Dominance of filariasis vector spread in endemic regions of Indonesia
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Zhakia Rahma Ghani
Yauwan Tobing Lukiyono
Abstract
The number of filariasis cases in Indonesia is increasing every year. This is especially true for people living in mosquito breeding areas, both artificial and natural, coupled with low knowledge and awareness of personal and environmental hygiene. The results of this review of various sources are expected to provide input for policy makers in mapping and determining filariasis vectors, so that vector control efforts can be carried out in an appropriate manner to break the chain of transmission and achieve the elimination target of this disease. This study used a systematic review method. The data used were secondary data in the form of research results published in electronic journals. Culex sp. has a wide distribution area and was found in every study, even dominating 8 out of 13 studies conducted. In general, the spread of filariasis disease in the tropics and subtropics, especially in countries with a middle to lower income index. Given this, it is important to map the distribution of filariasis vectors by geographical region, as it can help identify areas that require special treatment.
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Copyright (c) 2025 Zhakia Rahma Ghani, Yauwan Tobing Lukiyono
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References
Aisyah, D. N., Kozlakidis, Z., Diva, H., Trimizi, S. N., Sianipar, L. R., Wijayanti, E., Avicena, A. M., & Adisasmito, W. (2022). The spatial-temporal distribution of chronic lymphatic filariasis in indonesia: A 18-year registry-based analysis. Microbiology Research, 13(4), 681–690. DOI: https://doi.org/10.3390/microbiolres13040049
Astuti, E. P., Ipa, M., Wahono, T., Ruliansyah, A., Hakim, L., Dhewantara, P. W., et al. (2017). The distribution of culex spp (diptera: Culicidae) in selected endemic lymphatic filariasis villages in bandung district west java indonesia. Aspirator, 9(2), 61–8. DOI: https://doi.org/10.22435/aspirator.v9i2.6299.61-68
Davis, E., Prada, J., Reimer, L., & Hollingsworth, T. (2021). Modelling the impact of vector control on lymphatic filariasis programs: Current approaches and limitations. Clinical Infectious Diseases, 72(Supplement_3), S152–S157. DOI: https://doi.org/10.1093/cid/ciab191
Dida, G. O., Anyona, D. N., Abuom, P. O., Akoko, D., Adoka, S. O., Matano, A. -S., Owuor, P. O., & Ouma, C. (2018). Spatial distribution and habitat characterization of mosquito species during the dry season along the mara river and its tributaries, in kenya and tanzania. Infectious Diseases of Poverty, 7, 1–16. DOI: https://doi.org/10.1186/s40249-017-0385-0
Fadilly, A., Sembiring, W. S. R. G., Besral, B., Rosanji, A., Ridha, M. R., & Hairani, B. (2019). Spot survei entomologi di desa binawara, kabupaten tanah bumbu pasca pemberian obat pencegahan massal filariasis. Journal of Health Epidemiology and Communicable Diseases, 5(1), 1–8. DOI: https://doi.org/10.22435/jhecds.v5i1.496
Fitriyana, F., Sukendra, D. M., & Windraswara, R. (2018). Distribusi spasial vektor potensial filariasis dan habitatnya di daerah endemis. Higeia Journal of Public Health Research and Development, 2(2), 320–330. DOI: https://doi.org/10.15294/higeia.v2i2.17851
Hapsir, H. Y., Tosepu, R., & Effendy, D. S. (2022). Filariasis disease prevalence survey in the kolaka regency, southeast sulawesi, indonesia. KnE Life Sciences, 19–22. DOI: https://doi.org/10.18502/kls.v0i0.11765
Ipa, M., Astuti, E. P., Hendri, J., Yuliasih, Y., & Ginanjar, A. (2016). Menghapus jejak kaki gajah.
