Comparative evaluation of two ELISA kits for detecting antibodies to a nonstructural protein of foot-and-mouth disease virus using serum samples collected from naturally and experimentally infected cows

When foot-and-mouth disease (FMD) occurs and a “vaccination-to-live” policy is adopted in a country, the country must perform serological surveillance of a nonstructural protein (NSP) of FMD virus. The NCPanaftosa kit is the only kit for detecting antibodies to NSPs that is officially recognized as...

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Published inJournal of Veterinary Medical Science Vol. 80; no. 10; pp. 1624 - 1630
Main Authors FUKAI, Katsuhiko, YAMADA, Manabu, YAMAKAWA, Makoto, NISHI, Tatsuya, SHIMADA, Nobuaki, MORIOKA, Kazuki, YOSHIDA, Kazuo
Format Journal Article
LanguageEnglish
Published Japan JAPANESE SOCIETY OF VETERINARY SCIENCE 2018
Japan Science and Technology Agency
The Japanese Society of Veterinary Science
Subjects
Animals
Antibodies
Antibodies, Viral - blood
Cattle
Cattle Diseases - immunology
Cattle Diseases - virology
ELISA
Enzyme-linked immunosorbent assay
Enzyme-Linked Immunosorbent Assay - methods
Enzyme-Linked Immunosorbent Assay - veterinary
Female
Foot & mouth disease
Foot-and-Mouth Disease - immunology
Foot-and-mouth disease virus
Foot-and-Mouth Disease Virus - immunology
Immunoglobulins
Japan
nonstructural protein
Sensitivity and Specificity
Vaccination
Viral Nonstructural Proteins - immunology
Viral Vaccines - administration & dosage
Viral Vaccines - immunology
Virology
Japan
Foot-and-mouth disease virus
cattle
ELISA
nonstructural protein
Online AccessGet full text

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Abstract When foot-and-mouth disease (FMD) occurs and a “vaccination-to-live” policy is adopted in a country, the country must perform serological surveillance of a nonstructural protein (NSP) of FMD virus. The NCPanaftosa kit is the only kit for detecting antibodies to NSPs that is officially recognized as the reference regent by the World Organization for Animal Health; however, it is only used in South American countries. In this study, the specificity and sensitivity of the NCPanaftosa kit were compared with those of the PrioCHECK kit sold by an international company. Results in this study suggest that the PrioCHECK kit performs similarly to the NCPanaftosa kit in detecting antibodies to the NSP in the cattle population.
AbstractList When foot-and-mouth disease (FMD) occurs and a "vaccination-to-live" policy is adopted in a country, the country must perform serological surveillance of a nonstructural protein (NSP) of FMD virus. The NCPanaftosa kit is the only kit for detecting antibodies to NSPs that is officially recognized as the reference regent by the World Organization for Animal Health; however, it is only used in South American countries. In this study, the specificity and sensitivity of the NCPanaftosa kit were compared with those of the PrioCHECK kit sold by an international company. Results in this study suggest that the PrioCHECK kit performs similarly to the NCPanaftosa kit in detecting antibodies to the NSP in the cattle population.When foot-and-mouth disease (FMD) occurs and a "vaccination-to-live" policy is adopted in a country, the country must perform serological surveillance of a nonstructural protein (NSP) of FMD virus. The NCPanaftosa kit is the only kit for detecting antibodies to NSPs that is officially recognized as the reference regent by the World Organization for Animal Health; however, it is only used in South American countries. In this study, the specificity and sensitivity of the NCPanaftosa kit were compared with those of the PrioCHECK kit sold by an international company. Results in this study suggest that the PrioCHECK kit performs similarly to the NCPanaftosa kit in detecting antibodies to the NSP in the cattle population.
When foot-and-mouth disease (FMD) occurs and a “vaccination-to-live” policy is adopted in a country, the country must perform serological surveillance of a nonstructural protein (NSP) of FMD virus. The NCPanaftosa kit is the only kit for detecting antibodies to NSPs that is officially recognized as the reference regent by the World Organization for Animal Health; however, it is only used in South American countries. In this study, the specificity and sensitivity of the NCPanaftosa kit were compared with those of the PrioCHECK kit sold by an international company. Results in this study suggest that the PrioCHECK kit performs similarly to the NCPanaftosa kit in detecting antibodies to the NSP in the cattle population.
