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Deteksi Avian Influenza PEMBAHASAN

6. SIMPULAN DAN SARAN

6.1 Simpulan

1. Virus Avian Influenza terdeteksi pada 1.08 sampel feses dan 1.12 unggas yang dijual di Pasar Burung Pramuka, Jakarta. Namun, tidak ada virus AI subtipe H5 yang terdeteksi. Seluruh sampel yang positif berasal dari kelompok unggas hias atau kicauan. 2. Sebanyak tujuh dari 163 unggas 4.29 di Pasar Burung Pramuka, Jakarta positif memiliki antibodi terhadap AI subtipe H5. Unggas yang memiliki antibodi AI subtipe H5 terdeteksi pada kelompok unggas hias atau kicauan, unggas air, dan unggas lahan basah. 3. Unggas di Pasar Burung Pramuka, Jakarta yang terinfeksi AI umumnya berasal dari pulau Jawa. Tidak ada pengaruh nyata antara kejadian AI dengan cuaca walaupun terjadi peningkatan kasus AI di musim pancaroba.

6.2 Saran

1. Diperlukan penelitian lebih lanjut untuk mengisolasi, mengidentifikasi dan mengkarakterisasi VAI yang terdeteksi dalam penelitian ini. 2. Diperlukan penelitian untuk mengetahui patobiologi isolat VAI pada unggas domestik. 3. Diperlukan penelitian lebih lanjut untuk mengetahui subtipe VAI selain H5 pada unggas maupun hewan lain yang dijual di Pasar Burung Pramuka, Jakarta. 4. Diperlukan pemeriksaan laboratorium yang lebih ketat oleh pihak karantina terhadap unggas yang diimpor. DAFTAR PUSTAKA Alexander DJ. 1995. Review The Epidemiology and Control of Avian Influenza and Newcastle Disease. J Comp Path Vol. 112: 105 126 Alexander DJ. 2000. A review of avian influenza in different bird species. Vet Microbiol 74: 3-13. Alexander DJ. 2007. An overview of the epidemiology of avian influenza. Vaccine 25: 5637 –5644. Aminah. 2012. Kajian Persistensi dan Penularan Virus Avian Influenza di Peternakan Itik Menggunakan Teknik real time RT-PCR. [Tesis]. Bogor: Sekolah Pascasarjana Institut Pertanian Bogor. Amonsin A, Choatrakol C, Lapkuntod J, Tantilercharoen R, Thanawongnuwech R, Suradhat S, Suwannakarn K, Theamboonlers A, Poovorwan Y.. 2008. Influenza Virus H5N1 in Live Bird Markets and Food Markets, Thailand. Emerging Infect Dis 14 11: 1739-1742. Artika I M. 2008. Teknologi Asam Nukleat dan Protein. Bogor: Departemen Biokimia, Fakultas Matematika dan Ilmu Pengetahuan Alam, Institut Pertanian Bogor. Basuni S, Setiyani G. 1989. Studi Perdagangan Burung di Pasar Pramuka, Jakarta dan Teknik Penangkapan Burung di Alam. Media Konservasi II 2: 9-18. Bavinck V, Bouma A, van Boven M, Bos MEH, Stassen E, Stegeman JA. 2009. The role of backyard poultry flocks in the epidemic of highly pathogenic avian influenza virus H7N7 in the Netherlands in 2003. Preventive Veterinary Medicine 88: 247 –254. [BBalitvet]. Balai Besar Penelitian Veteriner. 2012. Peranan Unggas Air Itik dalam Penyebaran Virus AI. http:bbalitvet.litbang.deptan.go.idindindex.php contentarticle37- berita-utama360-peranan-unggas-air-itik-dalam-penyebaran-virus-ai. [ 9 Desember 2012]. [BKHI]. UPT Balai Kesehatan Hewan dan Ikan, Dinas Kelautan dan Pertanian Provinsi DKI Jakarta. 