خيارات البحث
النتائج 1 - 10 من 15
Second-generation pseudorabies virus vaccine with deletions in thymidine kinase and glycoprotein genes.
1987
Kit S. | Sheppard M. | Ichimura H. | Kit M.
Efficacy of a pseudorabies virus vaccine based on deletion mutant strain 783 that does not express thymidine kinase and glycoprotein I.
1991
Oirschot J.T. van | Moormann R.J.M. | Berns A.J.M. | Gielkens A.L.J.
The vaccine efficacy of a genetically engineered deletion mutant strain of pseudorabies virus, strain 783, was compared with that of the conventionally attenuated Bartha strain. Strain 783 has deletions in the genes coding for glycoprotein I and thymidine kinase. In experiment 1, which had a 3-month interval between vaccination and challenge exposure, strain 783 protected pigs significantly (P < 0.05) better against virulent virus challenge exposure than did the Bartha strain. The growth of pigs vaccinated with strain 783 was not arrested, whereas that of pigs vaccinated with the Bartha strain was arrested for 7 days. Of 8 pigs given strain 783, 4 were fully protected against challenge exposure; none of the pigs given strain Bartha was fully protected. In experiment 2, which had a 3-week interval between vaccination and challenge exposure, the growth of pigs vaccinated with strain 783 was arrested for 3.5 days, whereas that of pigs vaccinated with the Bartha strain was arrested for 6 days. In experiment 3, pigs with moderate titer of maternal antibodies were vaccinated twice IM or once intranasally with either strain 783 or Bartha and were challenge-exposed 3 months after vaccination. Pigs given strain 783 twice IM were significantly (P < 0.05) better protected than were the other pigs. They had growth arrest of only 6 days, compared with 9 days for pigs of other groups, and shed less virus after challenge exposure. Results of this study indicate that the vaccine based on the deletion mutant strain 783 is more efficacious than is the Bartha strain of pseudorabies virus.
اظهر المزيد [+] اقل [-]Antiviral effectiveness of butylated hydroxytoluene against pseudorabies (Aujeszky's disease) virus in cell culture, mice, and swine.
1986
Pirtle E.C. | Sacks J.M. | Nachman R.J.
Avidin-biotin complex for immunohistochemical diagnosis of Aujeszky's disease and hog cholera.
1990
Kim S.B. | Sur J.H. | Moon U.G.
Studies on Aujeszky's disease in Korea: 1. isolation and characterization of the agent from infected pigs.
1988
Lee J.B. | An S.H. | Kim B.H. | Song J.Y. | Kim Y.H. | Sul D.S.
The first outbreak of aujeszky's disease (AD) was identified from piggery located at the southern part of Korea in July, 1987. This piggery suffered from a significant economic loss caused by unexpected piglet mortality and reproductive failure. Etiologic viral agents were isolated from tonsil and spleen of the infected piglets, and the isolates produced a typical cytopathic effect of herpesvirus with giant cell formation when inoculated in many different cells. Subsequently the field isolates were characterized as suid herpesvirus I by cross-neutralization test and indirect fluorescence assay utilizing specific monoclonal antibody, and proved to be a pathogenic strain of AD virus(ADV).
اظهر المزيد [+] اقل [-]Sample size for serological surveillance of Aujeszky's disease in Korea
2007
Kim, E.T. (Kangwon National University, Chuncheon, Republic of Korea) | Pak, S.I. (Kangwon National University, Chuncheon, Republic of Korea), E-mail: paksi@kangwon.ac.kr | Park, C.K. (National Veterinary Research and Quarantine Service, Anyang, Republic of Korea) | Kweon, C.H. (National Veterinary Research and Quarantine Service, Anyang, Republic of Korea)
Serological surveillance programs in animal populations are becoming increasingly important to estimate prevalence of a specific disease and subsequently to document disease-free status in a region or a country. For these purposes, the programs need to be based on both theoretical and economical aspects from the designing phase. From Aujeszky's disease (AD)-eradication program point of view, group of animals (aggregates, herds) not individual animal is the more important sampling unit of concern.
اظهر المزيد [+] اقل [-]Pig viral diseases causing reproductive failure in Korea
1992
Kim, B.H. | Kweon, C.H. | An, S.H. | Rhee, J.C. (Rural Development Administration, Anyang (Korea Republic). Veterinary Research Institute)
Identification of Aujeszky's disease virus by In situ hybridization
1994
Kim, S.B. | Sur, J.H. (Gyeongsang National University, Chinju (Korea Republic). College of Veterinary Medicine) | Moon, O.K. (Kyongnam Veterinary Service Laboratory, Chinju (Korea Republic))
Pseudorabies and transmissible gastroenteritis a serological survey in South Africa
1994
Williams, R. (Onderstepoort Veterinary Inst. (South Africa). Virology Section) | Esterhuysen, J.J. | Robinson, J.T.R.
Histopathological observation on the piglets experimentally infected with Aujeszky's disease virus isolated in Korea
1990
Cho, W.Y. (Chungbuk Animal Health Laboratory, Cheongju (Korea Republic)) | Cho, S.W. (Chungnam National University, Taejon (Korea Republic). Department of Veterinary Medicine)