Peneguhan diagnosis Avian Influenza pada Ayam Petelur yang Mengalami Gejala Penurunan Produksi
Rina Isnawati(1*), Hastari Wuryastuti(2), R Wasito(3)
(1) Balai Penelitian dan Pengembangan Kesehatan Donggala
(2) Departemen Ilmu Penyakit Dalam Fakultas Kedokteran Hewan Universitas Gadjah Mada
(3) Departemen Patologi Fakultas Kedokteran Hewan Universitas Gadjah Mada
(*) Corresponding Author
Abstract
Decreasing egg production is an initial symptom of various diseases that infect commercial layer chickens. Diagnosis of diseases causing the decrease in egg production without high mortality rate is often thought to be caused by other poultry diseases because of the many similarities in manifestation between one disease and another. Avian influenza is a zoonotic infectious disease in poultry that can lead to high economic losses. This study aims to determine the contribution of avian influenza virus (AIV) infection to commercial laying hens showing symptoms of decreased production. The samples were oropharyngeal swabs of commercial laying hens which had symptoms of decreased production at productive age. Laboratory tests were carried out by histopathological examination, detection and identification of AIV with real time reverse transcriptase polymerase chain reaction (qRT-PCR) and isolation with the viral culture technique on fertile chicken eggs. The results showed that there was type A AIV infection based on the qRT-PCR (matrix) test, but the subtypes were not identified (H5, H7, H9). The results of the isolation of the virus in the fertile chicken eggs showed embryonic death in which all embryonic organs show hemorrhages. Allantoic fluid does not agglutinate chicken red blood cells. Histopathological features of the pathognomonic lesions in lungs infected with AIV were severe congestion and hemorrhages. Based on the results of the study, it was concluded that there was a contribution of type A AIV infection. Early diagnosis of AIV could determine more appropriate actions, including control, prevention and eradication.
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AAHL. (2012). Avian influenza. Australia and New Zealand Standard Diagnostic Procedures. Australia. 1-32.
AAHL. (2006). In House Australian Animal Health Laboratory. Geelong, Australia.
Alexander, D.J., (2000). A Review of Avian influenza in Defferent Bird Species. Vet. Microbiol. 74: 3-13.
Anggraini, G.A., Santosa, P.E., Suharyati, S. (2014). Profil titer antibodi Avian Influenza (AI) dan Newcastle Disease (ND) pada itik pejantan di kecamatan Candirejo Kabupaten Pringsewu. J.Ilmiah Pet.Terpadu. 2: 101-106.
Arnold, M.E., Slomka, M.J., Coward, V.J., Mahmood, S.J., Raleigh, P.J., Brown, I.H. (2013). Evaluation of the pooling ofswabs for the rael-time PCR detection of low titre shedding of low pathogenicity Avian influenza in turkeys. Epidemiol.infect. 141: 1286-1297.
Capua, I., Terregino, C., Cattoli, G., Mutinelli, F., Rodriguez, J.F. (2003). Development of a DIVA (Differentiating infected from vaccinated animals) Strategy Using a Vaccine Containing a Heterologous Neuraminidase for the Control of Avian influenza. J. Avian Pathol. 32: 47-55.
Chon, H., Choi, B., Jeong, G., Mo, I., (2008). Evaluation System for an Experimental Study of Low-pathogenic Avian influenza Virus (H9N2) Iinfection in Specific Pathogen Free Chickens using Lactic Acid Bacteria, Lactobacillus plantarum KFCC11389P. J.Avian Pathol. 37: 593–597.
Dharmayanti , N.L.P.I., Damayanti, R., Wiyono, A., Indriani, R., dan Darminto. (2004). Identifikasi virus Avian Influenza isolat Indonesia dengan Reverse Transcriptase Polymerase Chain Reaction (RT-PCR). J.I.T.V. 9: 136 – 142.
Dharmayanti, N.L.P. I., Damayanti, R., Indriani, R., Wiyono, A dan Adjid, R.M.A., (2005). Karakterisasi Molekuler Virus Avian Influenza Isolat Indonesia. J.I.T.V. 10: 127–133.