2011. Hasil Survailans Avian Influenza pada Unggas di DKI Jakarta Tahun 2006-2011. Jakarta: UPT BKHI Dinas Kelautan dan Pertanian, Provinsi DKI Jakarta. Boyce WM, Androck C, Kreuder-Johnson C, Kelly T, Cardona C. 2009. Review Avian influenza viruses in wild birds: A moving target. Comp Immunol, Microb and Infect Dis 32: 275-286. Busani L, Valsecchi MG, Rossi E, Toson M, Ferre N, Pozza MD, Marangon S. 2008. Risk factors for highly pathogenic H7N1 avian influenza virus infection in poultry during the 1999 –2000 epidemic in Italy. The Vet Jou doi:10.1016j.tvjl.2008.02.013. Bush RM, Bender CA, Subbarao K, Cox NJ, Fitch WM. 1999. Predicting the evolution of human influenza A. Science 286: 1921-1925 Campitelli L, Ciccozzi M, Salemi M, Taglia F, Boros S, Donatelli I, Rezza G. 2006. H5N1 influenza virus evolution: a comparison of different epidemics in birds and humans 1997-2004. J Gen Virol 87: 955-960. Capua I, Mutinelli F, Marangon S, Alexander DJ. 2000. H7N1 avian influenza in Italy 1999 –2000 in intensively reared chickens and turkeys. Avian Pathol 29: 537 –43. Capua CI, Mutinelli F, Pozza MD, Donatelli I, Puzelli S, Cancellotti FM. 2002. The 1999 –2000 avian influenza H7N1 epidemic in Italy: Veterinary and human health implications. Acta Tropica 83: 7 –11. Capua I, Alexander DJ. 2009. Avian Influenza and Newcastle Disease: A Field and Laboratory Manual. Milan: Springer-Verlag Italia. Cardona CJ, Xing Z, Sandrock CE, Davis CE. 2009. Avian Influenza in birds and mammals. Comparative Immunology, Microbiology and Infectious Diseases 32: 255-273. [CDPH]. California Department of Public Health. 2009 What is a cross sectional study? http:www.ehib.orgfaq.jsp?faq_key=41. [15 Agustus 2011]. Chen H, Smith GJD, Zhang SY, Oin K, Wang J, Li KS, Webster RG, Yu K, 2005. H5N1 outbreak in migratory waterfowl. Nature 436: 191 –192. Chen R, Holmes EC. 2006. Avian influenza virus exhibit rapid evolutionary dynamics. Mol Biol evol 70 1: 98-105. Chen W, He B, Zang X, Wu W, Yin X, Fan B, Fan X, dan Wang J. 2007. Real- time RT-PCR for H5N1 Avian Influenza A virus detection. J Med Microbiol 56 5: 603-607. Cheung PC, Leung YHC, Chow CK, Ng CF, Tsang CL, Wu YO, Ma SK, Sia SF, Guan Y, Peiris JSM. 2009. Identifying the species-origin of faecal droppings used for avian influenza virus surveillance in wild-birds. J of Clin Virol 46: 90 –93. Coloma R, Valpuesta JM, Arranz R, Carrascosa JL, Ortin J, Martin Benito J. 2009. The structure of a biologically active influenza virus ribonucleoprotein complex. PloS Pathog 5 6: e1000491. Das A, Spackman E, Pantin Jackwood MJ, Swayne DE, Suarez DL. 2007. Presented at the American Association of Veterinary Laboratory Diagnosticians Conference, Reno, NV. Dharmayanti, NLP. I dan Darminto. 2009. Mutasi Virus AI di IndonesiaAntigenic Drift Protein Hemaglutinasi HA Virus Influenza H5N1 Tahun 2003 – 2006. Media Kedokteran Hewan 251: 1 – 8. Desiliyarni T. 2006. Applied Biosystem Real-Time PCR 73007500 Systems, Bahan Pelatihan: Dasar-dasar Real-Time PCR, Praktikum dengan TaqMan Influenza AH5H7N1 v2.0 Detection Kit, Penggunaan Primer Express Software. Jakarta: PT Laborindo Sarana. Doherty PC, Turner SJ, Webby RG, dan Thomas PG. 2006. Influenza and the challenge for immunology. Nature Immunology 7 5: 449-455. Dugan VG, Chen R, Spiro DJ, Sengamalay N, Zaborsky J, Ghedin E, Nolting J, Swayne DE, Runstadler JA, Happ GM, Senne DA, Wang R, Slemons RD, Holmes EC, Taubenberger JK. 2008. The Evolutionary Genetics and Emergence of Avian Influenza Viruses in Wild Birds. Plos Pathogens 4 5. http:www.plospathogens.orgarticleinfo3Adoi2F10.13712F journal.ppat.1000076. Elvinger F, Akey BL, Senne DA, Pierson FW, Porter-Spalding BA, Spackman E, Suarez DL. 2007. Characteristic of diagnostic tests used in the 2002 low pathogenic avian influenza H7N2 outbreak in Virginia. J Vet Diagn Invest 19 4: 341-348. [FAO] Food and Agriculture Organizations of the United Nations. 