• 제목/요약/키워드: swine influenza

검색결과 52건 처리시간 0.02초

신종플루 바이러스를 통한 인플루엔자 바이러스의 해석 및 전망 (Interpretation and Prospection of Influenza Virus through Swine-origin Influenza Virus)

  • 장경수
    • 대한임상검사과학회지
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    • 제42권1호
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    • pp.1-15
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    • 2010
  • Swine influenza virus (SIV) or swine-origin influenza virus (S-OIV) is endemic in swine, and classified into influenza A and influenza C but not influenza B. Swine influenza A includes H1N1, H1N2, H3N1, H3N2 and H2N3 subtypes. Infection of SIV occurs in only swine and that of S-OIV is rare in human. What human can be infected with S-OIV is called as zoonotic swine flu. Pandemic 2009 swine influenza H1N1 virus (2009 H1N1) was emerged in Mexico, America and Canada and spread worldwide. The triple-reassortant H1N1 resulting from antigenic drift was contained with HA, NA and PB1 of human or swine influenza virus, PB2 and PA polymerase of avian influenza virus, and M, NP and NS of swine influenza virus, The 2009 H1N1 enables to transmit to human and swine. The symptoms and signs in human infected with 2009 H1N1 virus are fever, cough and sore throat, pneumonia as well as diarrhea and vomiting. Co-infection with other viruses and bacteria such as Streptococcus pneumoniae can occur high mortality in high-risk population. 2009 H1N1 virus was easily differentiated from seasonal flu by real time RT-PCR which contributed rapid and confirmed diagnosis. The 2009 H1N1 virus was treated with NA inhibitors such as oseltamivir (Tamiflu) and zanamivir (Relenza) but not with adamantanes such as amantadine and rimantadine. Evolution of influenza virus has continued in various hosts. Development of a more effective vaccine against influenza prototypes is needed to protect new influenza infection such as H5 and H7 subtypes to infect to multi-organ and cause high pathogenicity.

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돼지 인플루엔자 바이러스의 혈청학적 역학조사 및 유전학적 분석 (Sero-epidemiology and genetic characterization of swine influenza virus)

  • 류영수;김로미
    • 대한수의학회지
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    • 제38권1호
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    • pp.53-63
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    • 1998
  • Total of 1085 swine sera (1996-1997) from nation-wide were tested for the presence of antibodies to influenza A virus. Fifty nine percent of the tested sera showed seropositive by HI test. Positive sera consisted of 24--- of H3, 15--- of H1, and 20--- of the sample had both antibodies, respectively. Sera collected from various region represented 7~27--- seropositivity to H1N1, 15~25--- to H3N2, respectively. Swine influenza field isolate from nasal swab was characterized antigenically and genetically to elucidate its relatedness with other known strains of influenza A virus. The study was focused on the HA gene which is related to pathogenecity and antigenic variability of the influenza virus. By RT-PCR using influenza A/H1N1 specific primers, influenza virus H1N1 specific DNA fragment was amplified from A/Swine/Iowa/15/30(H1N1), US field isolate but not in H3N2 strain. PCR products were sequenced by dideoxy chain termination method to determine nucleotide homology with other strains of influenza A virus. The US field isolate and A/Swine/Indiana/1726/88 strain had 97--- of nucleotide homology and 98--- of amino acid homology. Based on the results obtained from this experiment, the field isolate was genetically related to A/Swine/Indiana/1726/88 and had higher homology with A/Swine/Indiana/1726/88 than with classical swine influenza virus, A/Swine/Iowa/15/30. The field isolate had no amino acid changes at the antigenic site compare to that of the A/Swine/Indiana/1726/88. The proteolytic enzyme cleavage site between HA1 and HA2 had no alteration and the amino acid arginine was intact. There is no evidence has been found that the field isolate has genetic shift or genetic drift which might altered antigenic determinant.

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경남지역 내 돼지에서의 swine influenza virus (H1N1, H3N2) 감염률 조사 (Seroprevalence survey of swine influenza virus (H1N1, H3N2) in pigs in Gyeongnam area)

  • 장은희;하도윤;박동엽;이국천;허정호
    • 한국동물위생학회지
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    • 제34권3호
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    • pp.195-200
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    • 2011
  • Swine influenza is an acute respiratory disease prevalent in pig-growing areas all around the world and plays the roles of an intermediate host to be transmitted to mammals including human beings through a genetic recombination with the avian influenza virus. Recognizing that people could be contracted with swine influenza, this study set out to investigate the seroprevalence of individual and multiple infections with two subtypes (H1N1 and H3N2) of the swine influenza virus in pig farms in the Gyeongnam region according to age, area, and season, as well as to provide basic data for the prevention and control of swine influenza. Used in the study were total 904 swine sera that were not vaccinated against the influenza gathered from the pig farms in the Gyeongnam region from November, 2009 to October, 2010. HerdChek SIV (H1N1, H3N2) ELISA kit (IDEXX Laboratories, USA) was used for antibody testing against swine influenza. The test results show that 370 sera (40.9%) were infected with either H1N1 or H3N2 with 37.3% (337 sera) being contracted with H1N1, 13.1% (118 sera) with H3N2, and 9.4% (85) with both H1N1 and H3N2.

