ENTOMOLOGICAL INDEX AND INSECTICIDE SUSCEPTIBILITY STATUS IN DENGUE-ENDEMIC AREAS YOGYAKARTA

Fardhiasih Dwi Astuti; Arlina Azka

doi:10.26555/eshr.v3i2.3719

Authors

Fardhiasih Dwi Astuti Faculty of Public Health, Universitas Ahmad Dahlan, Yogyakarta
Arlina Azka Faculty of Public Health, Universitas Ahmad Dahlan, Yogyakarta

DOI:

https://doi.org/10.26555/eshr.v3i2.3719

Keywords:

Entomological index, Susceptibility status, Aedes aegypti, Malathion

Abstract

Backgrounds: Dengue Hemorrhagic Fever (DHF) is a disease that receives special attention because of causing outbreaks in some countries, including Indonesia. The problems that often emerge on the DHF Control Program are the high vector density (Aedes aegypti) and the vector resistance resulting from continuous insecticide use. This study describes the entomological index and susceptibility status of Aedes aegypti against malathion and permethrin insecticides in Sorosutan, Umbulharjo, Yogyakarta.

Methods: This study used a descriptive observational method with a cross-sectional design. An entomological survey is done at 354 houses in Sorosutan, which is randomly selected. The sample of Aedes aegypti was obtained through the larval collection and ovitrap installation in 100 places. Susceptibility tests performed using the bioassay method with impregnated paper were based on the WHO standard. This study was conducted from December 2018 â€“ February 2019. The data were analyzed using univariate analysis

Results: The entomological survey in Sorosutan showed the House Index value was 35.03%; Container Index was 16.68%; Breteau Index was 46.33; Density Figure was 5.00, and Larva Free Rate was 64.97%; meaning that Sorosutan had a high level of vector density. So, the risk of DHF transmission was high. The population of Aedes aegypti in Sorosutan has been tolerant against Malathion, with 87.83% mosquito mortality.

Conclusion: Sorosutan was an area with high DHF transmission risk. Aedes aegypti population in Sorosutan has been tolerant against Malathion.

References

WHO. Dengue and severe dengue [Internet]. Web. 2020 [cited 2021 Feb 16]. Available from: https://www.who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue

Ditjen P2P Kemenkes RI. InfoDATIN: Center for Data and Information Ministry of Health RI. Jakarta. Jakarta; 2016.

Utami RSB. The Association Knowledge and Community Practice with the Incidence of DHF (Study in the Village of Putat Jaya Surabaya on 2010–2014). J Berk Epidemiol. 2015;3(2):242–53.

Kementerian Kesehatan RI. Situasi Penyakit Demam Berdarah Di Indonesia 2017 [Internet]. Vol. 31, Info Dokter. 2018. p. 71–8. Available from: https://www.kemkes.go.id/download.php?file=download/pusdatin/infodatin/InfoDatin-Situasi-Demam-Berdarah-Dengue.pdf

Dinas Kesehatan Kota Yogyakarta. Number of Patients with DHF and DSS per Kelurahan in Yogyakarta City in 2017. Yogyakarta; 2018.

Indonesia Ministry of Health. Dengue Haemorragic Fever in Indonesia Year 1968-2009. Buletin Jendela Epidemiologi [Internet]. 2010;1–14. Available from: http://www.depkes.go.id/folder/view/01/structure-publikasi-pusdatin-buletin.html

John S. Mosquito Ecology Field Sampling Methods (3rd ed.). New York: Springer; 2008.

Ditjen P2PL Kemenkes RI. Guidelines for the Use of Insecticides (Pesticides) in Vector Control. Jakarta; 2012.

Bagian P2P Dinkes Kota Yogyakarta. Efforts to Control DHF in Yogyakarta City. Yogyakarta; 2018.

Joharina AS, Alfiah S. Descriptive Analysis of Household Insecticide in Community. Vektora J Vektor dan Reserv Penyakit. 2012;4(1):22–32.