Dharmayanti, N.L.P.I. dan Darminto. (2009). Mutasi virus AI di Indonesia: Antigenic drift protein Hemaglutinin (HA) virus influenza H5NI tahun 2003-2006. Media Kedokteran Hewan. 25(1): 1-8).
Dharmayanti NLPI, Hartawan R, Hewajuli DA. (2016). Pengembangan sejumlah primer untuk reverse transcriptase polymerase chain reaction guna melacak virus flu burung di Indonesia. J. Vet. 17: 183-196
Hagag, I.T., Mansour, S.M.G., Zhang, Z., Ali, A.A. H.J., Ismael, E.B., Salama, A.A., Cardona, C.J., Collins, J., Xing, Z. (2015). Pathogenicity of Highly Pathogenic Avian Influenza Virus H5N1 in Naturally Infected Poultry in Egypt. Plos one. 1-15
Haryanto, A., Andinita, D., Irianingsih, S.R., Yudianingtyas, D.W. (2012). Diagnosa cepat virus Avian influenza tipe A subtipe H5 dari spesimen lapangan dengan metode one step simplex RT-PCR. J.Ked. Hewan. 6: 6-10.
Harimoto, T and Kawaoka, Y. (2001). Pandemic Threat Posed by Avian Influenza A viruses. Clin. Microbiol. Rev. 14: 129-149.
Heider, A., Mochalova,L., Harder,T., Tuzikov, A., Bovin, N., Wolff, A., Matrosovich,M., Schweiger, B. (2015). Alterations in Hemagglutinin Receptor-binding Specificity Accompany the Emergence of Highly Pathogenic Avian influenza Viruses. J.Virol. 89: 5395-405.
Helmi, T.Z., Tabbu, C.R., Artama, W.T., Haryanto, A., Isa, M. (2016). Isolasi dan identifikasi virus Avian influenza pada berbagai spesies unggas secara serologis dan molekuler. J.Ked. Hewan. 10: 86-90.
Hewajuli, D.A., Dharmayanti, N.L.P.I., Wibawan, I.W.T. (2017). Deteksi, isolasi dan identifikasi Avian influenza subtipe H5N1 pada unggas di Pulau Jawa, Indonesia Tahun 2016. J. Vet. 18: 496-509.
Indriani R, Dharmayanti, N.L.P.I, Adjid, R.M.A. (2011). Tingkat proteksi beberapa vaksin Avian Influenza unggas terhadap infeksi virus isolat lapang A/chicken/West Java/Smi-Pat/2006 dan A/chicken/West Java/Smi-Mae/2008. J.I.T.V. 16: 153-161.
Ilham, N. dan Yusdja, Y. (2010). Dampak flu burung terhadap produksi unggas dan kontribusi usaha unggas terhadap pendapatan peternakan skala kecil di Indonesia. J. Agro. Ekonomi. 28 : 39-68.
Ip, H.S., Dusek, R.J., Heisey, D.M. (2012). The Effect of swab sample choice on the detection of Avian influenza in apparently healthy wild ducks. Avian. Dis. 56: 114-119.
Jeong, O.M., Kim, M.C., Kang, H.M., Kim, H.R., Joh, S.J., Kwon, J.H., Lee, Y.J. (2009). Experimental infection of chickens, ducks, and quails with the highly pathogenic H5N1 avian influenza virus. J Vet Sci. 10: 53-60.
Kumar, V., Abbas, A.K., Fausto, N. (2003). Pathology basic disease 7th Ed. Elsevier, Missouri, USA.
Li, K.S., Guan, Y., Wang, J., Smith, G.J.D., Xu, K.M., Duan, L., Ronohardjo, A.P., Puthavathana, P., Buranathai, C., Nguyen, T.D., Estoepangestie, A.T., Chaisingh, A., Auewarakul, P., Long, H.T., Hanh, N.T., Webby, R.J., Poon, L.L.M., Chen, H., Shortridge, K.F., Yuen, K.Y., Webster, R.G. and Peiris. J.S.M. (2004). Genesis of Highly Pathogenic and Potentially Pandemic H5N1 Influenza Virus in Eastern Asia. Nature. 340: 209-213.
