 |
 |
 |
 |
 |
 |
Sains Malaysiana 48(12)(2019): 2727–2735
http://dx.doi.org/10.17576/jsm-2019-4812-14
West Nile Virus
Infection in Human and Animals: Potential Risks in Malaysia
(Jangkitan Virus Nil
Barat pada Manusia dan Haiwan: Potensi Risiko di Malaysia)
NUR AIN NAJWA MOHD YUSERI1, NOR YASMIN ABD. RAHAMAN1*, ABDUL RAHMAN OMAR2,4, SITI SURI ARSHAD2, JALILA ABU3 & HUSSNI OMAR MOHAMMED5
1Department of Veterinary
Laboratory Diagnostics, Faculty of Veterinary Medicine, Universiti Putra
Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan, Malaysia
2Department of Veterinary
Pathology and Microbiology, Faculty of Veterinary Medicine, Universiti Putra
Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan, Malaysia
3Department of Veterinary
Clinical Studies, Faculty of Veterinary Medicine, Universiti Putra Malaysia, 43400
UPM Serdang, Selangor Darul Ehsan, Malaysia
4Laboratory of Vaccines
and Immunotherapeutic, Institute of Bioscience, Universiti Putra Malaysia,
43400, UPM Serdang, Selangor Darul Ehsan, Malaysia
5College of Veterinary
Medicine, Department of Population Medicine and Diagnostic Sciences, Cornell
University, Ithaca, New York 14853, United States of America
Diserahkan: 23 Jun
2019/Diterima: 2 Oktober 2019
ABSTRACT
West Nile virus (WNV) is a zoonotic RNA virus
maintained in enzootic cycles involving mosquito mainly Culex and Aedes spp. as the vector and birds as the
reservoir host. WNV is endemic in Africa, Europe and
Western Asia. Human infection results in asymptomatic illness such as fever,
headache, tiredness, body aches, nausea, vomiting, skin rash, swollen lymph
glands and neuroinvasive disease are seen in less than 1% of infected persons.
The spectrum of symptoms in animals includes fever, weakness and paralysis of
hind limbs, impaired vision, ataxia, head pressing, aimless wandering,
seizures, inability to swallow, walking in circles and coma. Based on the
previous study in Malaysia, the antibody and nucleic acid against WNV were
detected in Orang Asli, captive birds and horses. In this paper, potential risk
factors contributing to WNV occurrence are discussed. How the
disease or infection is diagnosed and controlled was also discussed.
Keywords: Arthropod-borne virus; vector; West Nile virus; zoonotic
ABSTRAK
Virus Nil Barat (WNV) adalah virus RNA
zoonosis yang dikekalkan dalam kitaran enzootik yang
melibatkan nyamuk terutamanya Culex dan Aedes spp. sebagai vektor dan burung sebagai perumah reservoir. WNV
adalah endemik di Afrika, Eropah dan Asia Barat. Jangkitan
pada manusia akan mengakibatkan penyakit tidak bergejala seperti
demam, sakit kepala, keletihan, sakit badan, loya, muntah, ruam
kulit, bengkak kelenjar limfa dan penyakit neuroinvasif dilihat
kurang daripada 1% pada orang yang dijangkiti. Spektrum simptom
pada haiwan termasuk demam, lemah dan lumpuh anggota belakang, gangguan
penglihatan, ataksia, tekanan kepala, merayau tanpa tujuan, kejang,
ketidakupayaan untuk menelan, berjalan dalam lingkaran dan koma.
Berdasarkan kajian terdahulu di Malaysia, antibodi dan asid nukleik
terhadap WNV
dikesan pada Orang Asli, burung sangkar dan kuda.
Dalam kertas ini, faktor risiko berpotensi yang menyumbang kepada
terjadinya WNV dibincangkan.
