Difference between revisions of "Blue Eye Disease"

From WikiVet English
Jump to navigation Jump to search
 
(20 intermediate revisions by 3 users not shown)
Line 1: Line 1:
Also known as: '''''Blue-eye'''''—'''''BE'''''—'''''Blue eye syndrome'''''—'''''Porcine paramyxovirus blue eye disease'''''—'''''PPBED'''''.
+
{{OpenPagesTop}}
 +
{{Podcasts
 +
|link = http://media.bloomsburymediacloud.org/podcasts/wikivet-english/blue-eye-disease}}
 +
Also known as: '''''Blue-eye''''' — '''''BE''''' — '''''Blue Eye Syndrome''''' — '''''Porcine Paramyxovirus Blue Eye Disease''''' — '''''PPBED'''''
 +
'''''Porcine Paramyxovirus''''' — '''''Porcine Rubulavirus''''' — '''''Blue Eye Paramyxovirus''''' — '''''BEP''''' — '''''BEPV'''''
 +
{{Taxobox
 +
|name              =''Scientific Classification''
  
 +
|kingdom            = Virus
 +
|sub-kingdom        =
 +
|phylum            =
 +
|super-class        =
 +
|class              =
 +
|sub-class          =
 +
|super-order        =
 +
|order              = Mononegavirales
 +
|sub-order          =
 +
|super-family      =
 +
|family            = [[:Category:Paramyxoviridae|Paramyxoviridae]]
 +
|sub-family        =
 +
|genus              = Rubulavirus
 +
|species            = Blue-eye paramyxovirus
 +
}}
 
==Introduction==
 
==Introduction==
Blue eye disease is caused by the virus [[Blue-Eye Paramyxovirus|'''''Blue-eye paramyxovirus (BEP)''''']]. It causes '''nervous, reproductive''' and '''respiratory signs''' in its domestic host, the pig. The disease is not considered a zoonosis.
+
Blue eye disease is caused by the virus '''''Blue-eye paramyxovirus (BEPV)''''', which is a negative sense single stranded RNA (ssRNA) virus. It is closely related to the ''Mumps virus'' and ''Simian virus 5'' and is classified under the family [[:Category:Paramyxoviridae|'''''Paramyxoviridae''''']]. The virus is 135-148nm by 257-360nm, has a buoyant density in sucrose gradients of 1.21 g/ml and is considered to be '''polymorphic''' (but mainly spherical). BEPV envelope is covered in surface projections and the envelope nucleocapsid expresses hemagglutinin-neuraminidase and fusion and matrix proteins. The virus consists of six structural proteins  and is '''resistant''' to  '''actinomycin D''' and '''sensitive''' to '''chloroform, formalin''' and '''beta propiolactone'''.
 +
 
 +
It causes '''nervous, reproductive''' and '''respiratory signs''' in its domestic host, the pig. The disease is not considered a zoonosis.
  
 
==Signalment==
 
==Signalment==
 +
Domestic hosts include dogs, cats and pigs and wild hosts include rabbits, rats, ferral cats and dogs and [http://en.wikipedia.org/wiki/Peccary Peccary's].  The '''virus only shows clinical signs in pigs''' but antibodies can be detected in rabbits, rats, dogs and cats.
 +
 
The disease affects '''all age ranges of pigs''' and also causes '''reproductive disorder in the boar'''.
 
The disease affects '''all age ranges of pigs''' and also causes '''reproductive disorder in the boar'''.
  
Line 15: Line 40:
 
'''Piglets and Weaners:'''
 
'''Piglets and Weaners:'''
  
Piglet and weaners suffer from prostration, hind limb '''stiffness''', generalised weakness, muscle fasciculation’s, retarded growth, depression, excitation, head pressing, circling, '''hyperaesthesia''', abnormal behaviour/'''aggression''' and '''coma'''. In piglets the disease also causes '''changes in hair coat''' (dull/rough), '''ocular erosions''', '''enlarged distended bladder''' and  '''constipation/reduction in faces or diarrhoea'''.
+
Piglet and weaners suffer from prostration, hind limb '''stiffness''', generalised weakness, muscle fasciculations, retarded growth, depression, excitation, head pressing, circling, '''hyperaesthesia''', abnormal behaviour/'''aggression''' and '''coma'''. In piglets the disease also causes '''changes in hair coat''' (dull/rough), '''ocular erosions''', '''enlarged distended bladder''' and  '''constipation/reduction in faeces or diarrhoea'''.
  
 
'''Sows:'''
 
'''Sows:'''
  
In sows the disease causes '''infertility''', reproductive failures, '''embryonic mortality''' and '''return to oestrus in the first third of gestation''' and '''stillbirths, small litters''' and '''mummification in late gestation'''.  
+
In sows the disease causes '''infertility''', reproductive failures, '''embryonic mortality''', '''return to oestrus in the first third of gestation''' and '''stillbirths, small litters''' and '''mummification in late gestation'''.  
  
 
'''Boars:'''
 
'''Boars:'''
  
In the boar it causes male '''infertility, lack of libido, haemospermia''', and '''orchitis with epidydimitis''' and swelling of the genitals.
+
In the boar it causes '''infertility, lack of libido, haemospermia''', and '''orchitis with epidydimitis''' and swelling of the genitals.
  
 
==Epidemiology==
 
==Epidemiology==
The virus can be found in the '''axon of neurons''' from its original site of replication, which is thought to be the '''nasal mucosa and tonsils'''.  It is also found   in tissues such as lung, liver, spleen, kidney, lymph node, heart and testis; suggesting that the virus is spread hematogenously.
+
BEPV is spread via direct contact, fomites and possibly birds. The virus can be found in the '''axon of neurons''' from its original site of replication, which is thought to be the '''nasal mucosa and tonsils'''.  It is also found in tissues such as lung, liver, spleen, kidney, lymph node, heart and testis; suggesting that the virus is spread haematogenously.
 +
 
 +
The virus has cytopathic effects on these tissues as causes individual rounded cells, cytoplasmic vacuoles, and syncytium formation, dead cells detachment, which leave small plaques. Viral inclusion bodies can be seen in some cells.
  
 
==Distribution==
 
==Distribution==
The disease is economically important to '''Central Mexico and its states'''.
+
The disease appears restricted to '''Central Mexico and its states'''.
  
 
==Diagnosis==
 
==Diagnosis==
 
''Blue-eyed disease'' can be diagnosed by a combination of history, above clinical signs, serology, lesions and virus isolation.
 
''Blue-eyed disease'' can be diagnosed by a combination of history, above clinical signs, serology, lesions and virus isolation.
  
A week after infection a serological response can be seen using a '''virus neutralization test''' and 2 weeks later with a '''haematoglutination inhibition test'''.  
+
A week after infection a serological response can be seen using a '''virus neutralization test''' and 2 weeks later with a [[Agglutination|'''haematoglutination inhibition test''']].  
  
 
The diagnosis can be '''confirmed''' using '''virus isolation''' on PK15 or primary pig kidney, using samples from infected tonsils, brain or lung.
 
The diagnosis can be '''confirmed''' using '''virus isolation''' on PK15 or primary pig kidney, using samples from infected tonsils, brain or lung.
  
During infection '''lymphocytosis''' and '''monocytosis''' may be observed.
+
During infection '''[[lymphocytosis]]''' and '''[[monocytosis]]''' may be observed.
  
On '''post mortem''' all age ranges have corneal opacity which is mainly unilateral. Piglets show evidence of mild pneumonia, distended bladder and stomach, fibrin strands in the peritoneal cavity and '''congestion in the brain'''. Growers show kidney and '''pericardial haemorrhages''' as well as brain congestion. '''Necrosis of the seminiferous tubules''' and rupture of the epidydimis walls and subsequent abscess and granuloma formation has been documented in boars.
+
On '''post mortem''' all age ranges have corneal opacity which is mainly unilateral. Piglets show evidence of mild pneumonia, distended bladder and stomach, fibrin strands in the peritoneal cavity and '''congestion in the brain'''. Growers show kidney and '''pericardial haemorrhages''' as well as brain congestion. '''Necrosis of the seminiferous tubules''' and rupture of the epidydimis walls and subsequent abscess and granuloma formation has been documented in boars.
  
'''Differential diagnosis''': [[Porcine Reproductive and Respiratory Syndrome| ''PRRS'']] and [[Suid Herpesvirus 1| ''Pseudorabies'']].
+
'''Differential diagnoses''': [[Porcine Reproductive and Respiratory Syndrome|''PRRS'']] and [[Suid Herpesvirus 1|''Pseudorabies'']].
  
 
==Treatment==
 
==Treatment==
 
There is '''no treatment''' for ''Blue eye disease''. '''Supportive medication''' for respiratory and inflammatory disease should be administered.
 
There is '''no treatment''' for ''Blue eye disease''. '''Supportive medication''' for respiratory and inflammatory disease should be administered.
 +
 +
Euthanasia may be necessary for ataxic pigs.
  