McLeod, A., Morgan, N., Parakash, A. and Hinrichs, J . (2007). Economic and Social Impacts of Avian Influenza. FAO, Emergency Centre for Transboundary Animal Diseases Operations (ECTAD). Retrieved November 1, 2018, from http://www.fao.org/avianflu/documents/Economic-and-social-impacts-of-avian-influenza-Geneva.pdf
Moresco, K.A. (2010). Evaluation of avian embryos and cell culture for isolation and propagation of low pathogenicity avian influenza viruses. Thesis, University of Georgia.
Muflihanah., Andesfha, E., Wibawa, H., Zenal, F.C., Hendrawati, F., Siswani., Wahyuni., Kartini, D., Rahayuningtyas, I., Hadi, S., Mukartini, S., Poermadjaja, B., Tjatur Rasa, F.S. (2017). Kasus Pertama Low Pathogenic Avian Influenza Subtipe H9N2 pada Peternakan Ayam Petelur di Kabupaten Sidrap, Sulawesi Selatan Indonesia. Diagnosa Veteriner. 16: 1-13.
OIE. (2015). Avian influenza, Chapter 2.3.4 terestrial manual 2015. Retrieved October 28, 2018, from http://www.oie.int/fileadmin/Home/eng/Health_standards/2.03.04_AI.pdf.
Payungporn, S., Chutinimitkul, S., Chaisingh, A., Damrongwantanapokin, S., Buranathai, C., Amonsi, A., Theamboonlers, A., Poovorawan, Y. (2006). Single step multiplex real time RT-PCR for H5N1 influenza A virus detection. J. Virol. Meth. 131: 143-147.
Saberfar, E., Forghani-Fard, M.M., Mosavi, M. (2007). Multiplex reverse transcriptase-PCR assay for typing and subtyping of influenza A (H5 & H9) virus in Iran. I.B.J. 11: 69-74.
Setiyono, A dan Bermawie, N. (2014). Gambaran histopatologis dan klinis ayam herbal setelah diuji tantang dengan virus Avian influenza H5N1. J. Ked. Hewan. 8: 30-34.
Spackman, E., Senne, D.A., Myers, T.J., Bulaga, L.L., Garber, L.P., Perdue, M.L., Lohman, K., Daum, L.T., Suarez, D.L., (2002). Development of a real time reverse transcriptase PCR assay for type A influenza virus and the avian H5 and H7 hemagglutinin subtype. J. Clin. Microbiol. 40: 3256-3260.
Stevens, J., Blixt,O., Tumpey, T.M., Taubenberger, J.K., Paulson, J.C., Wilson, I.A. (2006). Structure and receptor specificity of the hemagglutinin from an H5N1 influenza virus. Science. 312: 404-410.
Swayne, D.E and Patin, M., (2008). Pathobiology of Avian influenza virus infection in birds and mamals, dalam Swayne, D.E. (Ed) Avian influenza. Blackwell Publishing. Iowa. 87-88.
Swayne, D.E., Suarez, D.L., Sims, L.D. (2013). Influenza. In: Swayne, D.E., Glisson, J.R., McDougald, L.R., Nair, V., Nolan, L.K., Suarez, D.L. (Eds.), Diseases of Poultry, 13th ed. Wiley-Blackwell, Ames, Iowa. 181–218.
Tarigan, S., (2015). Infeksi Subklinis Avian Influenza H5N1 pada Peternakan Ayam yang Menerapkan Program Vaksinasi. Wartazoa. 25: 075-084.