2009년 신종 인플루엔자로 영남대학교 의료원에 입원한 환아의 실태 조사 (Experience for S-OIV of Admission Pediatric Patient with S-OIV at YUMC, 2009)

  • 성명순;최광해
    • Journal of Yeungnam Medical Science
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    • 제27권1호
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    • pp.18-26
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    • 2010
  • The clinical picture in severe cases of pandemic (H1N1) 2009 influenza is markedly different from the disease pattern seen during the epidemics of seasonal influenza as many of those affected were previously healthy young people. Current predictions estimate that during a pandemic wave, 12~30% of the population will develop clinical influenza (compared with 5~15% for seasonal influenza) with 4% of those patients requiring hospital admissions and one in five requiring critical care. Until July 6, 94,512 people have been infected in 122 countries, of whom 429 have died with an overall case-fatality rate of <0.5%. Most of the confirmed cases of S-OIV (Swine-Origin Influenza A Virus) infection have been characterized by a self-limited, uncomplicated febrile respiratory illness and 38% of the cases have also included vomiting or diarrhea. Efforts to control these outbreaks are based on our understanding of novel S-OIV (Swine-Origin Influenza A Virus) and the previous influenza pandemics. So, this review covers the experience with S-OIV (Swine-Origin Influenza A Virus) for the admission and background data and the clinical presentation, diagnosis and treatment of H1N1 in pediatric patient with S-OIV (Swine-Origin Influenza A Virus) at YUMC, 2009.

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Molecular characterization of H3N2 influenza A virus isolated from a pig by next generation sequencing in Korea

  • Oh, Yeonsu;Moon, Sung-Hyun;Ko, Young-Seung;Na, Eun-Jee;Tark, Dong-Seob;Oem, Jae-Ku;Kim, Won-Il;Rim, Chaekwang;Cho, Ho-Seong
    • 한국동물위생학회지
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    • 제45권1호
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    • pp.31-38
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    • 2022
  • Swine influenza (SI) is an important respiratory disease in pigs and epidemic worldwide, which is caused by influenza A virus (IAV) belonging to the family of Orthomyxoviridae. As seen again in the 2009 swine-origin influenza A H1N1 pandemic, pigs are known to be susceptible to swine, avian, and human IAVs, and can serve as a 'mixing vessel' for the generation of novel IAV variants. To this end, the emergence of swine influenza viruses must be kept under close surveillance. Herein, we report the isolation and phylogenetic study of a swine IAV, A/swine/Korea/21810/2021 (sw21810, H3N2 subtype). BLASTN sequence analysis of 8 gene segments of the isolated virus revealed a high degree of nucleotide similarity (94.76 to 100%) to porcine strains circulating in Korea and the United States. Out of 8 genome segments, the HA gene was closely related to that of isolates from cluster I. Additionally, the NA gene of the isolate belonged to a Korean Swine H1N1 origin, and the PB2, PB1, NP and NS genes of the isolate were grouped into that of the Triple reassortant swine H3N2 origin virus. The PA and M genes of the isolate belonged to 2009 Pandemic H1N1 lineage. Human infection with mutants was most common through contact with infected pigs. Our results suggest the need for periodic close monitoring of this novel swine H3N2 influenza virus from a public health perspective.

2019년 국내에서 분리한 H1N2 돼지 인플루엔자바이러스 유전자 분석 및 이의 마우스에 대한 감염성 (Genetic Analysis of the 2019 Swine H1N2 Influenza Virus Isolated in Korean Pigs and Its Infectivity in Mice)

  • 장윤영;서상희
    • 생명과학회지
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    • 제30권9호
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    • pp.749-762
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    • 2020
  • 돼지인플루엔자는 동물에서 사람에게 감염할 수 있는 인수공통전염병이다. 우리는 2019년 한국 돼지농장에서 호흡기 증상을 보이는 돼지에서 3주의 H1N2형 인플루엔자바이러스를 분리하였다. 유전자 분석결과, 이들 바이러스의 8개 유전자 중 PA 및 NP 유전자는 2009 대유행 H1N1 인플루엔자 유래였고, 나머지 유전자는 돼지에 유행하는 H3N2 및 H1N2 인플루엔자 유래 유전자를 가진 재조합 바이러스 이었다. 분리된 H1N2 바이러스를 마우스에 접종한 결과, 마우스는 17% 정도 체중이 감소하였고, 염증 세포들이 침윤한 간질성 폐렴 증상을 보였다.