When foot-and-mouth disease (FMD) occurs and a “vaccination-to-live” policy is adopted in a country, the country must perform serological surveillance of a nonstructural protein (NSP) of FMD virus. The NCPanaftosa kit is the only kit for detecting antibodies to NSPs that is officially recognized as the reference regent by the World Organization for Animal Health; however, it is only used in South American countries. In this study, the specificity and sensitivity of the NCPanaftosa kit were compared with those of the PrioCHECK kit sold by an international company. Results in this study suggest that the PrioCHECK kit performs similarly to the NCPanaftosa kit in detecting antibodies to the NSP in the cattle population.
Author MORIOKA, Kazuki
YAMAKAWA, Makoto
YOSHIDA, Kazuo
NISHI, Tatsuya
YAMADA, Manabu
FUKAI, Katsuhiko
SHIMADA, Nobuaki
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Keywords Foot-and-mouth disease virus
cattle
ELISA
nonstructural protein
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References 21. Sørensen, K. J., de Stricker, K., Dyrting, K. C., Grazioli, S. and Haas, B. 2005. Differentiation of foot-and-mouth disease virus infected animals from vaccinated animals using a blocking ELISA based on baculovirus expressed FMDV 3ABC antigen and a 3ABC monoclonal antibody. Arch. Virol. 150: 805–814.
6. Bergmann, I. E., Malirat, V., Neitzert, E., Beck, E., Panizzutti, N., Sánchez, C. and Falczuk, A. 2000. Improvement of a serodiagnostic strategy for foot-and-mouth disease virus surveillance in cattle under systematic vaccination: a combined system of an indirect ELISA-3ABC with an enzyme-linked immunoelectrotransfer blot assay. Arch. Virol. 145: 473–489.
20. Smitsaart, E., Espinoza, A. M., Maradei, E., Cosentino, B., Guinzburg, M., Madonni, G., Cadenazzi, G., Bottini, R., Filippi, J. and Bergmann, I. 2015. Importance of foot and mouth disease vaccine purity in interpreting serological surveys. Rev. - Off. Int. Epizoot. 34: 755–766, 741–754.
14. Fukai, K., Nishi, T., Shimada, N., Morioka, K., Yamada, M., Yoshida, K., Sakamoto, K., Kitano, R., Yamazoe, R. and Yamakawa, M. 2017. Experimental infections using the foot-and-mouth disease virus O/JPN/2010 in animals administered a vaccine preserved for emergency use in Japan. J. Vet. Med. Sci. 79: 128–136.
8. Bergmann, I. E., Malirat, V. and Neitzert, E. 2005. Non-capsid proteins to identify foot-and-mouth disease viral circulation in cattle irrespective of vaccination. Biologicals 33: 235–239.
11. Fukai, K., Morioka, K. and Yoshida, K. 2011. An experimental infection in pigs using a foot-and-mouth disease virus isolated from the 2010 epidemic in Japan. J. Vet. Med. Sci. 73: 1207–1210.
19. Paton, D. J., Füssel, A. E., Vosloo, W., Dekker, A. and De Clercq, K. 2014. The use of serosurveys following emergency vaccination, to recover the status of “foot-and-mouth disease free where vaccination is not practised”. Vaccine 32: 7050–7056.
3. Anonymous, . Chapter 2.1.8. Foot and mouth disease (infection with foot and mouth disease virus). Manual of Diagnostic Tests and Vaccines for Terrestrial Animals 2016. http://www.oie.int/fileadmin/Home/eng/Health_standards/tahm/2.01.08_FMD.pdf [accessed on June 11, 2018].
10. Brown, F. 2003. The history of research in foot-and-mouth disease. Virus Res. 91: 3–7.
7. Bergmann, I. E., Neitzert, E., Malirat, V., Ortiz, S., Colling, A., Sánchez, C. and Correa Melo, E. 2003. Rapid serological profiling by enzyme-linked immunosorbent assay and its use as an epidemiological indicator of foot-and-mouth disease viral activity. Arch. Virol. 148: 891–901.
