Dengue viral infection has rapidly spread around the world in recent decades. In Korea, autochthonous cases of dengue fever have not been confirmed yet. However, imported dengue cases have been increased since 2001. The risk of developing severe dengue in Korean has been increased by the accumulation of past-infected persons with residual antibodies to dengue virus and the remarkable growth of traveling to endemic countries in Southeast Asia. Notably, most of imported dengue cases were identified from July to December, suggesting that traveling during rainy season of Southeast Asia is considered a risk factor for dengue infection. Analyzing national surveillance data from 2011 to 2015, males aged 20–29 years are considered as the highest risk group. But considering the age and gender distribution of travelers, age groups 10–49 except 20–29 years old males have similar risks for infection. To minimize a risk of dengue fever and severe dengue, travelers should consider regional and seasonal dengue situation. It is recommended to prevent from mosquito bites or to abstain from repetitive visit to endemic countries. In addition, more active surveillance system and monitoring the prevalence asymptomatic infection and virus serotypes are required to prevent severe dengue and indigenous dengue outbreak.
Antibodies ; Asia, Southeastern ; Asymptomatic Infections ; Culicidae ; Dengue Virus ; Dengue* ; Humans ; Korea ; Male ; Prevalence ; Risk Factors* ; Seasons ; Serogroup ; Severe Dengue

Bovine tuberculosis (TB) is a major zoonosis that's caused by Mycobacterium bovis (M. bovis). Being able to detect M. bovis is important to control bovine TB. We applied a molecular technique, the variable number tandem repeat (VNTR) typing method, to identify and distinguish the M. bovis isolates from Gyeonggi-do, Korea. From 2003 to 2004, 59 M. bovis clinical strains were isolated from dairy cattle in Gyeonggi-do, Korea, and these cattle had tuberculosis-like lesions. Twenty-four published MIRUVNTR markers were applied to the M. bovis isolates and ten of them showed allelic diversity. The most discriminatory locus for the M. bovis isolates in Korea was QUB 3336 (h = 0.64). QUB 26 and MIRU 31 also showed high discriminative power (h = 0.35). The allelic diversity by the combination of all VNTR loci was 0.86. Six loci (MIRU 31, ETR-A and QUB-18, -26, -3232, -3336) displayed valuable allelic diversity. Twelve genotypes were identified from the 59 M. bovis isolates that originated from 20 cattle farms that were dispersed throughout the region of Gyenggi-do. Two genotypes [designation index (d.i.) = e, g] showed the highest prevalence (20% of the total farms). For the multiple outbreaks on three farms, two successive outbreaks were caused by the same genotype at two farms. Interestingly, the third outbreak at one farm was caused by both a new genotype and a previous genotype. In conclusion, this study suggests that MIRU-VNTR typing is useful to identify and distinguish the M. bovis isolates from Gyeonggi-do, Korea.
Animals ; Cattle ; DNA Primers/genetics ; *Genetic Variation ; Genotype ; Korea/epidemiology ; Minisatellite Repeats/*genetics ; Mycobacterium bovis/*genetics ; Prevalence ; Tuberculosis, Bovine/*epidemiology/*microbiology

The Middle East respiratory syndrome coronavirus (MERS-CoV) causes severe acute respiratory disease and systemic dysfunction that may eventually lead to the death of the patients. After MERS-CoV was first diagnosed in the South Korea, in May 2015, it affected 186 individuals and claimed 37 lives in short span of time (case fatality rate = 19.9%). Compared to MERS-CoV in the Middle East, MERS-CoV in South Korea appeared to be more transmissible, and induced multiple human-to-human transmission. These knowledge gaps caused the failure of early prevention, and disseminated MERS-CoV brought out a great loss of lives and economy. The MERS-CoV outbreak revealed the potential weakness of public health system in South Korea, and promoted the reestablishment of preventive strategies for imported infectious diseases. In these regards, we analyzed the potential for additional import of re-emerged and emerging infectious diseases, such as dengue fever, malaria, chikungunya fever and hepatitis A, from Africa or South-East Asia. Then we suggest the investment expansion and the administration of global networks for effective research and control for newly or re-emerged infectious diseases. In conclusion, it is required to expect and prepare for the surveillance of the importation of foreign pathogens, and constitute the internal collaborative systems for rapid detection and risk communication. In addition, we should take an active part in the global networks to perform rapid preparedness and control for re-emerged or emerging infectious diseases.
Africa ; Asia ; Communicable Diseases ; Communicable Diseases, Emerging* ; Coronavirus* ; Dengue ; Fever ; Hepatitis A ; Humans ; Investments ; Korea* ; Malaria ; Middle East* ; Public Health

The interferon-gamma (IFN-gamma) assay is employed as a complementary diagnostic test for bovine tuberculosis (BTB) in many countries. To simplify this assay, we established a 96-well plate format using the ESAT-6 and CFP-10 antigens and then employed it to determine the extent of Mycobacterium (M.) bovis infection in dairy herds with a history of BTB outbreaks in a country where only selective culling is practiced. The sensitivity and specificity of this IFN-gamma assay were 85.9% and 100%, respectively, based on comparison with the conventional single intradermal tuberculin test (SIDT). The IFN-gamma assay was also positive in 30.4% and 36.8% of SIDT-negative animals from herds with recent and remote BTB outbreaks, respectively. Of 14 SIDT-negative, IFN-gamma positive cattle, five (35.7%) were culture positive and an additional six were positive based on a polymerase chain reaction-based test for M. bovis. Therefore, the IFN-gamma assay has the potential to serve as a specific and sensitive test for M. bovis infection in dairy cattle. Further, the results indicated that a substantial portion of SIDT-negative animals in herds with previous BTB outbreaks were actually infected with M. bovis. Accordingly, the present selective-culling strategy may require modifications to include this more sensitive assay.
Animals ; Antigens, Bacterial/*diagnostic use ; Bacterial Proteins/diagnostic use ; Cattle ; Female ; Interferon-gamma Release Tests/*veterinary ; Mycobacterium bovis/*isolation & purification ; Polymerase Chain Reaction/veterinary ; Republic of Korea/epidemiology ; Tuberculosis, Bovine/*diagnosis/*epidemiology/microbiology