Genetic and Antigenic Characterization of Swine H1N2 Influenza Viruses Isolated from Korean Pigs

  • Jo, Su-Kyoung;Kim, Hyun-Soo;Cho, Sung-Whan;Seo, Sang-Heui
    • Journal of Microbiology and Biotechnology
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    • 제17권5호
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    • pp.868-872
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    • 2007
  • H1N2 influenza viruses are circulating in pigs worldwide and cause considerable economic losses to the pig industry. We genetically analyzed the genes of our isolates from Korean pigs, and compared the antigenicity of our isolates with swine H1N2 viruses isolated from pigs in the U.S.A. In addition, we serologically surveyed the infection rate of swine H1N2 viruses in pigs. We found that H1N2 isolates from Korean pigs are genetically more related to swine H1N2 viruses isolated from pigs in the U.S.A. than those in European countries. When antigenicity was compared, our isolates were weakly reacted to antibodies against swine H1N2 viruses isolated from pigs in the U.S.A. The serological surveillance using sera from pigs in Korea showed that about 46% was positive for H1N2 viruses. Our results suggest that swine H1N2 viruses are widespread in Korean pigs, and the development of a vaccine against H1N2 viruses may help to control their infection in pigs.

Study of Specific Oligosaccharide Structures Related with Swine Flu (H1N1) and Avian Flu, and Tamiflu as Their Remedy

  • Yoo, Eun-Sun
    • Journal of Microbiology and Biotechnology
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    • 제21권5호
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    • pp.449-454
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    • 2011
  • The infection of pandemic influenza viruses such as swine flu (H1N1) and avian flu viruses to the host cells is related to the following two factors: First, the surface protein such as HA (hemagglutinin) and NA (neuraminidase) of the influenza virus. Second, the specific structure of the oligosaccharide [sialic acid(${\alpha}2$-6) galactose(${\beta}1$-4)glucose or sialic acid(${\alpha}2$-3)galactose(${\beta}1$-4)glucose] on the host cell. After recognizing the specific structure of the oligosaccharide on the surface of host cells by the surface protein of the influenza virus, the influenza virus can secrete sialidase and cleave the sialic acid attached on the final position of the specific structure of the oligosaccharide on the surface of host cells. Tamiflu (oseltamivir), known as a remedy of swine flu, has a saccharide analog structure, especially the sialic acid analog. Tamiflu can inhibit the invasion of influenza viruses (swine flu and avian flu viruses) into the host cells by competition with sialic acid on the terminal position of the specific oligosaccharide on the surface of the host cell. Because of the emergence of Tamiflu resistance, the development of new potent anti-influenza inhibitors is needed. The inhibitors with positive-charge groups have potential as antiviral therapeutics, and the strain specificity must also be resolved.

Identification of Reassortant Pandemic H1N1 Influenza Virus in Korean Pigs

  • Han, Jae-Yeon;Park, Sung-Jun;Kim, Hye-Kwon;Rho, Se-Mi;Nguyen, Giap Van;Song, Dae-Sub;Kang, Bo-Kyu;Moon, Hyung-Jun;Yeom, Min-Joo;Park, Bong-Kyun
    • Journal of Microbiology and Biotechnology
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    • 제22권5호
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    • pp.699-707
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    • 2012
  • Since the 2009 pandemic human H1N1 influenza A virus emerged in April 2009, novel reassortant strains have been identified throughout the world. This paper describes the detection and isolation of reassortant strains associated with human pandemic influenza H1N1 and swine influenza H1N2 (SIV) viruses in swine populations in South Korea. Two influenza H1N2 reassortants were detected, and subtyped by PCR. The strains were isolated using Madin-Darby canine kidney (MDCK) cells, and genetically characterized by phylogenetic analysis for genetic diversity. They consisted of human, avian, and swine virus genes that were originated from the 2009 pandemic H1N1 virus and a neuraminidase (NA) gene from H1N2 SIV previously isolated in North America. This identification of reassortment events in swine farms raises concern that reassortant strains may continuously circulate within swine populations, calling for the further study and surveillance of pandemic H1N1 among swine.

신종 H1N1 인플루엔자 (Novel swine-origin H1N1 influenza)

  • 이진아;이환종
    • Clinical and Experimental Pediatrics
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    • 제52권8호
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    • pp.862-868
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    • 2009
  • Since its identification in April 2009, a swine-origin H1N1 influenza A virus (S-OIV) which is a reassortment of gene segments from both North American triple-reassortant and Eurasian swine influenza has been widely spread among humans in unexpected rapidity. To date, each gene segment of the 2009 influenza A (H1N1) outbreak viruses have shown high (99.9%) neucleotide sequence identity. As of July 6, 94,512 people have been infected in 122 countries, of whom 429 have died with an overall case-fatality rate of <0.5%. Most confirmed cases of S-OIV infection have been characterized by self-limited, uncomplicated febrile respiratory illness and 38% of cases have also included vomiting or diarrhea. Standard plus droplet precautions should be adhered to at all times. Tests on S-OIV have indicated that current new H1N1 viruses are sensitive to neuraminidase inhibitors (oseltamivir). However, current less virulent S-OIV may evolve into a pathogenic strain or acquire antiviral resistance, potentially with more severe clinical consequences. Efforts to control these outbreaks would be based on our understanding of novel S-OIV and previous influenza pandemics.