1.Porcine epidemic diarrhea: a review of current epidemiology and available vaccines.
Daesub SONG ; Hyoungjoon MOON ; Bokyu KANG
Clinical and Experimental Vaccine Research 2015;4(2):166-176
Porcine epidemic diarrhea virus (PEDV), an Alphacoronavirus in the family Coronaviridae, causes acute diarrhea, vomiting, dehydration, and high mortality rates in neonatal piglets. PEDV can also cause diarrhea, agalactia, and abnormal reproductive cycles in pregnant sows. Although PEDV was first identified in Europe, it has resulted in significant economic losses in many Asian swine-raising countries, including Korea, China, Japan, Vietnam, and the Philippines. However, from April 2013 to the present, major outbreaks of PEDV have been reported in the United States, Canada, and Mexico. Moreover, intercontinental transmission of PEDV has increased mortality rates in seronegative neonatal piglets, resulting in 10% loss of the US pig population. The emergence and re-emergence of PEDV indicates that the virus is able to evade current vaccine strategies. Continuous emergence of multiple mutant strains from several regions has aggravated porcine epidemic diarrhea endemic conditions and highlighted the need for new vaccines based on the current circulating PEDV. Epidemic PEDV strains tend to be more pathogenic and cause increased death in pigs, thereby causing substantial financial losses for swine producers. In this review, we described the epidemiology of PEDV in several countries and present molecular characterization of current strains. We also discuss PEDV vaccines and related issues.
Asian Continental Ancestry Group
;
Canada
;
China
;
Coronaviridae
;
Dehydration
;
Diarrhea*
;
Disease Outbreaks
;
Epidemiology*
;
Europe
;
Genetics
;
Humans
;
Japan
;
Korea
;
Mexico
;
Mortality
;
Philippines
;
Porcine epidemic diarrhea virus
;
Swine
;
United States
;
Vaccines*
;
Vietnam
;
Vomiting
2.Influenza virus vaccine for neglected hosts: horses and dogs.
Woonsung NA ; Minjoo YEOM ; Huijoon YUK ; Hyoungjoon MOON ; Bokyu KANG ; Daesub SONG
Clinical and Experimental Vaccine Research 2016;5(2):117-124
This study provides information regarding vaccine research and the epidemiology of influenza virus in neglected hosts (horses and dogs). Equine influenza virus (EIV) causes a highly contagious disease in horses and other equids, and outbreaks have occurred worldwide. EIV has resulted in costly damage to the horse industry and has the ability of cross the host species barrier from horses to dogs. Canine influenza is a virus of equine or avian origin and infects companion animals that live in close contact with humans; this results in possible exposure to the seasonal epizootic influenza virus. There have been case reports of genetic reassortment between human and canine influenza viruses, which results in high virulence and the ability of transmission to ferrets. This emphasizes the need for vaccine research on neglected hosts to update knowledge on current strains and to advance technology for controlling influenza outbreaks for public health.
Animals
;
Disease Outbreaks
;
Dogs*
;
Epidemiology
;
Ferrets
;
Horses*
;
Humans
;
Influenza A virus
;
Influenza Vaccines
;
Influenza, Human*
;
Orthomyxoviridae*
;
Pets
;
Public Health
;
Seasons
;
Virulence
3.Prolonged shedding of the canine influenza H3N2 virus in nasal swabs of experimentally immunocompromised dogs.
Minki HONG ; Bokyu KANG ; Woonsung NA ; Dongjun AN ; Hyoungjoon MOON ; Doo Jin KIM ; Jinsik OH ; Seong Jun PARK ; Haryoung POO ; Jeong Ki KIM ; Jongman KIM ; Daesub SONG
Clinical and Experimental Vaccine Research 2013;2(1):66-68
PURPOSE: The avian origin canine influenza virus H3N2 has been recently isolated and found to be currently in dog population in South Korea and China. The purpose of this study was to clarify the relationship between immunosuppressive glucocorticoids used in veterinary clinical practice and viral shedding pattern of influenza in dogs. MATERIALS AND METHODS: Eight conventional beagle dogs were divided into control infection group and immunocompromised group. Dogs of both groups were infected with H3N2 canine influenza virus (2x106.0 EID50/0.1 mL). Dogs in immunocompromised group were given orally 3.0 mg/kg prednisolone for 7 days. Virus shedding was monitored using real-time polymerase chain reaction. After necropsy, histopathologic lesions were compared. RESULTS: We found that immunocompromised dogs exhibited more prolonged (8 days vs. 13 days) and higher magnitude viral shedding than control group (peak titer of viral shedding 4.6 vs. 5.5 EID50). CONCLUSION: Restricted use of immunosuppressive drugs in the clinical setting might help control the rapid spread of H3N2 through local dog populations.
Animals
;
China
;
Dogs
;
Glucocorticoids
;
Immunosuppression
;
Influenza A Virus, H3N2 Subtype
;
Influenza, Human
;
Orthomyxoviridae
;
Prednisolone
;
Real-Time Polymerase Chain Reaction
;
Republic of Korea
;
Viral Load
;
Virus Shedding