Tong, S., Zhu, X., Li, Y., Shi, M., Jing, Z., Bourgeois, M., Hua, Y., Chen, X., Sergio, R., Gomes, J., Chen, L.M., Johnson, A., Tao, Y., Drefus, C., Yu, W., Bride, R.M., Carney, P.J., Gilbert, A.T., Chang, J., Guo, Z., Davis, C.T., Paulson, J.C., Steven, J., Rupprecht, C.E., Holmes, E.C., Wilson, I.A and Donis, R.O. (2013). New World Bats Harbor diverse influenza a viruses. Plos Pathog. 9: e1003657.
Tong, S., Li, Y., Rivailler, P., Conrardy, C., Castillo, D.A., Chen, L.M., Recuenco, S., Ellison, J.A., Davis, C.T., York, I.A., Turmelle, A.S., Moran, D., Rogers, S., Shi, M., Tao, Y., Weil, M.R., Tang, K., Rowe, L.A., Sammons, S., Xu, X., Frace, M., Linblade, K.A., Cox, N.J., Anderson L.J., Rupprecht, C.E., and Donis, R.O. (2012). A Distinct Lineage of Influenza A Virus from Bats. Proceed. Nat. Acad of Sci. 109: 4269-4274.
Viseshakul, N., Thanawongnuwech, R., Amonsin, A., Suradhat,S., Payungporn, S., Keawchareon, J., Oraveerakul, K., Wongyanin, P., Plitkul, S., Theamboonlers, A., Poovorawan. Y. (2004). The Genome Sequence Analysis of H5N1 A Virus Isolated from the Outbreak among Poultry Populations in Thailand. Virology. 328: 169-176.
Wasito,R., Wuryastuti, H., dan Sutrisno, B. (2018). Detection of Mixed Infection of Avian Influenza and Newcastle Disease Viruses in Chickens in Indonesia by Immunopathologic Immunohistochemistry Double Staining. Pak Vet J. Retrieved November 1, 2018, from http://dx.doi.org/10.29261/pakvetj/2018.078.
Wasito,R., Wuryastuti, H., dan Sutrisno, B. (2017). Pengembangan dan aplikasi double staining: Diagnosis dini, cepat dan akurat infeksi campuran kasus lapangan avian influenza virus dan Newcastle disease virus pada unggas. Laporan akhir. Kegiatan penelitian unggulan perguruan tinggi. Lembaga Penelitian dan Pengabdian Masyarakat, Universitas Gadjah Mada, Yogyakarta, Indonesia.
Wasito,R., Wuryastuti, H., Tjahyowati, G., Irianingsih, S.H., Tyasasmaya,T., (2014). Detection and Differentation of Pathogenic H5 and H7 Influenza A Virus Subtypes in Indonesia Poultry by Multiplex Reverse Transcriptation Polymerase Chain Reaction. Net. J. 2: 27-31.
Webster, R.G. and Hulse, D.J., (2004). Microbial adaptation and change: Avian influenza. Rev. Sci. Tech. 23: 453-465.
WHO. (2011). WHO global influenza surveillance network: Manual for the laboratory diagnosis and virological surveillance of influenza. Retrieved Sept 13, 2018, from https://www.who.int/influenza/gisrs_laboratory/manual_diagnosis_surveillance_influenza/en/
Wiyono, A., Indriani, R., Dharmayanti, N.L.P.I., Damayanti, R. dan Darminto. (2004). Isolasi dan Karakterisasi Virus Highly Pathogenic Subtipe H5 dari Ayam asal Wabah di Indonesia. J.I.T.V. 9: 61-71.
Wu,Y., Tefsen,B., Shi Y, Gao,G.F. (2014). Bat-derived influenza-like viruses H17N10 and H18N11. Trends Microbiol. 22: 183-91.
Zeynalova, S., Guliyev, F., Vatani, M., Abbasov, B. (2015). Biosurveillance of avian influenza and Newcastle disease viruses in thr Barda region of Azerbaijan using real time RT-PCR and hemagglutinin inhibition. Frontiers in Microbiol. 6: 1-10.
DOI: https://doi.org/10.22146/jsv.40602
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