BMC Public Health (Jul 2024)

Community education training to optimize the use of artemisinin-based combination therapy in Kamuli District, Uganda

  • Charles Bawate,
  • Sylvia T. Callender-Carter,
  • Bernard Guyah,
  • Collins Ouma

DOI
https://doi.org/10.1186/s12889-024-19619-y
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 10

Abstract

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Abstract Background Community health education improves members health-seeking and utilization behaviours. To enhance the community knowledge and optimize the use of Artemisinin-based combination therapy (ACT), we carried out a community training in Kamuli District, Uganda. Methods The Analysis, Design, Development, Implementation and Evaluation (ADDIE) model was adopted. A total of 3420 community members were trained, 384 sampled to participate in pre-post-test assessment, with 76 healthcare workers (HCW). Community members were sampled by simple random sampling while the HCW were purposively selected. Community trainings occurred for two days at each of 42 public health facilities and one day at 27 parishes. A paired sample t-test and effect size was computed to establish effect with statistical significance tested at p < 0.05. Results Overall, a total of 3496 participants, majority 2705 (77.4%) females were trained. A total of 3420 community members, majority 2659 (77.7%) females trained, and 76 HCW, majority 46 (60.5%) females trained. The median age of community participants was 32 years, and interquartile range (IQR) = 17 years. The median age of HCW was 32 years, and IQR = 8 years. The training had a positive and significant effect on the community members knowledge: malaria transmission (T-test = 9.359; p < 0.0001) causes of malaria (T-test = 6.738; p < 0.0001), malaria symptoms (T-test = 5.403; p < 0.0001), dangerous malaria species (T-test = 12.088; p < 0.0001), Plasmodium vivax malaria cycle and occurrence every 48 h (T-test = 7.470; p < 0.0001), assessing whether a patient with malaria may suffer from jaundice (T-test = 7.228; p < 0.0001), organs affected by Plasmodium falciparum (T-test = 12.214; p < 0.0001), malaria diagnosis (T-test = 9.765; p < 0.0001), Plasmodium associated with malaria relapse (T-test = 10.250; p < 0.0001), and malaria prevention and control (T-test = 9.278; p < 0.0001). The intervention also had a significant and positive effect on HCW knowledge on all domains except on malaria transmission (T-test = 1.217; p = 0.228) where it didn’t have any statistically significant increase on their knowledge. Conclusion The education intervention improved the knowledge of participants significantly. There is need to adopt and scale-up the current intervention at all levels of care to enhance proper use of medicines.

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