or highly committed to the scheme. Killed and live vaccines afford a good level of protection providing they are used correctly and boosted regularly. A combination of eradication and vaccination gives the best level of control (Brownlie et. al, 2000), and the development of “marker” vaccines that allow natural- and vaccine-induced immunity to be distinguished will help this cause in future.

−

*No known treatment to reverse persistent infection or to cure mucosal disease

−

**'''Beta-propiolactone inactivated''' vaccine

−

**Combine with screening for antigen and removal of PI animals

Treatment of BVD is limited primarily to supportive therapy. Control is based on sound management practices that include use of biosecurity measures, elimination of persistently infected cattle, and vaccination. Replacement cattle should be tested for persistent infection before entry into the herd. Quarantine or physical separation of replacement cattle from the resident herd for 2-4 wk should be considered, and vaccination of replacement cattle for BVD should be done before commingling with the resident herd. Embryo donors and recipients also should be tested for persistent infection. If vaccination of embryo donors or recipients is warranted, it should be done at least 1 estrous cycle before embryo transfer is performed. Because BVDV is shed into semen, breeding bulls should be tested for persistent infection before use. Artificial insemination should be done only with semen obtained from bulls free of persistent infection.

Screening cattle herds for persistent infection is done by virus isolation from serum or buffy coat cells, antigen-capture ELISA from serum or buffy coat, or antigen detection in skin biopsies. Several strategies, based on herd size, type of herd being screened, financial limitations of the herd owner, and testing ability of the diagnostic laboratory being used, are available to screen herds for persistent infection. When identified, persistently infected cattle should be sold for slaughter as soon as possible.

Inactivated and modified live virus vaccines are available. They contain a variety of strains of BVDV representing both viral biotypes and viral genotypes 1 and 2. Antigenic diversity among BVDV may affect the efficacy of a given vaccine if the vaccine virus or viruses differ significantly from the challenge virus. Proper and safe immunization of cattle with either inactivated or modified live virus vaccines requires adherence to the manufacturer’s instructions. Because BVDV is fetotropic and may be immunosuppressive, use of modified live virus vaccines is not recommended in cattle that are pregnant or showing signs of disease. Inactivated viral vaccines may be used in pregnant cattle. Protection conferred by inactivated vaccines may be of short duration, and frequent vaccination may be necessary to prevent disease or reproductive failure. Colostral antibody confers partial to complete protection against disease in most calves for 3-6 mo after birth. Vaccination of neonatal cattle that have acquired colostral antibody may not stimulate a protective immune response, and revaccination at 5-9 mo of age may be necessary.

+

''Beta-propiolactone inactivated''' vaccine

==Links==

Lizzies

6,502

edits