Bagaimana penyakit atau jangkitan didiagnosis dan dikawal juga turut
dibincangkan. Kata kunci: Vektor; virus bawaan artopod; virus Nil Barat;
zoonosis
RUJUKAN
Bakonyi,
T., Hubalek, Z., Rudolf, I. & Nowotny, N. 2005. Novel Flavivirus or new
lineage of West Nile virus, Central Europe. Emerging Infectious Disease 11(2):
225-231.
Bamford,
M., Watkins, D., Bancroft, W., Tischler, G. & Wahl, J. 2008. Migratory
Shorebirds of the East Asian-Australasian Flyway: Population Estimates and
Internationally Important Sites. Wetlands International - Oceania.
Canberra, Australia.
Bartlett-Harley,
K., Unlu, I., Obenauer, P., Hughes., Healy, S., Crepeau, T., Farajollahi, A.,
Kesavaraju, B., Fonseca, D., Schoeler, G., Gaugler, R. & Strickman, D.
2012. Larval mosquito habitat utilization and community dynamics of Aedes
albopictus and Aedes japonicas (Diptera: Culicidae). Journal
of Medical Entomology 49(4): 813-824.
Beasley,
D. 2011. Vaccines and immunotherapeutic for the prevention and treatment of
infections with West Nile virus. Immunotheraphy 3(2): 269-285.
Blitvich,
B.J. 2008. Transmission dynamics and changing epidemiology of West Nile virus. Animal
Health Research Reviews 9(1): 71-86.
Bondre,
V.P., Jadi, R.S., Mishra, A.C., Yergolkar, P.N. & Arankalle, V.A. 2007.
West Nile virus isolates from India. Journal of General Virology 88(3):
875-884.
Breed,
A.C., Smith, C.S. & Epstein, J.H. 2006. Winged wanderers: Long distance
movements of flying foxes. The Encyclopedia of Mammals, edited by
Macdonald, D.W. Oxford: Oxford University Press. pp. 464-475.
Bunning,
M.I., Bowen, R.A., Cropp, C.B., Sullivan, K.G., Davis, B.S., Kala, N., Godsey,
M.S., Baker, D., Hettler, D.T., Holmes, D.A., Biggerstaff, B.J. & Mitchell,
C.J. 2002. Experimental infection of horses with West Nile virus. Emerging
Infectious Disease 8(4): 380-386.
Centers
for Disease Control and Prevention (CDC). 2000. Guidelines for surveillance,
prevention, and control of West Nile virus infection - United States, 2000. Morbidity
and Mortality Weekly Report 49(2): 25-28.
Chancey,
C., Griney, A., Volkova, E. & Rios, M. 2015. The global ecology and
epidemiology of West Nile virus. BioMed. Research International 2015:
1-20.
Ching,
C.Y., Casais, J., Bowen, E.T., Simpson, D.I., Platt, G.S., Way, H.J. &
Smith, C.E. 1970. Arbovirus infections in Sarawak: The isolation of Kunjin
virus from mosquitoes of the Culex pseudovishnui group. Annals of
Tropical Medicine & Parasitology 64(3): 263-268.
Dahlin,
C.R., Hughes, D.F., Meshaka Jr., W.E., Coleman, C. & Henning, J.D. 2016.
Wild snakes harbor West Nile virus. One Health 2: 136-138.
Dauphin,
G. & Zientara, S. 2007. West Nile virus: Recent trends in diagnosis and
vaccine development. Vaccine 25(30): 5563-5576.
Dupraz,
M., Toty, C., Devillers, E., Blanchon, T., Elguero, E., Vittecoq, M.,
Moutailler, S. & McCoy, K.D. 2017. Population structure of the soft tick Ornithodoros
marimatus and its associated infectious agents within a colony of its
seabird host Larus michahellis. International Journal for
Parasitology & Wildlife 6(2): 122-130.
Elisa,
P.R., Franscisco, L. & Miguel, A.J.C. 2014. Experimental infections of wild
birds with West Nile virus. Viruses 6(2): 752-781.