Trisyono YA. Insektisida Pengganggu Pertumbuhan dan Perkembangan Serangga. Yogyakarta: UGM Press; 2013.

Kristinawati E. Cypermethrin and Malation Resistance Test on Aedes aegypti in Dengue Hemorrhagic Fever Endemic Area, West Lombok Regency. J Media Bina Ilm. 2013;7(2):31–4.

Widiastuti D, Ikawati B. Resistensi Malathion dan Aktivitas Enzim Esterase Pada Populasi Nyamuk Aedes aegypti di Kabupaten Pekalongan. Balaba J Litbang Pengendali Penyakit Bersumber Binatang Banjarnegara. 2016;12(2):61–70.

Sofiana L, Rahman MS. Perbedaan Status Kerentanan Nyamuk Aedes Aegypti Terhadap Malathion Di Kabupaten Bantul Yogyakarta. J Kesehat Masy. 2016;11(2):302.

Focks DA. Review of Entomological Sampling Methods and Indicators for. Geneva; 2003.

WHO. Guidelines for Dengue Surveillance and Mosquito Control. Second Edi. Manila: WHO; 2003.

Murni, Molanda, Risti, Nelfita, Mustafa H. GAMBARAN INDEKS ENTOMOLOGI VEKTOR DEMAM BERDARAH DENGUE KABUPATEN MAMUJU UTARA SULAWESI BARAT. In: Seminar Nasional Pendidikan Biologi dan Saintek (SNPBS) ke-V 2020 Isu-Isu Strategis Sains, Lingkungan, dan Inovasi Pembelajarannya. 2020. p. 659–63.

Kemenkes RI. Profil Kesehatan Indonesia Tahun 2019. Jakarta; 2020. 497 p.

Parulian Manalu HS, Munif A. Pengetahuan dan Perilaku Masyarakat dalam Pencegahan Demam Berdarah Dengue di Provinsi Jawa Barat dan Kalimantan Barat. ASPIRATOR - J Vector-borne Dis Stud. 2016;8(2):69–76.

Nani N. The Relationship Between PSN Behavior with Existence Larvae of Aedes aegypti In Port of Pulang Pisau. J Berk Epidemiol. 2017;5(1):1.

Bowman LR, Runge-Ranzinger S, McCall PJ. Assessing the relationship between vector indices and Dengue transmission: A systematic review of the evidence. PLoS Negl Trop Dis. 2014;8(5):e2848.

Sulistyawati S, Dwi Astuti F, Umniyati SR, Baskoro T, Satoto T, Lazuardi L, et al. Dengue Vector Control through Community Empowerment: Lessons Learned from a Community-Based Study in Yogyakarta, Indonesia. Int J Environ Res Public Heal. 2019;16:1013.

WHO. Handbook for integrated vector management [Internet]. Vol. 24. Geneva: WHO/HTM/NTD/VEM; 2012. 1–78 p. Available from: http://openurl.ingenta.com/content/xref?genre=article&issn=1743-1026&volume=24&issue=3&spage=142

Wahid I, Ishak H, Hafid A, Fajri M, Sidjal S, Nurdin A, et al. Integrated vector management with additional pre-transmission season thermal fogging is associated with a reduction in dengue incidence in Makassar, Indonesia: Results of an 8-year observational study. PLoS Negl Trop Dis. 2019;13(8):1–13.

Hasibuan R. Insektisida: Organik Sintetik dan Biorasional. Yogyakarta: Plantaxia; 2015.

Mulyaningsih B, Umniyati SR, Satoto TBT, Diptyanusa A, Nugrahaningsih DAA, Selian Y. Insecticide resistance and mechanisms of Aedes aegypti (Diptera: Culicidae) in Yogyakarta. J thee Med Sci (Berkala Ilmu Kedokteran). 2018;50(01):24–32.

