• Korean Journal of Veterinary Service
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• v.35 no.2
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• pp.139-145
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• 2012

Prevalence of major legal communicable diseases in bovine and swine had been monitored in Jeonbuk province from year 2004 to 2008. At least 1 communicable disease had been reported in 687 heads from 68 bovine farms and 17 farms (25.0%) of the 68 positive farms had 1~2 additional outbreaks during the surveillance. By disease, enzootic bovine leukosis, Johne's disease and Akabane disease were occurred in 53 farms (582 heads), 14 farms (100 heads) and 1 farm (5 heads), respectively. Swine communicable diseases were occurred in 4,466 heads from 63 swine farms and 18 farms (28.6%) of the 63 positive farms had 1~2 additional outbreaks during the surveillance. By disease, Aujeszky's disease (AD), porcine epidemic diarrhea (PED), classical swine fever (CSF), porcine reproductive and respiratory syndrome (PRRS), porcine transmissible gastroenteritis (TGE), atrophic rhinitis (AR) and Japanese encephalitis in swine (JE) were occurred in 20 farms (70 heads), 20 farms (2,817 heads), 12 farms (258 heads), 6 farms (1,257 heads), 1 farm (50 heads), 1 farm (2 heads) and 1 farm (10 heads), respectively. In total, 10 communicable diseases (1 species of first-class, 3 species of second-class, and 6 species of third-class) were reported. The first-class diseases were CSF. Johne's disease, and Aujeszky's disease. JE was the second-class and Akabane disease, enzootic bovine leukosis (EBL), PED, PRRS, TGE and AR were third-class diseases.

• Korean Journal of Veterinary Research
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• v.29 no.4
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• pp.541-548
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• 1989

The present study was carried out to determine viral antigens and its morphogenesis in the ultrathin frozen and araldite sections of cell cultures infected with ADV by protein A-gold labeling. ADV antigens were labeled with 10nm gold probes, and electron-dense gold particles were mainly present on viral nucleocapsids and viral envelopes. Immunogold labeling in the ultracryosections showed a very low degree of interaction with tissue structures. Immunogold labeling in the ultrathin cryosections can be useful tool for the detection of ADV antigens, and the technique also may provide its great potential for immunocytochemical studies on various virus-host cell Interactions.

• Korean Journal of Veterinary Research
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• v.49 no.4
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• pp.329-334
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• 2009

Aujeszky's disease (AD) is a respiratory, infectious viral illness associated with high mortality, especially in neonatal piglets and has frequently been considered an economically important disease in many endemic countries. Although AD is still occurring in a geographically defined region in Korea, little attention has been paid to the economics of AD. In this study, partial budget technique was used to develop a simulation model to measure financial losses following the disease epidemic in a swine operation utilizing stochastic or deterministic parameters from the literatures and the index case herd of AD occurred in 2005, where available and applicable. For the infected case herd with a 12500-pig, the total economic loss for this operation was estimated to be about 199 million Korean won (95% confidence interval [CI] 148,645,000-250,741,000). Given net loss due to death of a pig at sow level was 119,000 won, total loss for the case herd with 1200 sows accounted for 143 million won (95% CI 92,599,000-193,729,000). The net loss of the death of one pig at growing and fattening level resulted in loss of 46,000 won (95% CI 40,000-53,000) and 126,000 won (95% CI 122,000-131,000), respectively. Taking into account for the number of pigs raised in the case herd, total loss amounted to 8 million won (95% CI 7,167,000-9,347,000) and 12 million won (95% CI 11,959,000-12,891,000), for growers and fatteners, respectively, assuming 63% of saved feed intake when a pig dies halfway through the respective period. Under the model's assumptions, suckling pig mortality was the major factors of loss in estimating the economic consequences (approximately 71.8% of the total loss). The high economic losses of a herd infected with AD suggest that the effective and region-specific control measures should be implemented in disease endemic foci.

• Korean Journal of Veterinary Research
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• v.28 no.1
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• pp.99-103
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• 1988

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 effects 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 were proved to be a pathogenic strain of AD virus(ADV).