Elseginy,
S.A., Massarotti, A., Nawwar, G.A., Amin, K.M. & Brancale, A. 2014. Small
molecule inhibitors of West Nile virus. Antiviral Chemistry &
Chemotheraphy 23(5): 179-187.
Hayes,
E.B., Komar, N., Nasci, R.S., Montgomery, S.P., O’Leary, D.R. & Campbell,
G.J. 2005. Epidemiology and transmission dynamics of West Nile virus disease. Emerging
Infectious Disease 11(8): 1167-1173.
Impoinvil,
D.E., Baylis, M. & Solomon, T. 2012. Japanese Encephalitis: On the one
health agenda. In One Health: The Human-Animal Environment Interfaces in
Emerging Infectious Disease. Current Topics in Microbiology and Immunology,
edited by Mackenzie, J., Jeggo, M., Daszak, P. & Richt, J. Berlin:
Springer. Vol. 365. pp. 205-247.
Kalaiyarasu,
S., Mishra, N., Khetan, R.K. & Singh, V.P. 2016. Serological evidence of
widespread West Nile virus and Japanese Encephalitis virus infection in native
domestic ducks (Anas platyrhynchos var domesticus) in Kuttanad Region,
Kerala, India. Comparative Immunology, Microbiology & Infectious Disease 48: 61-68.
Kilpatrick,
A.M. 2011. Globalization, land use, and the invasion of West Nile virus. Science 334(1599): 323-327.
Komar,
N., Langevin, S., Hinten, S., Nemeth, N., Edwards, E., Hettler, D., Davis, B.,
Bowen, R. & Bunning, M. 2003. Experimental infection of North American
birds with the New York 1999 strain of West Nile virus. Emerging Infectious
Disease 9(3): 311-322.
Kumar, K., Arshad, S.S., Selvarajah, G.T., Jalila, A., Toung,
O.P., Abba, Y., Yasmin, A.R., Bande, F., Sharma, R. & Ong, B.L. 2018.
Japanese encephalitis in Malaysia: An overview and timeline. Acta Tropica 185:
219-229.
Lan,
D., Ji, W., Yu, D., Chu, J., Wang, C., Yang, Z. & Hua, X. 2011. Serological
evidence of West Nile virus in dogs and cats in China. Archives of Virology 156(5):
893-895.
Ledermann,
J.P., Lorono-Pino, M.A., Ellis, C., Saxton-Shaw, K.D., Blitvich, B.J., Beaty,
B.J., Bowen, R.A. & Powers, A.M. 2011. Evaluation of widely used diagnostic
tests to detect West Nile virus infections in horses previously infected with
St. Louis encephalitis virus or dengue virus Type 2. Clinical and Vaccine
Immunology 18: 580-587.
Li,
Y., Kamara, F., Zhou, G., Puthiyakunnon, S., Li, C., Liu, Y., Zhou, Y., Yao,
L., Yan, G. & Chen, X.G. 2014. Urbanization increases Aedes albopictus larval
habitats and accelerates mosquito development survivorship. PLoS Neglected
Tropical Disease 8(11): e3301.
Lvov,
D.K., Butenko, A.M. & Gromashevsky, V.L. 2004. West Nile virus and other
zoonotic viruses in Russia: Examples of emerging-reemerging situations. Archives
Virology Supplementa 18: 85-96.
Lynne,
M.W. 2016. The practice of clinical virology: Virus taxonomy. EC
Bacteriology and Virology Research 2.1: 43-48.
Malan,
A.K., Stipanovich, P.J., Martins, T.B., Hill, H.R. & Litwin, C.M. 2003.
Detection of IgG and IgM to West Nile virus. Microbiology and Infectious
Disease 119(4): 1-8.
Marfin,
A.A. & Gubler, D.J. 2001. West Nile encephalitis: An emerging disease in
the United States. Clinical Infectious Disease 33(10): 1713-1719.
