Infectious bovine rhinotracheitis/infectious pustular vulvovaginitis (IBR/IPV) is a highly contagious viral disease of domestic and wild cattle causing high economic loss in cattle industry. The disease is caused by bovine herpes virus 1 (BoHV-1). BHV-1 is distributed worldwide including the exporting country Netherlands except it has been eradicated from Austria, Denmark, Finland, Sweden, Switzerland and Norway. To know the status of the disease in Ethiopia, 1430 sera samples were collected starting from January 3- 26, 2016 from four regions. However, samples are not yet processed. As part of the genetic improvement of the local breeds, the ministry of livestock and fishery of Ethiopia has already decided to import 120 bulls in March 2016 for semen production. Before the importation this bulls, an import risk assessment of IBR/IPB was conducted with the objective of assessing the risk of introduction of BHV1 to Ethiopia through the importation of infected bulls from Netherlands. Hence, hazard identification conclusion revealed the introduction of BHV1 or its abortifacient strains are regarded as potential hazards. Following the entry of infected bulls, the likelihood establishment and transmission of IBR to formerly imported breed and indigenous cattle was indicated to be high. The overall likelihood occurrence of IBR following the importation of infected bulls was assessed to be high. Potentially exotic strains of bovine herpes viruses would cause significant health impact in susceptible cattle including illness, abortion, stillbirth, neonatal death and calf mortality thereby leading to high economic losses in cattle industry. However there would little effect on people and environment. The overall level of consequence of IBR was assessed to be minor. In general, the overall risk of IBR occurrence following the importation of infected bull was estimated from moderate to high. However, this risk can be mitigated if bulls intended for importation are sourced from IBR/IPB free country and healthy check-up and detection capacity of infected animals at entry point of Ethiopia is intensified, the awareness of animal health workers and farm owners about IBR is raised with enhanced surveillance system and diagnostic capacity of the BHV1 in the importing country.
| Published in | Animal and Veterinary Sciences (Volume 9, Issue 3) |
| DOI | 10.11648/j.avs.20210903.16 |
| Page(s) | 80-87 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Bovine Herpes Virus, Bulls, Semen, Importation, Risk Analysis
| [1] | Silva, M. S., Brum, M. C. S., Loreto, E. L. S., Weiblen, R., Flores, E. F., 2007. Molecular and antigenic characterization of Brazilian bovine herpesvirustype 1 isolates recovered from the brain of cattle with neurological disease. Virus Res. 129, 191–199. |
| [2] | Straub, O. C., 2001. Advances in BHV1 (IBR) research. Deutsche Tierärztliche Wochenschrift 108, 419–42. |
| [3] | Ackermann, M., Engels, M., 2006. Pro and contra IBR-eradication. Veterinary Microbiology 113, 293–302. |
| [4] | Sayers, R. G., Byrne, N., O'Doherty, E. and Arkins, S., 2015. Prevalence of exposure to bovine viral diarrhoea virus (BVDV) and bovine herpesvirus-1 (BoHV-1) in Irish dairy herds. Research in Veterinary Science, 100, pp. 21-30. |
| [5] | Kahrs, R. F. (Ed.), 2001. Infectious bovine rhinotracheitis and infectious pustular vulvovaginitis. Viral Diseases of Cattle. Iowa State University Press, Ames, IA, pp. 159–170. |
| [6] | Roels, S., Charlier, G., Letellier, C., Meyer, G., Schynts, F., Kerkhofs, P., Thiry, E., Vanopdenbosch, L., 2000. Natural case of bovine herpesvirus 1 meningo-encephalitis in adult cow. Vet. Rec. 146, 586–588. |
