No abstract available.
Animals ; Hantavirus* ; Korea* ; Murinae*

No abstract available.
Animals ; Hantavirus* ; Korea* ; Murinae*

No abstract available.
Animals ; Borrelia burgdorferi* ; Borrelia* ; Murinae*

No Abstract Available.
Animals ; Hantavirus* ; Indonesia* ; Murinae* ; Thailand*

No abstract available.
Animals ; Chiroptera* ; Korea* ; Murinae* ; Polymerase Chain Reaction* ; Puumala virus

Multiple species of muridae and arvicolidae rodents serve as the natural reserviors of hantaviruses. Hantaviruses are distributed in rodent populations world-widely even in geographical areas where hemorrhagic fever with renal syndrome (HFRS) has not been reported. Serologic diagnosis of infection, using hantaviral antigen, indicates that hantaviruses are wider distributed in wild rodents. This study was designed to intended the hantavirus infection among wild rodents captured in Kyebang mountain, Kangwon-do in Korea. A total of 216 wild rodents in 3 species were trapped in July and September in 1995. Serological evidence for hantaviruses infection were tested against five hantavirus antigens by indirect immunofluorescent antibody technique (IFA). Among 100 Eothenomys regulus, 78 Apodemus peninsulae and 38 Apodemus agrarius (IFA). Among 100 Eothenomys regulus, 78 Apodemus peninsulae and 38 Apodemus agrarius; 12 C. regulus, 15 A. peninsulae and 6 A. agrarius were IF antibody positive against hantaviruses. This data suggest that Eothnomys regulus and Apodemus peninsulae would be a natural reservoir of hantaviruses.
Animals ; Diagnosis ; Gangwon-do ; Hantavirus Infections* ; Hantavirus* ; Hemorrhagic Fever with Renal Syndrome ; Korea ; Muridae ; Murinae ; Rodentia*

Apodemus agrarius, which accounts for three-fourths of the wild rodents, mainly inhabits in cultivated fields of Korea. Apodemus peninsulae and Eothenomys regulus are the second and third dominant species, respectively. Soochong virus (SOOV) from A. peninsulae and Puumala-related Muju virus (MUJV) from E. regulus were isolated in 1997 and 1998 in Korea, respectively. But serological characterizations of SOOV and MUJV were not identified clearly. Thus, in order to determine the serotypic classification, simultaneous cross-indirect immunofluorescent antibody (IFA) assay and cross-plaque reduction neutralization (PRN) test against four different hantaviruses were conducted with sera from 17 A. agrarius, 19 A. peninsulae, and 8 E. regulus strains. IFA titers of sera from A. agrarius and A. peninsulae were the highest to Hantaan virus (HTNV) and SOOV, respectively. However, most sera showed similar IFA titers to Seoul virus (SEOV). Therefore it was difficult to do serotyping using the sera from A. agrarius and A. peninsulae by IFA. In case of sera of E. regulus, IFA titers to Puumala virus (PUUV) were higher than HTNV, SOOV and SEOV. Cross-PRN result of A. agrarius to HTNV, SOOV, SEOV and PUUV was 6,890, 5,120, 110 and 30, respectively. In case of A. peninsulae, the mean PRN titer was the highest to SOOV (1:6,820) and those to HTNV, SEOV and PUUV were 1,580, 100 and 30, respectively. The mean PRN titers of E. regulus to HTNV, SOOV, SEOV and PUUV were 70, 10, 80 and 640. SOOV and MUJV could be distinguished from HTNV and SEOV by cross-PRNT. These results demonstrate that SOOV and MUJV could be classified as new serotype of hantavirus.
Animals ; Classification ; Hantaan virus ; Hantavirus* ; Korea ; Murinae ; Puumala virus ; Rodentia ; Seoul virus ; Serotyping

BACKGROUND: This study was designed to determine the seropositivity for rickettsial infection among wild rodents captured in farms of Kyunggi province and in mountains of Kangwon province in Korea. METHODS: A total of 513 wild rodents of 5 species were captured in 1997~1998. Serological evidence for rickettsial infection was obtained using Orientia tsutsugamushi antigens by indirect immunofluorescent antibody technique(IFA). RESULTS: 168 Apodemus agrarius, 35 Microtus fortis, 3 Micromis minutus and 2 Eothenomys regulus were captured in Kyunggi province, of which 32 Apodemusagrarius, 4 Microtus fortis, 1 Micromis minutus were IF antibody positive against O. tsutsugamushi. 196 Apodemus agrarius, 77 Apodemus peninsulae and 29 Eothenomys regulus were captured in Kangwon province, of which 4 Apodemus agrarius and 5 Apodemus peninsulae were positive. CONCLUSION: Seropositivity rate against O. tsutsugamushi of wild rodents captured in Kyunggi and Kangwon provinces were 19.6% and 3.0% by IFA tests, respectively.
Animals ; Arvicolinae ; Gangwon-do* ; Gyeonggi-do* ; Korea* ; Murinae ; Orientia tsutsugamushi ; Rodentia*

Twenty isolates of Hantavirus were isolated from patients and reserovirs from 1988 to 1994 in Korea. Isolation rate was 1.9% (10/538) in patients, 6.2% (5/81) in Apodemus sp., 2.6% (1/38) in Rattus sp. and 0.6% (4/677) in bats. Reciprocal mean IFA titers ranged from 27.5 to 1,024 at the specimen collection. According to the growth rate and reaching peak titer of infectivity, the isolates were grouped as rapid, intermediate, and slow growing groups. All isolates were confirmed as Hantaan type by the nested RT-PCR on the Gl region of the M segment. Comparison of nucleotide sequence (Nt: 2101 - Nt: 2280) of the G2 region revealed that the sequence homology between Hantaan 76/118 virus and the isolates was more than 90%. Several nucleotide positions of the isolates showed high variation. The variation rate of patientisolates was about one-half when compared with that of rodentisolates. On the basis of phylogenetic analysis Hantaan viruses isolated were divided into two genogroups. These results indicate that Hantaan virus is highly dominant serotype in Korea and the virologic property and genogroup are not correlated.
Animals ; Base Sequence ; Chiroptera ; Genotype ; Hantaan virus* ; Hantavirus ; Humans ; Korea* ; Murinae ; Rats ; Sequence Homology ; Specimen Handling

Leptospirosis has been one of important epidemic diseases in Korea since 1984. Wild rodents, mostly Apodemus agrarius, served the important source of infection especially in harvest season in rural areas of Korea. Prevalence of Leptospira spp. infection in field rodents were investigated by detecting leptospiral DNA from rodent kidney. Among 108 rodents collected from various areas in 1998, leptospiral DNA were detected from 7 rodents (6.48%). Among 104 rodents, Apodemus agrarius, captured from Yeonchon and Paju area in 2001 and 2002, leptospiral DNA were detected from 6 rodents (5.76%). No leptospiral DNA was detected from 23 rodonts (Apodemus peninsulae 16, Apodemus agrarius 2 and Eothenomys regulus 5) captured in Odae mountain area in 1998.
Animals ; DNA* ; Kidney ; Korea ; Leptospira ; Leptospirosis ; Murinae ; Polymerase Chain Reaction* ; Prevalence ; Rodentia* ; Seasons