Marlina,
S., Muhd Radzi, S.F., Lani, R., Sieng, K.C., Abdul Rahim, N.A., Hassan, H.,
Li-Yen, C., AbuBakar, S. & Zandi, K. 2014. Seroprevalance screening for the
West Nile virus in Malaysia’s orang asli population. Parasites & Vectors 7(597): 1-7.
Morales,
M.A., Fabbri, C.M., Zunino, G.E., Kowalewski, M.M., Luppo, V.C., Enria, D.A.,
Levis, S.C. & Calderon, G.E. 2017. Detection of the mosquito-borne Flaviviruses,
West Nile, dengue, Saint Loius encephalitis, Ilheus, Bussuquara, and yellow
fever in free-ranging black howlers (Alouatta caraya) of Northeastern
Argentina. PLoS Neglected Tropical Disease 11(2): 1-13.
Murgue,
B., Murri, S., Triki, H., Deubel, V. & Zeller, H.G. 2001. West Nile in the
Mediterranean basin: 1950-2000. Annals of the New York Academy of Sciences 951:
117-126.
Padgett,
K.A., Reisen, W.K., Kahl-Purcell, N., Fang, Y., Cahoon- Young, B., Carney, R.,
Anderson, N., Zucca, L., Woods, L., Husted, S. & Kramer, V.L. 2007. West
Nile virus infection in tree squirrels (Rodenta: Sciuridae) in
California, 2004-2005. The American Journal of Tropical Medicine &
Hygiene 76(5): 810-813.
Paily,
K.P., Chandhiran, K., Vanamail, P., Pradeep, K.N. & Jambulingam, P. 2013.
Efficacy of a mermithid nematode Romanomermis iyengari (Welch)
(Nematoda: Mermithidae) in controlling tree hole-breeding mosquito Aedes
albopictus (Skuse) (Diptera: Culicidae) in a rubber plantation area of
Kerala, India. Parasitology Research 112(3): 1299-1304.
Pattan,
S.R., Doghe, N.S., Nirmal, S.A., Bhawar, S.B., Dighe, S.B., Gaware, V.M. &
Hole, M.H. 2009. Japanese encephalitis disease: A review. Pharmacologyonline 2: 550-560.
Pesko,
K.N. & Ebel, G.D. 2012. West Nile virus population genetics and evolution. Infection,
Genetic and Evolution 12(2): 181-190.
Petersen,
L.R., Brault, A.C. & Nasci, R.S. 2013. West Nile virus: Review of the
literature. The Journal of the American Medical Association 310(3):
308-315.
Rais,
M.N., Omar, A.R., Jalila, A. & Mohammed, H.O. 2011. Prevalence of West Nile
virus antibody in captive bird populations in selected areas in Selangor,
Malaysia. In 6th Seminar on Veterinary Sciences. 11-14 January 2011;
Faculty of Veterinary Medicine, Universiti Putra Malaysia. p. 127.
Reisen,
W.K. 2013. Ecology of West Nile virus in North America. Viruses 5(9):
2079-2105.
Richards,
E.E., Masuoka, P., Brett-Major, D., Smith, M., Klein, T.A., Kim, H.C., Anyamba,
A. & Grieco, J. 2010. The relationship between mosquito abundance and rice
field density in the Republic of Korea. International Journal of Health
Geographics 9(32): 1-10.
Richter,
J., Tryfonos, C., Tourvas, A., Floridou, D., Paphitou, N.I. &
Christodoulou, C. 2017. Complete genome sequence of West Nile virus (WNV) from
the first human case of neuroinvasive WNV infection in Cyprus. Genome
Announcements 5(43): e01110- e01117.
Rizzoli,
A., Bolzoni, L., Chadwick, E.A., Capelli, G., Montarsi, F., Grisenti, M., de la
Puente, J.M., Munoz, J., Figuerola, J., Soriguer, R., Anfora, G., Luca, M.D.