| [7] | Muylkens, B., Meurens, F., Schynts, F., Farnir, F., Pourchet, A., Bardiau, M., Gogev, S., Thiry, J., Cuisenaire, A., Vanderplasschen, A., et al., 2007. Intraspecific bovine herpesvirus 1 recombinants carrying glycoprotein E deletion as a vaccine markerare virulent in cattle. Journal of General Virology 87, 2149–2154. |
| [8] | Van Engelenburg, F. A., Van Schie, F. W., Rijsewijk, F. A., Van Oirschot, J. T., 1995. Excretion of bovine herpesvirus 1 in semen is detected much longer by PCR than by virus isolation. J. Clin. Microbiol. 33, 308–312. |
| [9] | Mollema, L., Koene, P., de Jong, M. C., 2006. Quantification of the contact structure in a feral cattle population and its hypothetical effect on the transmission of bovine herpesvirus 1. Prev. Vet. Med. 77, 161–179. |
| [10] | Mars, M. H., De Jong, M. C. M., Van Maanen, C., Hage, J. J. and Van Oirschot, J. T., 2000. Airborne transmission of bovine herpesvirus 1 infections in calves under field conditions. Vet. Microbiol, 76 (1): 1-13. |
| [11] | Nandi, S, Kumar M, Manohar M, Chauhan R. 2009. Bovine herpes virus infections in cattle. Animal Health Research Reviews; 10: 85–98. |
| [12] | Nardelli, S., Farina, G., Lucchini, R., Valorz, C., Moresco, A., Dal Zotto, R., Costanzi, C., 2008. Dynamics of infection and immunity in a dairy cattle population undergoing an eradication programme for infectious bovine rhinotracheitis (IBR). Preventive Veterinary Medicine 85, 68–80. |
| [13] | Van Wuijckhuise, L., Bosch, J., Franken, P., Frankena, K., Elbers, A. R., 1998. Epidemiological characteristics of bovine herpes virus 1 infections determined by bulk milk testing of all Dutch dairy herds. Veterinary Record 142, 181–184. |
| [14] | OIE, 2010. Infectious bovine rhinotracheitis/ infectious pustular vulvovaginitis. Version adopted by the World Assembly of Delegates of the OIE; Chapter 2.4.13. |
| [15] | OIE, 2019, Section 2 Risk analysis, Chapter 2.1. Import Risk analysis. Article 2.1.1. 2019 Terrestrial Animal Health Code - 28/06/2019. |
| [16] | Davison, A. J., Eberle, R., Ehlers, B., Hayward, G. S., McGeoch, D. J., Minson, A. C., Pellett, P. E., Roizman, B., Studdert, M. J., Thiry, E., 2009. The order Herpesvirales. Arch. Virol. 154, 171–177. |
| [17] | Brock, J., Lange, M., Guelbenzu-Gonzalo, M., Meunier, N., Vaz, A. M., Tratalos, J. A., Dittrich, P., Gunn, M., More, S. J., Graham, D. and Thulke, H. H., 2020. Epidemiology of age-dependent prevalence of Bovine Herpes Virus Type 1 (BoHV-1) in dairy herds with and without vaccination. Veterinary research, 51 (1), pp. 1-13. |
| [18] | Malla, J. A., Chakravarti, S., Gupta, V., Chander, V., Sharma, G. K., Qureshi, S., Mishra, A., Gupta, V. K. and Nandi, S., 2018. Novel polymerase spiral reaction (PSR) for rapid visual detection of bovine herpesvirus 1 genomic DNA from aborted bovine fetus and semen. Gene, 644, 107-112. |
| [19] | Dagalp, S. B., Farzani, T. A., Dogan, F., Alkan, F. and Ozkul, A., 2020. Molecular and antigenic characterization of bovine herpesvirus type 1 (BoHV-1) strains from cattle with diverse clinical cases in Turkey. Tropical animal health and production, 52 (2), pp. 555-564. |
| [20] | Petrini, S., Iscaro, C. and Righi, C., 2019. Antibody responses to bovine alphaherpesvirus 1 (BoHV-1) in passively immunized calves. Viruses, 11 (1), 23. |
| [21] | Fulton, R. W., d’Offay, J. M., Dubovi, E. J. and Eberle, R., 2016. Bovine herpesvirus-1: Genetic diversity of field strains from cattle with respiratory disease, genital, fetal disease and systemic neonatal disease and their relationship to vaccine strains. Virus research, 223, 115-121. |
| [22] | van Oirschot, J. T., Kaashoek, M. J., Rijsewijk, F. A., Stegeman, J. A., 1996. The use of markervaccines in eradication of herpesviruses. Journal of Biotechnology 44, 75–81. |
| [23] | Kramps J. A., Banks M., Beer M., Kerkhofs P., Perrin M., Wellenberg G. J. & van Oirschot J. T., 2004. Evaluation of tests for antibodies against bovine herpesvirus 1 performed in national reference laboratories in Europe. Vet Microbiol., 102, 169–181. |