17. Knowles, N. J. and Samuel, A. R. 2003. Molecular epidemiology of foot-and-mouth disease virus. Virus Res. 91: 65–80.
1. Anonymous, . Activities in 2015. OIE Reference Laboratory Reports Activities. http://www.oie.int/fileadmin/Home/eng/Our_scientific_expertise/reflabreports/2015/report_18_2015_Foot_and_mouth_disease_BRAZIL.pdf [accessed on June 11, 2018].
4. Anonymous, . OIE-approved International Standard Sera. 2016. http://www.oie.int/en/our-scientific-expertise/veterinary-products/reference-reagents/ [accessed on June 11, 2018].
18. Onozato, H., Fukai, K., Kitano, R., Yamazoe, R., Morioka, K., Yamada, M., Ohashi, S., Yoshida, K. and Kanno, T. 2014. Experimental infection of cattle and goats with a foot-and-mouth disease virus isolate from the 2010 epidemic in Japan. Arch. Virol. 159: 2901–2908.
5. Barnett, P. V., Geale, D. W., Clarke, G., Davis, J. and Kasari, T. R. 2015. A review of OIE country status recovery using vaccinate-to-live versus vaccinate-to-die foot-and-mouth disease response policies I: benefits of higher potency vaccines and associated NSP DIVA test systems in post-outbreak surveillance. Transbound. Emerg. Dis. 62: 367–387.
16. Gonzales, J. L., Barrientos, M. A., Quiroga, J. L., Ardaya, D., Daza, O., Martinez, C., Orozco, C., Crowther, J. and Paton, D. J. 2014. Within herd transmission and evaluation of the performance of clinical and serological diagnosis of foot-and-mouth disease in partially immune cattle herds. Vaccine 32: 6193–6198.
2. Anonymous, . Chapter 8.8. Infection with foot and mouth disease virus. Terrestrial Animal Health Code 2016. http://www.oie.int/index.php?id=169&L=0&htmfile=chapitre_fmd.htm [accessed on June 11, 2018].
12. Fukai, K., Morioka, K., Onozato, H., Yoshida, K. and Sakamoto, K. 2013. Comparative evaluation of three commercial ELISA kits for detection of antibodies to a nonstructural protein of foot-and-mouth disease virus. J. Vet. Med. Sci. 75: 693–699.
13. Fukai, K., Nishi, T., Morioka, K., Yamada, M., Yoshida, K., Kitano, R., Yamazoe, R. and Kanno, T. 2016. Further evaluation of an ELISA kit for detection of antibodies to a nonstructural protein of foot-and-mouth disease virus. J. Vet. Med. Sci. 78: 365–373.
15. Geale, D. W., Barnett, P. V., Clarke, G. W., Davis, J. and Kasari, T. R. 2015. A review of OIE country status recovery using vaccinate-to-live versus vaccinate-to-die foot-and-mouth disease response policies II: waiting periods after emergency vaccination in FMD free countries. Transbound. Emerg. Dis. 62: 388–406.
9. Brocchi, E., Bergmann, I. E., Dekker, A., Paton, D. J., Sammin, D. J., Greiner, M., Grazioli, S., De Simone, F., Yadin, H., Haas, B., Bulut, N., Malirat, V., Neitzert, E., Goris, N., Parida, S., Sørensen, K. and De Clercq, K. 2006. Comparative evaluation of six ELISAs for the detection of antibodies to the non-structural proteins of foot-and-mouth disease virus. Vaccine 24: 6966–6979.
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References_xml – reference: 20. Smitsaart, E., Espinoza, A. M., Maradei, E., Cosentino, B., Guinzburg, M., Madonni, G., Cadenazzi, G., Bottini, R., Filippi, J. and Bergmann, I. 2015. Importance of foot and mouth disease vaccine purity in interpreting serological surveys. Rev. - Off. Int. Epizoot. 34: 755–766, 741–754.
