Diferencia entre revisiones de «Fiebre Efímera Bovina»
(Página creada con 'Also Known As: ''''' BEF — Lazy Man’s Disease — Stiff Sickness — 3 day Sickness — Dragon Boat Disease — Vil — Bovine Epizootic Fever — Stiffsiekte (South Africa)...') |
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− | + | Tambien conocido como: '''''Epizootia Bovina - Fiebre Efímera - Enfermedad de los Tres Días - Enfermedad de la Rigidez de los Tres Días, Antiguamente “Enfermedad del Barco del Dragón” - “Enfermedad del Holgazán” - Dengue del Ganado Bovino''''' | |
− | == | + | Producido por: '''''Virus de la Fiebre Efímera Bovina - (VFEB)''''' |
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+ | ==Introducción== | ||
Bovine Ephemeral Fever is caused by an RNA virus – a [[Rhabdoviridae|rhabdovirus]]. Typically there is a sudden onset of fever with a sudden milk drop. It is transmitted rapidly with evident lameness, depression and often anorexia. Recovery is often rapid – 3 day fever. Morbidity can be up to 100% but mortality is low (1-2%). | Bovine Ephemeral Fever is caused by an RNA virus – a [[Rhabdoviridae|rhabdovirus]]. Typically there is a sudden onset of fever with a sudden milk drop. It is transmitted rapidly with evident lameness, depression and often anorexia. Recovery is often rapid – 3 day fever. Morbidity can be up to 100% but mortality is low (1-2%). | ||
Revisión del 19:34 7 ago 2011
Tambien conocido como: Epizootia Bovina - Fiebre Efímera - Enfermedad de los Tres Días - Enfermedad de la Rigidez de los Tres Días, Antiguamente “Enfermedad del Barco del Dragón” - “Enfermedad del Holgazán” - Dengue del Ganado Bovino
Producido por: Virus de la Fiebre Efímera Bovina - (VFEB)
Introducción
Bovine Ephemeral Fever is caused by an RNA virus – a rhabdovirus. Typically there is a sudden onset of fever with a sudden milk drop. It is transmitted rapidly with evident lameness, depression and often anorexia. Recovery is often rapid – 3 day fever. Morbidity can be up to 100% but mortality is low (1-2%).
Due to its geographical distribution and association with heavy precipitation, BEF can occur simultaneously with epizootics of Rift Valley Fever.
BEF is not zoonotic.
This disease is notifiable to the World Organisation for Animal Health (OIE).
Distribution
The virus occurs in Asia, Africa, Australia and Pacific islands. It is transmitted by a range of insect vectors including mosquitoes and midges. This is the ONLY route of disease transmission.
Signalment
Cattle and buffalo appear to be the only natural host of BEF. The disease is more severe in fat, lactating and heavily pregnant cows and bulls/steers.
In tropical regions, disease occurs in the wet season, while in temperate countries, it tends to present throughout Spring, Summer and Autumn.
When outbreaks occur annually or semi-annually, younger animals tend to be infected and so the economic impact is often less. Hence, the less frequent epidemics are, the more severe they tend to be.
Clinical Signs
The main clinical signs are very high fever, dehydration and animals often refuse to drink. Many signs are attributable to the hypocalcaemia caused by BEF.
Lymphadenopathy may be a feature as well as stiffness and lameness in the limbs with tremors/spasms and possible recumbency.
Gastrointestinal disease may present as hypomotility and constipation but occasionally there can be diarrhoea. Pregnant cattle may abort whilst infertility can occur in either sex. Cows may develop agalactia.
Other signs may include dullness, depression, lethargy and coma in severe cases. Some animals develop respiratory disease and subcutaneous emphysema, oedema and crepitation.
Hot, moist weather increases mortality in epidemics.
Mild cases - <18mo old, ocular and nasal discharge, lameness, inappetance, fever, recovery in 1-2days.
Moderate – Severe depression, recumbency, respiratory signs, salivation and dehydration, rumenal atony, milk reduction.
Severe – lateral recumbency, paralysis, reflex loss, subcutaneous emphysema, tachycardia and tachypnoea, mortalities. Residual paralysis may remain after resolution of fever.
Viraemia usually lasts 3-5 days after which recovery is rapid and natural immunity is long lasting.
Diagnosis
Diagnosis is often based on clinical observations of various stages of disease present simultaneously and history of sudden onset outbreaks on the farm or neighbouring units.
Isolation of virus from blood taken during pyrexic phase is the gold standard laboratory method of diagnosis, but is demanding. Molecular diagnosis is preferred these days. The virus can also be identified by immunofluorescence or immunostaining.
A rising antibody titre when sampled during fever and 2 weeks later is also confirmatory.
On post-mortem, generalised inflammatory changes are evident with neutrophilic infiltration of tissues and muscle necrosis. Straw coloured fibrinous fluid is often present in several cavities.
Treatment
Calcium borogluconate and/or NSAIDs will resolve many clinical signs and reduce pyrexia. All should be injected as swallowing reflex may be dysfunctional.
Draught cattle need rest for at least one week after recovery or further mortalities may occur.
Control
Vaccines are available in Japan, Australia and South Africa. Annual boosters are essential to maintain immunity. All are expensive for use in developing countries.
Vector control is theoretical and almost impossible. Quarantine also has no impact upon local spread due to vector transmission. Movement regulations vary with country and time and should be adhered to.
Cattle in good health usually recover quickly and have a long lasting immunity.
References
Fiebre Efímera Bovina Entorno de Enseñanza Virtual | |
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Flashcards Comprobar tus conocimientos utilizando preguntas de tipo Flashcard |
Bovine Ephemeral Fever Flashcards |
Este artículo fue originalmente de The Animal Health & Production Compendium (AHPC) publicado en el web por CABI. Hoja(s) de datos utilizados: Bovine Ephemeral Fever and Bovine Emphemeral Fever Virus el 16/06/2011 |
Este artículo ha sido revisado por el experto Prof Joe Brownlie DSc BVSc PhD FRCVS FRCPath DipECVP Fecha de revisión: July 8, 2011 |