• Korean Journal of Veterinary Research
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• v.28 no.2
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• pp.365-369
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• 1988

The present study was done to demonstrate ADV antigens in frozen and paraffin sections from ADV-infected pigs and cell cultures by using of the IGS method. Tissue specimens from 3 young pigs infected with ADV-phylaxia strain and of 2 healthy pigs were used. Fibroblastic cells originated from pig brain and BHK cells were grown and confluent monolayers were infected with the virus. Two monoclonal antibodies and a specific hyperimmune serum to ADV were used as the source of primary antibodies for both the IGS and immunoperoxidase methods. Application of the IGS method yielded a black fine granular reaction in positive areas, and the results were superior to those obtained using the immunoperoxidase technique for all cases tested. The IGS method might be useful in the detection of various viral antigens in tissue sections.

• Korean Journal of Veterinary Service
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• v.13 no.1
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• pp.54-63
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• 1990

We have studied about the safety, immunity and protective potency in swine and experimental am mais of two inactivated vaccine produced with NYJ-1-87 strain of ADV that was isolated in Korea. Result obtained through the experiments were summarized as follows. 1. The safe potency of ADV antigens inactivated with BEI and formaline to mouse & guinea pig was on the whole good, but protective potency rates of those to challenge with ADV were 60-75％ without the differences to two antigens. 2. Safety, immunity & protective potency of ADV antigens inactivated with BEI and formaline to swine were on the whole excellent, except for a mild increase of rectal temperature in some pigs after challenge with ADV. 3. When virus excretion of the experimental groups after challenge with ADV was examed by swabbing of nasal, all pigs of control gorup excreted virus from 2 days p.c., partially to 10 days p.c.. But in vaccinated groups, only 25-50% of all pigs of each group excreted virus during experimental periods. 4. Titers of antibodies in swine & quinea pig vaccinated with inactivated ADV antigens become increased after the 1 weeth p.i. showing the highest liters on the 4-5 weeths p.i.

• Korean Journal of Veterinary Research
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• v.39 no.3
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• pp.531-537
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• 1999

The present study was carried out to investigate the pathogenicity and pathogenesis of wild rats(Rattus norvegicus), trapped in nature, intranasally infected with Aujeszky's disease virus(ADV/NYJ-1-87) by histopathology, immunohistochemistry and in situ hybridization(ISH). Fifteen rats inoculated intranasally were roughened haircoat, anorexia, listlessness, and depression second day after inoculation, and three rats died in 66-72 hours. Eight rats showed severe pruritus at the face that was accompanied by frequent face-washing movements of the forelegs, and then became violent and spasmodic for an hour or until they died. Four rats slowly recovered after showing mild clinical signs of the disease. Microscopic lesions in infected rats were characterized by meningitis, perivascular round cell infiltration, focal gliosis, and neuronal degeneration and necrosis. And intranuclear inclusion bodies were frequently detected in the cerebral cortex and medulla. Positive reaction to ADV by immunohistochemistry and ISH were detected in the following areas : trigermimal ganglion, brain, tonsil, nasal mucosa, spleen, lung and liver. The result has suggested that ADV intranasally infected in wild rats is followed by replication in epithelial calls of nasal mucosa and tonsil, then invade local lymph nodes by way of the lymphatics. It is also believed that the virus invades bipolar olfactory cells and trigerminal ganglion; and then spread into central nervous system.