– reference: 4. Anonymous, . OIE-approved International Standard Sera. 2016. http://www.oie.int/en/our-scientific-expertise/veterinary-products/reference-reagents/ [accessed on June 11, 2018].
– reference: 15. Geale, D. W., Barnett, P. V., Clarke, G. W., Davis, J. and Kasari, T. R. 2015. A review of OIE country status recovery using vaccinate-to-live versus vaccinate-to-die foot-and-mouth disease response policies II: waiting periods after emergency vaccination in FMD free countries. Transbound. Emerg. Dis. 62: 388–406.
– reference: 2. Anonymous, . Chapter 8.8. Infection with foot and mouth disease virus. Terrestrial Animal Health Code 2016. http://www.oie.int/index.php?id=169&L=0&htmfile=chapitre_fmd.htm [accessed on June 11, 2018].
– reference: 7. Bergmann, I. E., Neitzert, E., Malirat, V., Ortiz, S., Colling, A., Sánchez, C. and Correa Melo, E. 2003. Rapid serological profiling by enzyme-linked immunosorbent assay and its use as an epidemiological indicator of foot-and-mouth disease viral activity. Arch. Virol. 148: 891–901.
– reference: 11. Fukai, K., Morioka, K. and Yoshida, K. 2011. An experimental infection in pigs using a foot-and-mouth disease virus isolated from the 2010 epidemic in Japan. J. Vet. Med. Sci. 73: 1207–1210.
– reference: 19. Paton, D. J., Füssel, A. E., Vosloo, W., Dekker, A. and De Clercq, K. 2014. The use of serosurveys following emergency vaccination, to recover the status of “foot-and-mouth disease free where vaccination is not practised”. Vaccine 32: 7050–7056.
– reference: 18. Onozato, H., Fukai, K., Kitano, R., Yamazoe, R., Morioka, K., Yamada, M., Ohashi, S., Yoshida, K. and Kanno, T. 2014. Experimental infection of cattle and goats with a foot-and-mouth disease virus isolate from the 2010 epidemic in Japan. Arch. Virol. 159: 2901–2908.
– reference: 1. Anonymous, . Activities in 2015. OIE Reference Laboratory Reports Activities. http://www.oie.int/fileadmin/Home/eng/Our_scientific_expertise/reflabreports/2015/report_18_2015_Foot_and_mouth_disease_BRAZIL.pdf [accessed on June 11, 2018].
– reference: 14. Fukai, K., Nishi, T., Shimada, N., Morioka, K., Yamada, M., Yoshida, K., Sakamoto, K., Kitano, R., Yamazoe, R. and Yamakawa, M. 2017. Experimental infections using the foot-and-mouth disease virus O/JPN/2010 in animals administered a vaccine preserved for emergency use in Japan. J. Vet. Med. Sci. 79: 128–136.
– reference: 6. Bergmann, I. E., Malirat, V., Neitzert, E., Beck, E., Panizzutti, N., Sánchez, C. and Falczuk, A. 2000. Improvement of a serodiagnostic strategy for foot-and-mouth disease virus surveillance in cattle under systematic vaccination: a combined system of an indirect ELISA-3ABC with an enzyme-linked immunoelectrotransfer blot assay. Arch. Virol. 145: 473–489.
– reference: 5. Barnett, P. V., Geale, D. W., Clarke, G., Davis, J. and Kasari, T. R. 2015. A review of OIE country status recovery using vaccinate-to-live versus vaccinate-to-die foot-and-mouth disease response policies I: benefits of higher potency vaccines and associated NSP DIVA test systems in post-outbreak surveillance. Transbound. Emerg. Dis. 62: 367–387.
– reference: 9. Brocchi, E., Bergmann, I. E., Dekker, A., Paton, D. J., Sammin, D. J., Greiner, M., Grazioli, S., De Simone, F., Yadin, H., Haas, B., Bulut, N., Malirat, V., Neitzert, E., Goris, N., Parida, S., Sørensen, K. and De Clercq, K. 2006. Comparative evaluation of six ELISAs for the detection of antibodies to the non-structural proteins of foot-and-mouth disease virus. Vaccine 24: 6966–6979.
