The isolation of a number of strains of infectious bursal disease (IBD) virus from fowl, turkeys and ducks is described. These isolates could be grouped into two serotypes using the neutralisation test. It is proposed that the cell culture adapted vaccine strain from fowl should be the prototype virus for serotype 1 and that the TY89 isolate from a turkey should be the prototype for serotype 2. The isolates in serotype 2 consisted of an antigenically homogeneous group of viruses from turkeys and fowl. However, within serotype 1, which represented isolates from fowl and ducks, some isolates showed only a 30% cross reaction with the vaccine strain. If cross protection mirrors cross neutralisation, then infection with viruses belonging to serotype 2 or with antigenically distant strains from serotype 1 provides one explanation for the apparent failure of the vaccine on certain sites. However, if cross protection does not mirror cross neutralisation, then a virus from serotype 2 could be used as a heterotypic vaccine for young birds with high levels of maternally derived antibody to serotype 1.
SUMMARYSix isolates of rotavirus were made from turkeys and two from chickens.
A syndrome causing depressed egg production is described. It is characterised either by a failure to attain predicted production targets or by a fall in egg numbers. The depression in production can reach 30% and it may or may not return to normal. For a short period the eggs produced are smaller, lose colour, have poor egg shell strength and many soft shelled eggs are laid. The birds remain apparently healthy and there is a marked age incidence, with most flocks starting this depression in egg production at 29-31 weeks of age. This syndrome has been recently recorded in the Netherlands, but has not been seen before in Northern Ireland. Viruses which agglutinated fowl erythrocytes to very high titres were isolated in chick embryo liver cells from six affected flocks. Three of these isolates were from the oviduct, two from the upper respiratory tract and one from the faeces. These agents are similar to adenoviruses, but were not neutralised by antisera to 11 prototype fowl adenoviruses. In addition, 17 adenoviruses were also isolated from the flocks showing the syndrome described. These isolates fell into five serological types, in addition to nine which could not be typed using antisera to 11 prototype adenoviruses. Investigations of flocks with falls in egg production not conforming to this syndrome yielded five isolates. Six adenoviruses were also isolated from birds with diarrhoea.
The isolation, serological classification and growth properties of adenoviruses isolated from fatal cases of haemorrhagic enterocolitis in calves are described. Four viruses, from different submissions, were isolated in cultures of calf testis cells and were identified as adenoviruses by electron microscopy. The four isolates were serologically identical and were classified as bovine adenovirus type 10 in cross-neutralisation tests with other bovine, ovine and porcine adenovirus species. Their growth in the nucleus of infected cells was accompanied by the production of typical adenovirus-associated inclusions. A serological survey to determine the incidence of infection with the virus in cattle in Northern Ireland demonstrated the presence of low levels of neutralising antibodies in 55 per cent of cattle over two years old, although only 8 per cent were positive at a 1/500 dilution of serum.
SUMMARYFour serological tests i.e. ELISA, serum neutralisation (SN), fluorescent antibody (FA), and agar gel immunodiffusion (AGID) were compared for sensitivity using several criteria, for detection and titration of infectious laryngotracheitis (ILT) virus antibodies in chicken sera. In the ELISA test, sera were tested in parallel on virus positive and negative control antigens with results expressed as positive-negative difference. Non-specific binding was not a problem in this test. SN tests were performed in microtitre plates using chick embryo liver cells, while sera for FA tests were titrated on multispot slides on which were fixed ILT virus-infected chick embryo liver cell cultures. The AGID test was the standard test still widely used for serological diagnosis of ILT.The four tests were compared using (1) sera from experimentally inoculated birds bled regularly at intervals from 4 to 35 days post-inoculation, (2) convalescent sera from a natural outbreak of ILT, and (3) serial dilutions of an ILT positive serum. In all experiments the ELISA test was of slightly greater sensitivity than SN and was comparable to the FA test. In the experimentally infected birds ELISA and FA test detected sero-conversion in more birds at 7 days than SN. In tests with the serially diluted hyperimmune ILT serum, ELISA, FA and SN tests were comparable. SN however was the most useful test for quantification of ILT antibodies. ILT-SN titres in birds were never high, the highest titre recorded in experimental birds and in convalescent sera was 1/48. AGID was found to be less sensitive than ELISA, FA or SN test but was considered useful for detection of antibodies on a flock basis, since, with the convalescent sera AGID detected a significant proportion of positives.
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