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Effectiveness of seasonal malaria chemoprevention in three regions of Togo: a population-based longitudinal study from 2013 to 2020 |
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| Authors: | Bakai Tchaa A Thomas Anne Iwaz Jean Atcha-Oubou Tinah Tchadjobo Tchassama Khanafer Nagham Rabilloud Muriel Voirin Nicolas |
| Institution: | 1.Department of Mathematics and Statistics, Auburn University, 221 Parker Hall, Auburn, AL, 36849, USA ;2.Department of Entomology and Plant Pathology, Auburn University, Auburn, AL, USA ;3.Department of Biosystems Engineering, Auburn University, Auburn, AL, USA ;4.Geospatial Research, Analysis and Services Program, Centers for Disease Control and Prevention, Atlanta, GA, USA ;5.Eck Institute for Global Health, University of Notre Dame, Notre Dame, IN, USA ;6.College of Forestry, Wildlife, and Environment, Auburn University, Auburn, AL, USA ;7.US President’s Malaria Initiative, Centers for Disease Control and Prevention, Atlanta, GA, USA ;8.Molecular Biophysics and Biochemistry, Yale University, New Haven, CT, USA ; |
| Abstract: | Human landing catches (HLC) are an entomological collection technique in which humans are used as attractants to capture medically relevant host-seeking mosquitoes. The use of this method has been a topic of extensive debate for decades mainly due to ethical concerns. Many alternatives to HLC have been proposed; however, no quantitative review and meta-analysis comparing HLC to outdoor alternative trapping methods has been conducted. A total of 58 comparisons across 12 countries were identified. We conducted a meta-analysis comparing the standardized mean difference of Anopheles captured by HLC and alternative traps. To explain heterogeneity, three moderators were chosen for analysis: trap type, location of study, and species captured. A meta-regression was fit to understand how the linear combination of moderators helped in explaining heterogeneity. The possibility of biased results due to publication bias was also explored. Random-effects meta-analysis showed no statistically significant difference in the mean difference of Anopheles collected. Moderator analysis was conducted to determine the effects of trap type, geographical location of study, and the species of Anopheles captured. On average, tent-based traps captured significantly more Anopheles than outdoor HLC (95% CI: − .9065, − 0.0544]), alternative traps in Africa captured on average more mosquitoes than outdoor HLC (95% CI: − 2.8750, − 0.0294]), and alternative traps overall captured significantly more Anopheles gambiae s.l. than outdoor HLC (95% CI: − 4.4613, − 0.2473]) on average. Meta-regression showed that up to 55.77% of the total heterogeneity found can be explained by a linear combination of the three moderators and the interaction between trap type and species. Subset analysis on An. gambiae s.l. showed that light traps specifically captured on average more of this species than HLC (95% CI: − 18.3751, − 1.0629]). Publication bias likely exists. With 59.65% of studies reporting p-values less than 0.025, we believe there is an over representation in the literature of results indicating that alternative traps are superior to outdoor HLC. Currently, there is no consensus on a single “magic bullet” alternative to outdoor HLC. The diversity of many alternative trap comparisons restricts potential metrics for comparisons to outdoor HLC. Further standardization and specific question-driven trap evaluations that consider target vector species and the vector control landscape are needed to allow for robust meta-analyses with less heterogeneity and to develop data-driven decision-making tools for malaria vector surveillance and control. |
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