| [24] | Sibhat, B., Ayelet, G., Skjerve, E., Gebremedhin, E. Z. and Asmare, K., 2018. Bovine herpesvirus-1 in three major milk sheds of Ethiopia: Serostatus and association with reproductive disorders in dairy cattle. Preventive veterinary medicine, 150, 126-132. |
| [25] | Oliveira, M. T., Campos, F. S., Dias, M. M., Velho, F. A., Freneau, G. E., Brito, W. M. E. D., Rijsewijk, F. A. M., Franco, A. C. and Roehe, P. M., 2011. Detection of bovine herpesvirus 1 and 5 in semen from Brazilian bulls. Theriogenology, 75 (6), pp. 1139-1145. |
| [26] | Nuotio, L., Neuvonen, E. and Hyytiäinen, M., 2007. Epidemiology and eradication of infectious bovine rhinotracheitis/infectious pustular vulvovaginitis (IBR/IPV) virus in Finland. Acta Veterinaria Scandinavica, 49 (1), 1-6. |
| [27] | Bielanski, A., Algire, J., Lalonde, A. and Garceac, A., 2014. Risk of transmission of bovine herpesvirus‐1 (BHV‐1) by infected semen to embryo recipients and offspring. Reproduction in Domestic Animals, 49 (2), 197-201. |
| [28] | Reichel, M. P., Wahl, L. C. and Hill, F. I., 2018. Review of diagnostic procedures and approaches to infectious causes of reproductive failures of cattle in Australia and New Zealand. Frontiers in veterinary science, 5, 222. |
APA Style
Hagos Asgedom, Kuastros Mekonnen Belaynehe. (2021). Qualitative Risk Analysis of IBR Introduction to Ethiopia via the Legal Importation of Bulls from Netherlands. Animal and Veterinary Sciences, 9(3), 80-87. https://doi.org/10.11648/j.avs.20210903.16
ACS Style
Hagos Asgedom; Kuastros Mekonnen Belaynehe. Qualitative Risk Analysis of IBR Introduction to Ethiopia via the Legal Importation of Bulls from Netherlands. Anim. Vet. Sci. 2021, 9(3), 80-87. doi: 10.11648/j.avs.20210903.16
AMA Style
Hagos Asgedom, Kuastros Mekonnen Belaynehe. Qualitative Risk Analysis of IBR Introduction to Ethiopia via the Legal Importation of Bulls from Netherlands. Anim Vet Sci. 2021;9(3):80-87. doi: 10.11648/j.avs.20210903.16
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.avs.20210903.16,
author = {Hagos Asgedom and Kuastros Mekonnen Belaynehe},
title = {Qualitative Risk Analysis of IBR Introduction to Ethiopia via the Legal Importation of Bulls from Netherlands},
journal = {Animal and Veterinary Sciences},
volume = {9},
number = {3},
pages = {80-87},
doi = {10.11648/j.avs.20210903.16},
url = {https://doi.org/10.11648/j.avs.20210903.16},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.avs.20210903.16},
abstract = {Infectious bovine rhinotracheitis/infectious pustular vulvovaginitis (IBR/IPV) is a highly contagious viral disease of domestic and wild cattle causing high economic loss in cattle industry. The disease is caused by bovine herpes virus 1 (BoHV-1). BHV-1 is distributed worldwide including the exporting country Netherlands except it has been eradicated from Austria, Denmark, Finland, Sweden, Switzerland and Norway. To know the status of the disease in Ethiopia, 1430 sera samples were collected starting from January 3- 26, 2016 from four regions. However, samples are not yet processed. As part of the genetic improvement of the local breeds, the ministry of livestock and fishery of Ethiopia has already decided to import 120 bulls in March 2016 for semen production. Before the importation this bulls, an import risk assessment of IBR/IPB was conducted with the objective of assessing the risk of introduction of BHV1 to Ethiopia through the importation of infected bulls from Netherlands. Hence, hazard identification conclusion revealed the introduction of BHV1 or its abortifacient strains are regarded as potential hazards. Following the entry of infected bulls, the likelihood establishment and transmission of IBR to formerly imported breed and indigenous cattle was indicated to be high. The overall