 
==Control==
 
==Control==
The disease is '''self limiting''' and closed herds will have sporadic outbreaks of the disease once a herd is infected. There is '''no approved vaccine''' for the control of blue eye disease but killed-virus vaccine has been shown to be effective <ref name="Stephano et al., 1992"> Stephano, H.A., Olvera, M.J., Garcia, V.P., Ramirez, M.H., Cordoba, D.J. (1992). '''Eficacia de una vacuna inactivada para la prevencion de la infeccion por el paramyxovirus de ojo azul'''. ''Mem 27th Congr Assoc Mex Vet Esp Cerdos. Acapulco, Gro''., 24-28.</ref>.  Preventative health programmes to prevent the spread of the disease are the most effective methods of control. Eliminating blue eye disease from affected herds can be achieved by '''closing the herd, running an all-in/all-out systems''', and following good '''washing and disinfecting protocols'''.
+
The disease is '''self limiting''' and closed herds will have sporadic outbreaks of the disease once a herd is infected. There is '''no approved vaccine''' for the control of blue eye disease but killed-virus vaccine has been shown to be effective <ref name="Stephano et al., 1992"> Stephano, H.A., Olvera, M.J., Garcia, V.P., Ramirez, M.H., Cordoba, D.J. (1992). '''Eficacia de una vacuna inactivada para la prevencion de la infeccion por el paramyxovirus de ojo azul'''. ''Mem 27th Congr Assoc Mex Vet Esp Cerdos. Acapulco, Gro''., 24-28.</ref>.  Preventative health programmes to prevent the spread of the disease are the most effective methods of control. Eliminating blue eye disease from affected herds can be achieved by '''closing the herd, running an all-in/all-out systems''', and following good '''washing and disinfecting protocols'''.
 +
 
 +
 
 +
{{Learning
 +
|flashcards = [[Blue Eye Disease Flashcards]]
 +
}}
 +
 
  
 
==References==
 
==References==
 +
 
<references/>
 
<references/>
  
{{Learning
+
{{CABI source
|flashcards = [[Blue Eye Disease Flashcard]]
+
|datasheet = [http://www.cabi.org/ahpc/?compid=3&dsid=91518&loadmodule=datasheet&page=2144&site=160 blue eye disease] and [http://www.cabi.org/ahpc/?compid=3&dsid=91519&loadmodule=datasheet&page=2144&site=160 blue eye paramyxovirus]
 +
|date = 11 June 2011
 
}}
 
}}
 +
<br><br>
 +
 +
{{Mandy Nevel
 +
|date = 9 September 2011}}
 +
  
 +
{{OpenPages}}
  
[[Category:To Do - CABI review]]
+
[[Category:Pig Viruses]]
 +
[[Category:Paramyxoviridae]]
 +
[[category:Neurological Diseases - Pig]][[Category:Respiratory Diseases - Pig]][[Category:Reproductive Diseases - Pig]]
 +
[[Category:CABI Expert Review Completed]][[Category:CABI AHPC Pages]]

Latest revision as of 12:27, 17 August 2012


WVpodcasts.png
Listen to Page Podcast or download via iTunes

Also known as: Blue-eyeBEBlue Eye SyndromePorcine Paramyxovirus Blue Eye DiseasePPBEDPorcine ParamyxovirusPorcine RubulavirusBlue Eye ParamyxovirusBEPBEPV

Scientific Classification
Kingdom Virus
Order Mononegavirales
Family Paramyxoviridae
Genus Rubulavirus
Species Blue-eye paramyxovirus

Introduction

Blue eye disease is caused by the virus Blue-eye paramyxovirus (BEPV), which is a negative sense single stranded RNA (ssRNA) virus. It is closely related to the Mumps virus and Simian virus 5 and is classified under the family Paramyxoviridae. The virus is 135-148nm by 257-360nm, has a buoyant density in sucrose gradients of 1.21 g/ml and is considered to be polymorphic (but mainly spherical). BEPV envelope is covered in surface projections and the envelope nucleocapsid expresses hemagglutinin-neuraminidase and fusion and matrix proteins. The virus consists of six structural proteins and is resistant to actinomycin D and sensitive to chloroform, formalin and beta propiolactone.

It causes nervous, reproductive and respiratory signs in its domestic host, the pig. The disease is not considered a zoonosis.

Signalment

Domestic hosts include dogs, cats and pigs and wild hosts include rabbits, rats, ferral cats and dogs and Peccary's. The virus only shows clinical signs in pigs but antibodies can be detected in rabbits, rats, dogs and cats.