• Korean Journal of Veterinary Research
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• v.36 no.2
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• pp.359-369
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• 1996

An effective candidate subunit vaccine was prepared by using the immunostimulating complexs(ISCOMs) with Quil A and recombinant protein(gp50, gIII and inactive $\alpha$-ADV) Aujeszky's disease virus(ADV). The weaned pigs were twice immunized with a ADV-ISCOMs, and followed by intramuscular challenge with $1{\times}10^4$ $TCID_{50}$ ADV(strain Yangsan). The unvaccinated pigs were also challenged with same dose of ADV. At 5 days after challenge, the control pigs have developed ADV clinical signs. Whereas, the vaccinated pigs protected them from ADV-induced acute symptoms and death. Also, to identify the lymphocyte subpopulation in peripheral blood with pigs from ADV-ISCOMs vaccinated and control group, lymphocyte reacted with a panel of monoclonal antibodies which are specific to swine leukocyte surface antigens and assayed by the flow cytometry. MHC class I, CD2, CD8, N cells, CD11a, and CD45 antigen positive cells were decreased after inoculating virulent ADV Yangsan strain in control group. The data indicated that ISCOMs technique was useful in ADV subunit vaccine preparation and demonstrated the importance of gp50, gIII as a component of ADV vaccine.

• Korean Journal of Veterinary Pathology
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• v.2 no.2
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• pp.117-125
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• 1998

Pathological studies were performed on the five piglets experimentally infected with Aujeszky's disease virus(pseudorabies), NYJ isolate, isolated from the naturally infected pigs in Korea: two piglets were inoculated intramuscularly, two piglets intranasally, and one piglet subcutaneously at the dose of 1$m\ell$ per animal with the 105.5 $TCID_50$/0.1ml titer. Clinical signs included dyspnea, high fever(＞$41^{\circ}C$), anorexia, vomiting, diarrhea or constipation, ataxia, circling movement, posterior paralysis, intermittent convulsion, and coma followed by death although some variations by age and inoculated routes were observed. Gross features included multiple necrotic foci in the liver, congestion and hemorrhage in the lymph nodes and spleen, petechial hemorrhage in the kidney, hemorrhagic pneumonia, marked meningeal congestion, severe sub meningeal hemorrhage in the spinal cord, excessive cerebrospinal fluid retention, and muscular necrosis at the inoculated area. Microscopically, non suppurative meningoencephalitis with gliosis and perivascular cuffing in CNS, ganglioneuritis, necrohemorrhagic splenitis, necrotic hepatitis, tonsillitis and rhinitis, hemorrhagic or interstitial pneumonia, and non-suppurative myositis in the injected area were observed. Eosinophilic intranuclear inclusion bodies were found in a variety of tissues the including the liver, kidney, adrenal gland, spleen, lymph nodes, tonsil, and lung. Ultrastructurally, virus particles were confirmed in nucleus and cytoplasms of pneumocytes around the necrotic areas.

• Korean Journal of Veterinary Research
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• v.49 no.2
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• pp.149-155
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• 2009

The objective of this study was to analyze data from the planned national serological monitoring program for Aujeszky's disease (AD) using a simulation model to evaluate probable outcomes expected in the sample derived from the simulated herds at predefined within-herd prevalence and herd prevalence. Additionally, prevalence at animal- and herd-level estimated by the stochastic simulation model based on the distributions of the proportion of infected herds and test-positive animals was compared with those of data from a national serological survey in 2006, in which 106,762 fattening pigs from 5,325 herds were tested for AD using a commercial ELISA kit. A fixed value of 95% was used for test sensitivity, and the specificity was modeled with a minimum, most likely and maximum of 95, 97 and 99%, respectively. The within-herd prevalence and herd prevalence was modeled using Pert and Triang distributions, respectively with a minimum, most likely and maximum point values. In all calculations, population size of 1,000 was used due to lack of representative information. The mean number of infected herds and true test-positives was estimated to be 27 herds (median = 25; 95% percentile 44) and 214 pigs (median = 196; 95% percentile 423), respectively. When testing 20 pigs (mean of 2006 survey) in each herd, there was a 3.3% probability that the potential for false-positive reactions due to less than 100% specificity of the ELISA test would be detected. It was found that the model showed prevalence of 0.21% (99% percentile 0.50%) and 0.5% (99% percentile 0.99%) at animal- and herd-level, respectively. These rates were much similar to data from the 2006 survey (0.62% versus 0.83%). The overall mean herd-level sensitivity of the 2006 survey for fattening pigs was 99.9%, with only a 0.2% probability of failing to detect at least one infected herd.