– reference: 3. Anonymous, . Chapter 2.1.8. Foot and mouth disease (infection with foot and mouth disease virus). Manual of Diagnostic Tests and Vaccines for Terrestrial Animals 2016. http://www.oie.int/fileadmin/Home/eng/Health_standards/tahm/2.01.08_FMD.pdf [accessed on June 11, 2018].
– reference: 17. Knowles, N. J. and Samuel, A. R. 2003. Molecular epidemiology of foot-and-mouth disease virus. Virus Res. 91: 65–80.
– reference: 12. Fukai, K., Morioka, K., Onozato, H., Yoshida, K. and Sakamoto, K. 2013. Comparative evaluation of three commercial ELISA kits for detection of antibodies to a nonstructural protein of foot-and-mouth disease virus. J. Vet. Med. Sci. 75: 693–699.
– reference: 13. Fukai, K., Nishi, T., Morioka, K., Yamada, M., Yoshida, K., Kitano, R., Yamazoe, R. and Kanno, T. 2016. Further evaluation of an ELISA kit for detection of antibodies to a nonstructural protein of foot-and-mouth disease virus. J. Vet. Med. Sci. 78: 365–373.
– reference: 8. Bergmann, I. E., Malirat, V. and Neitzert, E. 2005. Non-capsid proteins to identify foot-and-mouth disease viral circulation in cattle irrespective of vaccination. Biologicals 33: 235–239.
– reference: 16. Gonzales, J. L., Barrientos, M. A., Quiroga, J. L., Ardaya, D., Daza, O., Martinez, C., Orozco, C., Crowther, J. and Paton, D. J. 2014. Within herd transmission and evaluation of the performance of clinical and serological diagnosis of foot-and-mouth disease in partially immune cattle herds. Vaccine 32: 6193–6198.
– reference: 21. Sørensen, K. J., de Stricker, K., Dyrting, K. C., Grazioli, S. and Haas, B. 2005. Differentiation of foot-and-mouth disease virus infected animals from vaccinated animals using a blocking ELISA based on baculovirus expressed FMDV 3ABC antigen and a 3ABC monoclonal antibody. Arch. Virol. 150: 805–814.
– reference: 10. Brown, F. 2003. The history of research in foot-and-mouth disease. Virus Res. 91: 3–7.
– ident: 2
– ident: 8
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Snippet When foot-and-mouth disease (FMD) occurs and a “vaccination-to-live” policy is adopted in a country, the country must perform serological surveillance of a...
When foot-and-mouth disease (FMD) occurs and a "vaccination-to-live" policy is adopted in a country, the country must perform serological surveillance of a...
When foot-and-mouth disease (FMD) occurs and a “vaccination-to-live” policy is adopted in a country, the country must perform serological surveillance of a...
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SubjectTerms Animals
Antibodies
Antibodies, Viral - blood
Cattle
Cattle Diseases - immunology
Cattle Diseases - virology
ELISA
Enzyme-linked immunosorbent assay
Enzyme-Linked Immunosorbent Assay - methods
Enzyme-Linked Immunosorbent Assay - veterinary
Female
Foot & mouth disease
Foot-and-Mouth Disease - immunology
Foot-and-mouth disease virus
Foot-and-Mouth Disease Virus - immunology
Immunoglobulins
Japan
nonstructural protein
Sensitivity and Specificity
Vaccination
Viral Nonstructural Proteins - immunology
Viral Vaccines - administration & dosage
Viral Vaccines - immunology
Virology
Title Comparative evaluation of two ELISA kits for detecting antibodies to a nonstructural protein of foot-and-mouth disease virus using serum samples collected from naturally and experimentally infected cows
URI https://www.jstage.jst.go.jp/article/jvms/80/10/80_17-0662/_article/-char/en
https://www.ncbi.nlm.nih.gov/pubmed/30135332
https://www.proquest.com/docview/2239614052
https://www.proquest.com/docview/2092543189
https://pubmed.ncbi.nlm.nih.gov/PMC6207510
Volume 80
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