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Download Viral causes of diarrhoea in neonates
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Neonatal diarrhoea Rota and coronaviruses October 6, 2010 Viral causes of diarrhoea in neonates • • • • • • • Rotavirus Coronavirus BVD Bredavirus Calicivirus Parvovirus Astrovirus Susceptibility of neonates • Rotaviruses 4 to 14 days • Coronavirus 4 to 30 0 4 days Colostral Antibodies in gut Susceptible period Prevention of viral diarrhea in calves • Vaccination of pregnant animals • Colostrum for 2 weeks • Management vaccines against calf diarrhoea Rotaviruses Viruses with ds RNA genomes rotaviruses Reoviridae bluetongue virus african horse sickness Birnaviridae infectious bursal disease (chickens) infectious pancreatic necrosis (salmonid fish) Rotaviruses • • • • • • 7 groups and many serotypes DS, segmented genome Unenveloped Inactivated by phenolic disinfectants Relatively insensitive to chlorination Persistence? Rotavirus structure, serogroups and serotypes VP1 VP2 VP3 VP6 7 Groups (A->G) VP4 12 serotypes (P) VP7 14 serotypes (G) Segmented genomes of rotaviruses electropherotyping implications Bovine rotaviruses Group A > B>C Most Group A, serotypes G6 and G10 http://www.bovilis.com/diseases/ncd/pathogenesis.asp Pathogenesis lactase water Undigested milk water Shortened and fused villi Maintenance of rotaviruses in populations • stable in environment • mucosal antibody more important than systemic antibody • persistence and periodic shedding Diagnosis • Detection of virus in fecal smears by FAT – FAT for GrA (PDS) • feces, $22 includes coronavirus • jejunum, ileum, $38.50, includes coronavirus • EM and immune EM • antigen capture ELISAs (human test for Gr A rotaviruses) – 80 to 95% sensitivity and specificity compared to RTPCR (Maes et al. 2003, J. clin micro 41:290) Coronaviruses Viruses with +ve RNA genomes Picornaviridae Caliciviridae foot and mouth disease virus porcine enteroviruses feline calicivirus Coronaviridae Arteriviridae coronaviruses equine arterivirus Flaviviridae Togaviridae pestiviruses (BVD) equine encephalitis viruses Coronaviruses • • • • • SS +ve RNA Enveloped Epithelial cells of gut and respiratory tract Persistent infections Increased shedding in winter and at calving (bovine corona virus) Diagnosis • FAT on fecal or gut samples ($22.5038.50/sample) • EM ($45/sample) Some other coronaviruses • Transmissible gastroenteritis and respiratory disease in pigs • Infectious bronchitis in poultry • Feline enteric coronavirus (FEC) and infectious peritonitis (FIP) • Ferret (catarrhal enteritis and FIP-like) • SARS coronavirus feline infectious peritonitis M.C. Horzinek and H. Lutz An update on FIP Veterinary Sience Tomorrow Jan, 2001 www.vetscite.org FIP • fatal disease of young (3-18 mo), or very old in multi-cat houses or catteries • not seen before 1950 – new virus? – old virus, new disease • systemic antibodies not protective, may even be harmful feline enteric coronavirus • closely related to dog, pig (TGE), human coronaviruses – species specific but K9CV can infect cats • two serotypes – serotype I – more common, 70-95% of isolates, does not cross react with K9CV – difficult to isolate FeCV, serotype 2 Both serotypes can lead to FIP causing strains epidemiology • Exposure to FeCV – 25% of cats from 1-2 cat households are seropositive – 75-100% of cats from catteries seropositive • susceptible cats become infected immediately following exposure • kittens can become infected in utero or soon after maternal antibodies drop below protective levels epidemiology (FIP) • 1:5,000 in 1-2 cat households • 1:20 in catteries – sporadic – clustered (2-3 cats) - rare – rarely epidemic • no gender or breed predisposition FEC FIP pathogenesis Mild diarrhoea or respiratory illness virus immune system persistent infection low level of replication in epithelial and lymphoid cells pregnancy in young queens weaning, sale, shipment, adoption elective surgery concurrent infections (FeLV, FIV ?) Virus immune system increased virus replication -> virulent mutants increased ability to grow in macrophages immune-mediated lysis of infected cells cytokines draw in more susceptible cells vascular permeability immune complex related damage M.C. Horzinek and H. Lutz An update on FIP Veterinary Sience Tomorrow Jan, 2001 www.vetscite.org clinical signs • common signs – chronic antibiotic unresponsive fever – progressive anorexia, weight loss – stunting of growth • blood abnormalities – – – – progressive increase in serum proteins increase in globulins anemia serum, urine brown due to bilirubin clinical signs • “wet” form (poor cell-mediated immunity) – peritonitis – pleuritis • “dry” form (some CMI) • • • • granulomas enlarged lymph nodes cloudiness in eye neurological signs • can change from dry to wet Sharif et al. 2010. Vet Med Int diagnosis • RT-PCR for FeCoV • Serology (ELISA for anti FeCoV antibodies) – prognosis? • no titre - no FIP but may still be infected • <100 - less chance of developing FIP • >100 - greater chance of getting FIP • increased globulins and protein (>35g/L) • cytology – degenerate and non-degenerate PMN, macrophages, some lymphocytes, protein background – FeCV positive cells (FAT) control • vaccine – Primucell FIP • Intranasal ts virus • management – early weaning and separation
