STATUS KERENTANAN NYAMUK Aedes aegypti TERHADAP INSEKTISIDA SIPERMETRIN DI AREA PERIMETER DAN BUFFER PELABUHAN TANJUNG EMAS KOTA SEMARANG
VULNERABILITY STATUS OF Aedes aegypti MOSQUITO TO CYPERMETRIN INSECTICIDE IN PERIMETER AND BUFFER AREA OF TANJUNG EMAS PORT, SEMARANG CITY
Abstract
An assessment of the use of insecticides needs to be done because of the threat of insecticide resistance problems in the application of vector control for dengue. A descriptive observational study was conducted to determine the susceptibility status of Ae. aegypti against 0.05% cypermethrin insecticide at Tanjung Emas Port, Semarang. The study was conducted using the WHO standard bioassay, biochemical, and molecular (PCR) assays. Interviews were conducted with selected respondents to find out the history of insecticide use. The results showed that the susceptibility status of the Aedes aegypti mosquito in the perimeter and buffer area with the WHO standard bioassay test was still vulnerable, with the mortality of Aedes aegypti samples collected from the two study sites being 100%. Biochemical tests showed that 0.05% cypermethrin was still susceptible to Ae. aegypti, with a yield of 100% mortality in both study areas. However, the results of the PCR test showed that homozygous resistance and heterozygous resistance were 80% and 20% respectively in the perimeter region, while in the buffer region it was 40% and 60%, respectively. The results of interviews with program managers showed that 100% of the officers had complied with the standard operating procedure for fogging activities with the insecticides used, i.e. malathion and cypermethrin. Both types of insecticides have been used on a rotational basis. However, the rotation of these insecticides has not been carried out routinely and periodically.
Abstrak
Evaluasi terhadap penggunaan insektisida perlu dilakukan karena adanya ancaman masalah resistensi insektisida dalam aplikasi program pengendalian vektor demam berdarah dengue. Studi observasional deskriptif dilakukan untuk melihat status kerentanan Aedes aegypti terhadap insektisida sipermetrin 0,05% di Pelabuhan Tanjung Emas Semarang. Studi menggunakan uji bioassay standar WHO, biokimia, dan molekuler (PCR). Kegiatan wawancara dilakukan pada responden terpilih untuk mengetahui riwayat penggunaan insektisida. Responden dalam penelitian ini adalah pengelola program dan masyarakat. Hasil penelitian menunjukkan Ae. aegypti di area perimeter dan buffer dengan uji bioassay standar WHO masih rentan, dengan kematian nyamuk uji yang dikoleksi dari dua lokasi studi masing-masing sebesar 100%. Uji biokimia menunjukkan bahwa sipermetrin 0,05% masih susceptible terhadap Ae. aegypti, dengan hasil sebesar 100% kematian di kedua area studi. Namun, uji PCR menunjukkan sudah terdapat proses mekanisme menuju resistensi dengan hasil resisten homozigot dan resisten heterozigot di area perimeter adalah 80% dan 20%, sedangkan area buffer adalah 40% dan 60%. Hasil wawancara dengan pengelola program menunjukkan 100% petugas sudah menerapkan standar, operasi, dan pelaksanaan kegiatan fogging dengan benar menggunakan insektisida bahan aktif malathion dan sipermetrin. Kedua jenis insektisida ini telah digunakan secara rotasi. Namun, rotasi insektisida tersebut belum dilakukan secara rutin dan berkala
References
Brady, O.J., Gething, P.W., Bhatt, S., Messina, J.P., Brownstein, J.S., Hoen, A.G., Moyes, C.L., Farlow, A.W., Scott, T.W., Hay, S.I., 2012. Refining the Global Spatial Limits of Dengue Virus Transmission by Evidence-Based Consensus. PLoS Negl. Trop. Dis. 6, e1760 (1-15).
David, A.W., Gilles, H.M., 2019. Essential Malariology, 4 Ed, 4th ed. CRC Press, London, New Delhi, New York.
Dinas Kesehatan Kota Semarang, 2019. DKK Semarang Dashboard [WWW Document]. Dinas Kesehat. Kota Semarang. URL http://119.2.50.170:9090/dashboard/ (accessed 12.10.19).
Direktorat Jenderal Pengendalian Penyakit dan Penyehatan Lingkungan, 2012. Pedoman Penggunaan Insektisida (Pestisida) dalam Pengendalian Vektor. Kementrian Kesehatan Republik Indonesia, Jakarta.
Dirjen Pencegahan dan Pengendalian Penyakit, 2019. Profil Kementerian Kesehatan 2018. Kementrian Kesehatan Republik Indonesia, Jakarta.
Ditjen P2P, 2018. Panduan Monitoring Resistensi Vektor terhadap Insektisida. Kementrian Kesehatan Republik Indonesia, Jakarta.
Gullet, 1996. Protocol of Determination of Pyrethroid Diagnostic Concentration of Anopheles gambie., 1st ed. Orstom Laboratoire, Montpellier.
Hemingway, J., Jayawardena, K.G.I., Herath, P.R.J., 1986. Pesticide resistance mechanisms produced by field selection pressures on Anopheles nigerrimus and A. culicifacies in Sri Lanka. Bull. World Health Organ. 64, 753–758.
Kantor Kesehatan Pelabuhan Kelas II Semarang., 2019. Laporan Sistem Informasi Kesehatan Pelabuhan di Pelabuhan Tanjung Emas., 1st ed. Kantor Kesehatan Pelabuhan Kelas II Semarang., Semarang.
Kementrian Kesehatan Repuiblik Indonesia, 2007. Keputusan Menteri Kesehatan RI Nomor 431/MENKES/SK/IV/2007 tentang Pedoman Teknis Pengendalian Risiko Lingkungan di Pelabuhan/ Bandara/ Pos Lintas Batas dalam Rangka Karantina Kesehatan. Jakarta.
Kementrian Kesehatan Repuiblik Indonesia, 2010. Peraturan Menteri Kesehatan Republik Indonesia Nomor : 374/Menkes/Per/III/2010 tentang Pengendalian Vektor. Jakarta.
Organization, W.H., 2021. Dengue and Severe Dengue [WWW Document]. Word Heal. Organ. URL https://www.who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue (accessed 6.5.21).
Small, G., 1996. Biochemical Assay for Insecticide Resistance Mechanism. Paper Molecular Entomology Workshop. Practical Center for Tropical Medicine Gadjah Mada University, Yogyakarta.
Waggoner, J.J., Gresh, L., Vargas, M.J., Ballesteros, G., Tellez, Y., Soda, K.J., Sahoo, M.K., Nuñez, A., Balmaseda, A., Harris, E., Pinsky, B.A., 2016. Viremia and Clinical Presentation in Nicaraguan Patients Infected With Zika Virus, Chikungunya Virus, and Dengue Virus. Clin. Infect. Dis. 63, 1584–1590.
Widiarti, Heriyanto, B., Boewono, D.T., Widyastuti, U., Mujiono, Lasmiati, Yuliadi, 2011. 20156-ID-peta-resistensi-vektor-demam-berdarah-dengue-aedes-aegypti-terhadap-insektisida.pdf. Bul. Penelit. Kesehat. 39, 176–189.
Widiarti, Mardihusodo, S.J., Boewono, D.T., 2001. Uji Biokimia Kerentanan Anopheles aconitus Terhadap Insektisida Organofosfat (Fenitrothion) dan Karbamat (Bendiocarb) di Kabupaten Jepara. Bul. Penelit. Kesehat. 29, 97–109.
Widiastuti, D., Sunaryo, S., Pramestuti, N., Sari, T.F., Wijayanti, N., 2015. Deteksi Mutasi V1016g Pada Gen Voltage-Gated Sodium Channel Pada Populasi Aedes Aegypti (Diptera: Culicidae) Di Kabupaten Klaten, Jawa Tengah Dengan Metode Allele-Specific Pcr. Vektora J. Vektor dan Reserv. Penyakit 7.
World Health Organization, 1989. Environmental Health Criteria 82: Cypermethrin, 1st ed. United Nation Environment Programme, Geneva.
Yamada, T., Yoneda, H., Asada, M., 1983. Resistance to Benzomate in Mites, 1st ed. Plenum Press, New York.