The disease affects all age ranges of pigs and also causes reproductive disorder in the boar.

Clinical Signs

Generally pigs suffer from anorexia, weight loss, reluctance to move, dehydration, periorbital and conjunctival swelling (chemosis) and purulent/serous ocular discharge and corneal opacity. The virus also causes neurological signs including tetraparesis, opisthotonus, dysmetria, proprioceptive disorders, tremors, nystagmus mydriasis, blindness, decreased or absent menace response and respiratory signs; tachypnea, dyspnea, and open mouthed breathing.

In addition the virus affects different age group and sexes in the following ways:

Piglets and Weaners:

Piglet and weaners suffer from prostration, hind limb stiffness, generalised weakness, muscle fasciculations, retarded growth, depression, excitation, head pressing, circling, hyperaesthesia, abnormal behaviour/aggression and coma. In piglets the disease also causes changes in hair coat (dull/rough), ocular erosions, enlarged distended bladder and constipation/reduction in faeces or diarrhoea.

Sows:

In sows the disease causes infertility, reproductive failures, embryonic mortality, return to oestrus in the first third of gestation and stillbirths, small litters and mummification in late gestation.

Boars:

In the boar it causes infertility, lack of libido, haemospermia, and orchitis with epidydimitis and swelling of the genitals.

Epidemiology

BEPV is spread via direct contact, fomites and possibly birds. The virus can be found in the axon of neurons from its original site of replication, which is thought to be the nasal mucosa and tonsils. It is also found in tissues such as lung, liver, spleen, kidney, lymph node, heart and testis; suggesting that the virus is spread haematogenously.

The virus has cytopathic effects on these tissues as causes individual rounded cells, cytoplasmic vacuoles, and syncytium formation, dead cells detachment, which leave small plaques. Viral inclusion bodies can be seen in some cells.

Distribution

The disease appears restricted to Central Mexico and its states.

Diagnosis

Blue-eyed disease can be diagnosed by a combination of history, above clinical signs, serology, lesions and virus isolation.

A week after infection a serological response can be seen using a virus neutralization test and 2 weeks later with a haematoglutination inhibition test.

The diagnosis can be confirmed using virus isolation on PK15 or primary pig kidney, using samples from infected tonsils, brain or lung.

During infection lymphocytosis and monocytosis may be observed.

On post mortem all age ranges have corneal opacity which is mainly unilateral. Piglets show evidence of mild pneumonia, distended bladder and stomach, fibrin strands in the peritoneal cavity and congestion in the brain. Growers show kidney and pericardial haemorrhages as well as brain congestion. Necrosis of the seminiferous tubules and rupture of the epidydimis walls and subsequent abscess and granuloma formation has been documented in boars.

Differential diagnoses: PRRS and Pseudorabies.

Treatment

There is no treatment for Blue eye disease. Supportive medication for respiratory and inflammatory disease should be administered.

Euthanasia may be necessary for ataxic pigs.

Control

The disease is self limiting and closed herds will have sporadic outbreaks of the disease once a herd is infected. There is no approved vaccine for the control of blue eye disease but killed-virus vaccine has been shown to be effective [1]. Preventative health programmes to prevent the spread of the disease are the most effective methods of control. Eliminating blue eye disease from affected herds can be achieved by closing the herd, running an all-in/all-out systems, and following good washing and disinfecting protocols.



Blue Eye Disease Learning Resources
FlashcardsFlashcards logo.png
Flashcards
Test your knowledge using flashcard type questions
Blue Eye Disease Flashcards



References

  1. Stephano, H.A., Olvera, M.J., Garcia, V.P., Ramirez, M.H., Cordoba, D.J. (1992). Eficacia de una vacuna inactivada para la prevencion de la infeccion por el paramyxovirus de ojo azul. Mem 27th Congr Assoc Mex Vet Esp Cerdos. Acapulco, Gro., 24-28.


CABIlogo

This article was originally sourced from The Animal Health & Production Compendium (AHPC) published online by CABI during the OVAL Project.

The datasheet was accessed on 11 June 2011.










Error in widget FBRecommend: unable to write file /var/www/wikivet.net/extensions/Widgets/compiled_templates/wrt674478b0078509_54501415
Error in widget google+: unable to write file /var/www/wikivet.net/extensions/Widgets/compiled_templates/wrt674478b00e9315_28496132
Error in widget TwitterTweet: unable to write file /var/www/wikivet.net/extensions/Widgets/compiled_templates/wrt674478b0191bc5_80815787
WikiVet® Introduction - Help WikiVet - Report a Problem