2007. Surveilance for early detection of Highly pathogenic avian influenza H5N1 in the Americas: concepts and guidelines. [FKH IPB dan DEPTAN RI] Fakultas Kedokteran Hewan Institut Pertanian Bogor dan Departemen Pertanian Republik Indonesia. 2005. Laporan Akhir Kajian Seroepidemiologi Penyakit Avian Influenza serta Strategi Penanggulangan dan Pencegahannya di Sumatera dan Kalimantan. Bogor: FKH IPB. Furuse Y, Suzuki A, Kamigaki T, Oshitani H. 2009. Evolution of the M gene of the influenza A virus in different host species: large-scale sequence analysis. Virology J 6 67. doi:10.11861743-422X-6-67. Gall A, Hoffmann B, Harder T, Grund C, Hoper D, Bee M. 2009. Design and Validation of a Microarray for Detection, Hemagglutinin Subtyping, and Pathotyping of Avian Influenza Viruses. J of Clin Microbiol 47: 327 –334. Gosler A. 2007. Birds of the World, a Photographic Guide. New York: Firefly book. Harris A, Cardone G, Winkler DC, Heymann JB, Brecher M, White JM, Steven A. 2006. Influenza virus pleiomorphy characterizad by cryoelectron tomography. Proc Natl Acad Sci USA 103: 19123-19127. Heine H, Trinidad L, Selleck P. 2005. Influenza virus type A and subtype H5- specific real-time reverse transcription RRT-PCR for detection of Asian H5N1 isolates. Australia: CSIRO. Hulse-Post DJ, Sturm-Ramirez KM, Humberd J, Seiler P, Govorkova EA, Krauss S, Scholtissek C, Puthavathana P, Buranathai C, Nguyen TD, Long HT, Naipospos TSP, Chen H, Ellis TM, Guan Y, Peiris JSM, Webster RG. 2005. Role of domestic ducks in the propagation and biological evolution of highly pathogenic H5N1 influenza viruses in Asia. Proc Natl Acad Sci USA 102: 10682-10687. [ITIS] Integrated Taxonomic Information System. 2012. IT IS Report. [terhubung berkala]. http:www.itis.gov [13 Juli 2012]. Indriani R, Dharmayanti NLPI, Adjid RMA, Darminto. 2011. Potensi Virus ACkWest JavaPWT-Wij2006 H5N1sebagai Vaksin. J Biol Indon 7 2: 309-320. Jatikusumah A, Basri C, Sunandar, Deswarni, Hidjah D. 2010. Seasonal impact on Higly Pathogenic Avian Influenza HPAI cases in chickens coming to Poultry Collecting Facilities PCFS in Jakarta. Di dalam: Prosiding Pertemian Ilmiah Tahunan; Bogor, 20-22 Juli 2010. Bogor: South East Asia Veterinary School Association. Hlm 85-86. Kalthoff D, Breithaupt A, Teifke JP, Globig A, Harder T, Mettenleiter TC, dan Beer M. 2008. Highly Pathogenic Avian Influenza Virus H5N1 in Experimentally Infected Adult Mute Swans. Emerg Infect Dis 14 8: 1267-1270. Kalthoff D, Globig A, Beer M. 2009. Highly pathogenic avian influenza as a zoonotic agent. Vet. Microbiol. doi:10.1016j.vetmic.2009.08.022. Keawcharoen J, Van Riel D, Van Amerongen G, Bestebroer T, Beyer WE, Van Lavieren R, Osterhaus ADME, Fouchier RAM, Kuiken T. 2008. Wild ducks as long-distance vectors of highly pathogenic avian influenza virus H5N1. Emerg Infect Dis 14 4: 600 –607. [Kementan] Kementrian Pertanian. 2012. Surat Edaran Direktorat Jendral Peternakan dan Kesehatan Hewan 06042PD.610F122012 tentang Pengendalian Penyakit AI pada Itik. Jakarta: Kementrian Pertanian.

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