& Rosa, R. 2015. Understanding West Nile virus ecology in Europe: Culex
pipiens host feeding preference in a hotspot of virus emergence. Parasites
& Vectors 8(213): 1-13.
Roehrig,
J.T., Nash, D., Maldin, B., Labowitz, A., Denise, A.M., Lanciotti, R.S. &
Campbell, G.L. 2003. Persistence of virus-reactive serum immunoglobulin M
antibody in confirmed West Nile virus encephalitis cases. Emerging
Infectious Disease 9(3): 376-379.
Sambri,
V., Capobianchi, M. & Charrel, R. 2013. West Nile virus in Europe. Clinical
Microbiology and Infection 19: 699-704.
Sifa,
A.H., Yasmin, A.R., Noraniza, M.A., Mohammed, H.O., Omar, A.R., Arshad, S.S.,
Jalila, A., Ain Najwa, M.Y., Ayuni, W.N. & Siti Tasnim, M. 2018. Serological
and molecular detection of West Nile virus in equines in Malaysia. 13th
Proceedings of the Seminar on Veterinary Sciences. 20-22 February 2018;
Faculty of Veterinary Medicine, Universiti Putra Malaysia. p. 120.
Steele,
K.E., Linn, M.J., Schoepp, R.J., Komar, N., Geisbert, T.W., Manduca, R.M.,
Calle, P.P., Raphael, B.I., Clippinger, T.L., Larsen, T., Smith, J., Lanciotti,
R.S., Panella, N.A. & Mc Namara, T.S. 2000. Pathology of fatal West Nile
virus infection in native and exotic birds during the 1999 outbreak in New York
City, New York. Veterinary Pathology 37(3): 208-224.
Sumodan,
P.K., Vargas, R.M., Pothikasiorn, J., Sumanrote, A., Robin, R.L. &
Dujardin, J.P. 2015. Rubber plantations in Thailand and their mosquito fauna.
In Socio-Ecological Dimensions of Infectious Diseases in Southeast Asia,
edited by Serge, M., Jean-Pierre, D., Lefait-Robin, R. & Apiwathnasorn, C.
Singapore: Springer Science Business Media. pp. 155-170.
Trevejo,
R.T. & Eidson, M. 2008. Zoonosis update: West Nile virus. Journal of the
American Veterinary Medical Association 232(9): 1302-1309.
van
der Meulan, K.M., Pensaert, M.B. & Nauwynck, H.J. 2005. West Nile virus in
the vertebrate world. Archives of Virology 150(4): 637-657.
Vazquez,
A., Sanchez-Seco, M.P. & Ruiz, S. 2010. Putative new lineage of West Nile
virus, Spain. Emerging Infectious Disease 16(3): 549-552.
Ward, M.P., Schuermann,
J.A., Highfield, L.D. & Murray, K.O. 2006. Characteristics of an outbreak
of West Nile virus encephalomyelitis in a previously uninfected population of
horses. Veterinary Microbiology 118(3-4): 255-259.
Weingartl, H.M., Drebot,
M.A., Hubalek, Z., Halouzka, J., Andonova, M., Dibemardo, A., Cottam-Birt, C.,
Larence, J. & Marszal, P. 2003. Comparison of assays for the detection of
West Nile virus antibodies in chicken serum. Canadian Journal of Veterinary
Research 67(2): 128-132.
Yan-Jang, S.H., Higgs,
S., Kate, M.H. & Dana, L.V. 2014. Flavivirus-mosquito interactions. Viruses 6(11): 4703-4730.
Zahouli, J.B.Z., Koudou,
B.G., Muller, P., Malone, D., Tano, Y. & Utzinger, J. 2017.
Effect land-use changes on the abundance, distribution, and host-seeking
behavior of Aedes arbovirus vector in oil palm-dominated
landscapes, southeastern Cote d'lvoire. PLoS ONE 12(12):
e0189082.
*Pengarang
untuk surat-menyurat; email: noryasmin@upm.edu.my
|
|||
|