Marcombe S, Farajollahi A, Healy SP, Clark GG, Fonseca DM. Insecticide resistance status of United States populations of Aedes albopictus and mechanisms involved. PLoS One. 2014;9(7).

Sukmawati, Ishak H, Arsin AA. Uji Kerentanan untuk Insektisida Malathion dan Cypermethrine ( Cyf 50 EC ) Terhadap Populasi Nyamuk Aedes aegypti di Kota Makassar dan Kabupaten Barru. Higiene. 2018;Vol 4, No.:ISSN (Print) 2443-1141. ISSN (Online) 2541-5301.

Soenjono SJ, Siwarja, Pandean MM. Resistance Status o f Aedes aegypti Against Malathion , in Tomohon City. J Vektor Penyakit. 2017;11(2):43–8.

Iswidaty T, Martini M, Widiastuti D. STATUS RESISTENSI NYAMUK Aedes aegypti TERHADAP MALATHION 0,8% DI AREA PERIMETER DAN BUFFER PELABUHAN TANJUNG EMAS SEMARANG (Pengujian Berdasarkan Teknik Bioassay dan Biokimia). J Kesehat Masy. 2016;4(1):211–7.

Prasetyowati H, Hendri J, Wahono T. Status Resistensi Aedes aegypti (Linn.) terhadap Organofosfat di Tiga Kotamadya DKI Jakarta. Balaba J Litbang Pengendali Penyakit Bersumber Binatang Banjarnegara. 2016;12(1):23–30.

Hendri J, Kusnandar AJ, Astuti EP, Pengendalian L, Bersumber P, Ciamis BPB, et al. Identifikasi Jenis Bahan Aktif dan Penggunaan Insektisida Antinyamuk serta Kerentanan Vektor DBD terhadap Organofosfat pada Tiga Kota Endemis DBD di Provinsi Banten. 2016;8(2):77–86.

Tasane I. Uji Resistensi Insektisida Malathion 0,8% Terhadap Nyamuk Aedes Aegypti Di Wilayah Fogging Kantor Kesehatan Pelabuhan Kelas Ii Ambon. J Kesehat Masy. 2015;3(3):162–74.

Ghiffari A, Fatimi H, Anwar C. Detection of Insecticide Synthetic Pyrethroid Resistance on Dengue Vector Aedes aegypti ( L .) in Palembang using Polymerase Chain Reaction. Aspirator. 2013;5(2):37–44.

Widiarti, Heriyanto B, Boewono DT, Widyastuti U, Mujiono, Lasmiati, et al. Peta Resistensi Vektor Demam Berdarah Dengue Aedes aegypti terhadap Insektisida Kelompok Organofosfat, Karbamat dan Pyrethroid di Propinsi Jawa Tengah dan Daerah Istimewa Yogyakarta. Bul Penelit Kesehat. 2011;39(N0.4):176–89.

Sudiharto M, Udiyono A, Kusariana N. Status Resistensi Aedes aegypti Terhadap Malathion 0,8% dan Sipermetrin 0,05% dI Pelabuhan Pulau Baai Kota Bengkulu. J Kesehat Masy. 2020;8(2):243–9.

Mantolu Y, Kustiati K, Ambarningrum TB, Yusmalinar S, Ahmad I. Status dan perkembangan resistensi Aedes aegypti (Linnaeus) (Diptera: Culicidae) strain Bandung, Bogor, Makassar, Palu, dan VCRU terhadap insektisida permetrin dengan seleksi lima generasi. J Entomol Indones. 2016;13(1):1–8.

Chen CD, Nazni WA, Lee HL, Norma-Rashid Y, Lardizabal ML, Sofian-Azirun M. Temephos resistance in field aedes (Stegomyia) albopictus (Skuse) from Selangor, Malaysia. Trop Biomed. 2013;30(2):220–30.

ENTOMOLOGICAL INDEX AND INSECTICIDE SUSCEPTIBILITY STATUS IN DENGUE-ENDEMIC AREAS YOGYAKARTA

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

Issue

Section

License

Information