Analysis of Factors Influencing the Incidence of Malaria in the Work Area of Public Health Centers

Authors

  • Fergie Saulina Damanik Master of Public Health Study Program, Faculty of Public Health, Helvetia Institute of Health, Indonesia
  • Mappeaty Nyorong Master of Public Health Study Program, Faculty of Public Health, Helvetia Institute of Health, Indonesia
  • Yuniati Yuniati Master of Public Health Study Program, Faculty of Public Health, Helvetia Institute of Health, Indonesia

DOI:

https://doi.org/10.47667/ijppr.v4i1.194

Keywords:

Knowledge, Attitude, Information Media, Malaria

Abstract

The purpose of this research is to determine what aspects of the Sidodadi Public Health Center's surrounding environment in Asahan District contribute to the high prevalence of malaria there. The survey, conducted in August and September 2022 at the Sidodadi Health Center in the Asahan Province, was quantitative in nature, taking the form of a cross-sectional study. Purposive selection was used to select a total of 88 participants for the study. Chi-square and logistic regression tests were used to evaluate the data. The bulk of the 88 respondents (35 or 39.7%) were business owners (48 or 54.5%), high school graduates (54.5%), and aged 36–45 (39.4%). The bivariate analysis revealed a significant relationship between community awareness and malaria prevalence (p=0.000). The multivariate analysis revealed that in the service region of the Sidodadi Public Health Center in the Asahan District, education was the most important factor in reducing the prevalence of malaria (p=0.000, OR=8.480). This study found that the knowledge variable was the most influential out of the six examined, which included attitudes, economic capacity, information media, living environment, and support from health workers in the catchment area of the Sidodadi Health Center in the Asahan Regency, where malaria cases were studied.

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References

Dufrêne, M., & Legendre, P. (1997). Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological monographs, 67(3), 345-366.

Elphinstone, R. E., Riley, F., Lin, T., Higgins, S., Dhabangi, A., Musoke, C., ... & Kain, K. C. (2015). Dysregulation of the haem-haemopexin axis is associated with severe malaria in a case–control study of Ugandan children. Malaria Journal, 14(1), 1-10.

Fang, I. (1997). A history of mass communication: Six information revolutions. Taylor & Francis.

Geissler, P. W., Kelly, A., Imoukhuede, B., & Pool, R. (2008). ‘He is now like a brother, I can even give him some blood’–Relational ethics and material exchanges in a malaria vaccine ‘trial community’in The Gambia. Social science & medicine, 67(5), 696-707.

Phillips, R. E., & Pasvol, G. (1992). Anaemia of Plasmodium falciparum malaria. Bailliere's clinical haematology, 5(2), 315-330.

Roosihermiatie, B., & Rukmini, R. (2013). Analisis Implementasi Kebijakan Eliminasi Malaria Di Provinsi Bali. Buletin Penelitian Sistem Kesehatan, 15(2), 21338.

Solikah, M. P., ST, S., Rohima, B. N., & PK, S. (2021). Situasi Malaria Setelah Pra Eliminasi Di Kabupaten Kulon Progo (Doctoral dissertation, Universitas' Aisyiyah Yogyakarta).

Upadhyay, R. K. (2020). Markers for global climate change and its impact on social, biological and ecological systems: a review. American Journal of Climate Change, 9(03), 159.

World Health Organization. (2022). World Malaria Report. World Health Organization; 2022.

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Published

2023-03-13

How to Cite

Damanik, F. S., Nyorong, M. ., & Yuniati, Y. (2023). Analysis of Factors Influencing the Incidence of Malaria in the Work Area of Public Health Centers. International Journal Papier Public Review, 4(1), 40-50. https://doi.org/10.47667/ijppr.v4i1.194