likelihood occurrence of IBR following the importation of infected bulls was assessed to be high. Potentially exotic strains of bovine herpes viruses would cause significant health impact in susceptible cattle including illness, abortion, stillbirth, neonatal death and calf mortality thereby leading to high economic losses in cattle industry. However there would little effect on people and environment. The overall level of consequence of IBR was assessed to be minor. In general, the overall risk of IBR occurrence following the importation of infected bull was estimated from moderate to high. However, this risk can be mitigated if bulls intended for importation are sourced from IBR/IPB free country and healthy check-up and detection capacity of infected animals at entry point of Ethiopia is intensified, the awareness of animal health workers and farm owners about IBR is raised with enhanced surveillance system and diagnostic capacity of the BHV1 in the importing country.},
year = {2021}
}
TY - JOUR T1 - Qualitative Risk Analysis of IBR Introduction to Ethiopia via the Legal Importation of Bulls from Netherlands AU - Hagos Asgedom AU - Kuastros Mekonnen Belaynehe Y1 - 2021/06/29 PY - 2021 N1 - https://doi.org/10.11648/j.avs.20210903.16 DO - 10.11648/j.avs.20210903.16 T2 - Animal and Veterinary Sciences JF - Animal and Veterinary Sciences JO - Animal and Veterinary Sciences SP - 80 EP - 87 PB - Science Publishing Group SN - 2328-5850 UR - https://doi.org/10.11648/j.avs.20210903.16 AB - Infectious bovine rhinotracheitis/infectious pustular vulvovaginitis (IBR/IPV) is a highly contagious viral disease of domestic and wild cattle causing high economic loss in cattle industry. The disease is caused by bovine herpes virus 1 (BoHV-1). BHV-1 is distributed worldwide including the exporting country Netherlands except it has been eradicated from Austria, Denmark, Finland, Sweden, Switzerland and Norway. To know the status of the disease in Ethiopia, 1430 sera samples were collected starting from January 3- 26, 2016 from four regions. However, samples are not yet processed. As part of the genetic improvement of the local breeds, the ministry of livestock and fishery of Ethiopia has already decided to import 120 bulls in March 2016 for semen production. Before the importation this bulls, an import risk assessment of IBR/IPB was conducted with the objective of assessing the risk of introduction of BHV1 to Ethiopia through the importation of infected bulls from Netherlands. Hence, hazard identification conclusion revealed the introduction of BHV1 or its abortifacient strains are regarded as potential hazards. Following the entry of infected bulls, the likelihood establishment and transmission of IBR to formerly imported breed and indigenous cattle was indicated to be high. The overall likelihood occurrence of IBR following the importation of infected bulls was assessed to be high. Potentially exotic strains of bovine herpes viruses would cause significant health impact in susceptible cattle including illness, abortion, stillbirth, neonatal death and calf mortality thereby leading to high economic losses in cattle industry. However there would little effect on people and environment. The overall level of consequence of IBR was assessed to be minor. In general, the overall risk of IBR occurrence following the importation of infected bull was estimated from moderate to high. However, this risk can be mitigated if bulls intended for importation are sourced from IBR/IPB free country and healthy check-up and detection capacity of infected animals at entry point of Ethiopia is intensified, the awareness of animal health workers and farm owners about IBR is raised with enhanced surveillance system and diagnostic capacity of the BHV1 in the importing country. VL - 9 IS - 3 ER -
Information
Email: