Efectivity Evaluation among Dengue Control Programs in Semarang City, Indonesia
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Abstract
Increased dengue cases occur throughout Southeast Asia. Semarang Health Office held programs to control dengue,which are Rainfall monitoring,Routine Mosquito Larvae Monitoring Program, One House One Larvae Observer Movement, And Students look For Mosquito Larvae Movement. To assess whether the programs reducing Dengue Hemorrhagic Fever caseswere effective. The method used were correlation analysis. Data obtained from every region in Semarang and reported to Semarang Health Office. Average Dengue Hemorrhagic Fever case was 79.5±13.69. Correlationtest results between dengue cases with rainfall was r=0.951;p=0.049, Larvae Absence Rate from Routine Mosquito Larvae Monitoring Program was r=0.648;p=0.352, with Larvae Absence Rate from One House One Larvae Observer Movement was r=0.804;p=0.196, with Larvae Absence Rate from Students Search For Mosquito Larvae Movement was r=0.961;p=0.039. Correlation between rainfall and Larvae Absence Rate from Students Search For Mosquito Larvae Movement with Dengue Hemorrhagic Fever case were significant and had positive strong correlation,correlation test results of Larvae Absence Rate from Routine Mosquito Larvae Program and One House One Larvae Observer Movement had strong correlation but were not significant.
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References
Andini, A. 2014. Pengaruh Keberadaan Siswa Pemantau Jentik Aktif dengan Keberadaan Jentik di Sekolah Dasar Kecamatan Gajah Mungkur Kota Semarang Tahun 2013. Unnes Journal of Public Health, 3 (2): 1-9.
de Melo, D.P.O., Scherrer, L.R., & Eiras, Ã.E. 2012. Dengue Fever Occurrence and Vector Detection by Larval Survey, Ovitrap and MosquiTRAP: A Space-Time Clusters Analysis. PLoS ONE, 7 (7).
Ellis, A.M., Garcia, A.J., Focks, D.A., Morrison, A.C., & Scott, T.W. 2011. Parameterization and Sensitivity Analysis of a Complex Simulation Model for Mosquito Population Dynamics, Dengue Transmission, and Their Control. The American Journal of Tropical Medicine and Hygiene, 85 (2): 257–264.
Hii, Y.L., Rocklöv, J., Wall, S., Ng, L.C., Tang, C.S., & Ng, N. 2012a. Optimal Lead Time for Dengue Forecast. PLoS Neglected Tropical Diseases, 6 (10).
Hii, Y.L., Zhu, H., Ng, N., Ng, L.C., & Rocklöv, J. 2012b. Forecast of Dengue Incidence Using Temperature and Rainfall. PLoS Neglected Tropical Diseases, 6 (11).
Honorio, N.A.C., Codeço, C.T., Alves, O.F.C., Magalhães, M.A.F.M., & Lourenço-de-Oliveira, R. 2009. Temporal Distribution of Aedes aegypti in Different Districts of Rio De Janeiro, Brazil, Measured by Two Types of Traps. Journal of Medical Entomology, 46 (5): 1001–1014.
Iriani, Y. 2012. Hubungan antara Curah Hujan dan Peningkatan Kasus Demam Berdarah Dengue Anak di Kota Palembang. Sari Pediatri, 13 (6): 378–383.
Johansson, M.A., Dominici, F., & Glass, G.E. 2009. Local and Global Effects of Climate on Dengue Transmission in Puerto Rico. PLoS Neglected Tropical Diseases, 3 (2).
Kusumo, R.A., Setiani, O., & Budiyono. 2014. Evaluasi Program Pengendalian Penyakit Demam Berdarah Dengue (DBD) di Kota Semarang Tahun 2011. Jurnal Kesehatan Lingkungan Indonesia, 13 (1): 26–29.
Nash, S., Dale, P., Mackenzie, J.S., McBride, J., Mengersen, K., & Tong, S. 2014. Climate Change and Dengue: A Critical and Systematic Review of Quantitative Modelling Approaches. BMC Infectious Diseases, 14 (1).
Nursalim, S., Agustiningtias, F., Ria, K., Haerunnisa, Lukia, Ilmi, N., Evasari, & Faizzani, A. 2019. Implementasi Gerakan 1 Rumah 1 Jumantik dan 4M Plus di Kelurahan Luminda. Presented in Prosiding Seminar Nasional Poltekkes Karya Husada Yogyakarta Tahun 2019.
Rosidi, A.R. & Adisasmito, W. 2009. Hubungan Faktor Penggerakan Pemberantasan Sarang Nyamuk Demam Berdarah Dengue dengan Angka Bebas Jentik di Kecamatan Sumberjaya Kabupaten Majalengka, Jawa Barat. Majalah Kedokteran Bandung, 41 (2).
Sokunna, S., Bunleng, S., Rithea, L., Menghut, H., Simanjuntak, R., & Farchanny. 2017. The Asean Dengue Day: Sustaining the United Fight Against Dengue. ASEAN e-Health Bull, 1 (11):1–16.
Sukesi, T.W., Sulistyawati, S., & Mulasari, S.A. 2016. Efektivitas Kader Jumantik Cilik Terhadap Kepadatan Populasi Aedes aegypti di Kecamatan Umbulharjo Kota Yogyakarta. Jurnal Vektor Penyakit, 10 (2).
Sukesi, T.W., Supriyati, Satoto, T.B.T., Wijayanti, M.A., & Padmawati, R.S. 2018. Pemberdayaan Masyarakat dalam Pengendalian Demam Berdarah Dengue. Jurnal Vektor Penyakit, 12 (2): 67–76.
Sugumaran, R., Larson, S.R., & Degroote, J.P. 2009. Spatio-Temporal Cluster Analysis of County-Based Human West Nile Virus Incidence in The Continental United States. International Journal of Health Geographics, 8: 43.
Tana, S., Umniyati, S.R., Petzold, M., Kroeger, A., & Sommerfeld, J. 2012. Building and Analyzing an Innovative Community-centered Dengue-Ecosystem management intervention in Yogyakarta, Indonesia. Pathogens and Global Health, 106 (8): 469-478.
Wijegunawardana, N.D.A.D., Gunawardene, Y.I.N., Chandrasena, T.G.A.N., Dassanayeka, R.S., Udayana, N.W.B.A.L., & Abeyewickreme, W. 2019. Evaluation of the Effect of Aedes Vector Indices and Climatic Factors on Dengue Incidence in Gampaha District, Sri Lanka. BioMed Research International, 2019.
Wirayoga, M.A. 2013. Hubungan Kejadian Demam Berdarah Dengue dengan Iklim di Kota Semarang Tahun 2006-2011. Unnes Journal of Public Health, 2 (4): 1–9.