Jones, C., Ngasala, B., Derua, Y. A., Tarimo, D., Reimer, L., Bockarie, M., & Malecela, M. N. (2018). Lymphatic filariasis transmission in rufiji district, southeastern tanzania: infection status of the human population and mosquito vectors after twelve rounds of mass drug administration. Parasites & vectors, 11, 1–8. DOI: https://doi.org/10.1186/s13071-018-3156-2
Juhairiyah, J., Hidayat, S., Hairani, B., Fakhrizal, D., & Setyaningtyas, D. E. (2018). Keanekaragaman jenis dan perilaku nyamuk pada daerah endemis filariasis di kabupaten barito kuala, provinsi kalimantan selatan. Balaba Jurnal Pengendali Penyakit Bersumber Binatang Banjarnegara, 14(1), 31–42. DOI: https://doi.org/10.22435/blb.v14i1.296
Kinansi, R., Nantabah, Z., & Maryani, H. (2018). Mapping of diseases caused by mosquito species caught in kotabaru, south kalimantan using the biplot method. Bull Health Syst Res, 21(3), 188–98. DOI: https://doi.org/10.22435/hsr.v21i3.71
Nurjazuli, N. (2021). Potensi culex quinquefasciatus sebagai vektor filariasis dan kondisi lingkungan di kota pekalongan. DOI: https://doi.org/10.22435/asp.v13i2.4464
Portunasari, W. D., Kusmintarsih, E. S., & Riwidiharso, E. (2016). Survei nyamuk culex spp. sebagaivektor filariasis di desa cisayong, kecamatan cisayong, kabupaten tasikmalaya. Biosfera, 33(3), 142–8. DOI: https://doi.org/10.20884/1.mib.2016.33.3.361
Rahmawati, E., Sadukh, J. J. P., & Sila, O. (2017). Analisis spasial distribusi kasus filariasis di provinsi nusa tenggara timur tahun 2008-2012. Jurnal Info Kesehatan, 15(2), 240–253.
Ramadhani, T., & Wahyudi, B. (2015). Keanekaragaman dan dominasi nyamuk di daerah endemis filariasis limfatik, kota pekalongan. Jurnal Vektor Penyakit, 9(1), 1–8. DOI: https://doi.org/10.22435/vektorp.v9i1.5037.1-8
Ridha, M. R., & Sembiring, W. (2019). Perilaku menghisap darah dan perkiraan umur populasi di alam nyamuk potensial vektor filariasis di desa dadahup, kabupaten kapuas, kalimantan tengah. J Vektor Penyakit, 13(2), 77–86. DOI: https://doi.org/10.22435/vektorp.v13i2.1008
Ridha, M. R. (2018). Bionomik mansonia uniformis dan mansonia dives sebagai vektor filariasis pada beberapa wilayah di kalimantan bionomic of mansonia uniformis and mansonia dives as filariasis vector in some areas of borneo. Jurnal Pengendalian Penyakit Bersumber Binatang Banjarnegara. DOI: https://doi.org/10.22435/blb.v14i1.295
Srividya, A., Subramanian, S., Jambulingam, P., Vijayakumar, B., & Dinesh Raja, J. (2019). Mapping and monitoring for a lymphatic filariasis elimination program: A systematic review. Research and Reports in Tropical Medicine, 43–90. DOI: https://doi.org/10.2147/RRTM.S134186
Tallan, M. M., & Mau, F. (2016). Karakteristik habitat perkembangbiakan vektor filariasis di kecamatan kodi balaghar kabupaten sumba barat daya. Aspirator Journal of Vector-Borne Diseases, 8(2), 55–62. DOI: https://doi.org/10.22435/aspirator.v8i2.4243.55-62
Tananchai, C., Manguin, S., Bangs, M. J., & Chareonviriyaphap, T. (2019). Malaria vectors and species complexes in thailand: Implications for vector control. Trends in Parasitology, 35(7), 544–558. DOI: https://doi.org/10.1016/j.pt.2019.04.013
Wulandari, D. (2020). Distribusi spasial vektor penyakit filariasis di daerah endemis filariasis [Doctoral dissertation, Diponegoro University].
Wulandari, D., Ginandjar, P., Yuliawati, S., & Udijono, A. (2020). Systematic review distribusi spasial vektor penyakit filariasis di daerah endemis filariasis. Jurnal Ilmiah Mahasiswa, 10(4), 123–128.
