This project focuses on addressing arboviral outbreaks in Ivory Coast by involving local communities in the sustainable control of Aedes mosquitoes, utilizing scientific advice and environmental interventions. It will evaluate the impact of a participatory strategy on decreasing mosquito populations and the risk of virus transmission, aiming to provide insights for policy development on disease prevention.
This project targets the growing threat of Aedes mosquito-borne diseases such as dengue in Africa, focusing on the Anono and Gbagba communities in Abidjan, Ivory Coast, by transitioning from traditional control approaches to a community-driven strategy. It focuses on educating and involving communities in the design of sustainable mosquito management measures, such as breeding site eradication and adult mosquito capturing, with scientific experts guiding the efforts. The approach will entail conducting sociocultural surveys and interactive workshops while also encouraging local participation and multi-sectoral collaboration. A randomized controlled trial (RCT) will test this effectiveness of this novel integrated community-based participatory intervention approach in reducing the transmission of Aedes mosquito and other arboviruses. This effort seeks to develop a scalable model for arboviral disease control, promote community resilience, and inform policy recommendations for better public health outcomes in resource-constrained urban settings.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
SINGLE
Enrollment
40
This project will foster active engagement with community stakeholders, including healthcare workers, community leaders, and other key informants, through participatory meetings aimed at co-creating and developing larval source reduction measures tailored to community's needs. This method emphasizes a participatory framework, ensuring that interventions are both community-informed and culturally relevant.
Furthermore, the project intends to determine whether the addition of cost-effective, gravid female mosquito-targeting traps, specifically two Biogents Gravid Aedes Traps (BG-GAT) per household, can improve the overall success of these community-based intervention.
Centre Suisse de Recherches Scientifiques en Côte d'Ivoire
Abidjan, Côte d’Ivoire
Aedes aegypti mean number per trap per day
Biting rate is the mean number of Aedes females per trap and per day. The proportion of unfed, fed, half-gravid and gravid females will be estimated.
Time frame: Continuously during months 1-4 (baseline) and months 5-17 (trial)
House index
House index: proportion of houses with at least one larva
Time frame: Before (month 1), twice during (month 4, 8) and once at the end of the trial (month 12)
Pupal indices: pupae per person index, pupa index and pupae per hectare index
Pupae per person index: number of pupae per person Pupa index: number of pupae per house Pupae per hectare index: number of pupae per ha
Time frame: Before (month 1), twice during (month 4, 8) and once at the end of the trial (month 12)
Adults: parity rate
The parity rate (PR) (proposition of parous females) will be calculated to estimate vector longevity.
Time frame: Continuously during months 1-4 (baseline) and months 5-17 (trial)
Knowledge, attitudes, and practices on Dengue prevention among the population of Cocody-Bingerville
A Knowledge, Attitudes, and Practices (KAP) study will be conducted to assess the communities' understanding, attitudes, practices, and beliefs related to dengue. This will be done using a structured questionnaire developed specifically for this trial. The questionnaire comprises both multiple-choice and open-ended questions, allowing for a comprehensive assessment of: 1) Knowledge: Understanding of dengue transmission, symptoms, and prevention, 2) Attitudes: Perceptions of dengue risk and confidence in prevention methods, 3) Practices: Reported behaviors to prevent dengue, such as mosquito control measures. This structured tool will be used at both baseline and endline to measure changes and assess the effectiveness of the intervention."
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The community-based interventions and the BG-GAT deployment will be evaluated in combination to assess their individual and synergistic effects on vector control. This dual strategy combines local participation and practical, evidence-based solutions to address mosquito-borne illness transmission.
Time frame: Before (month 1) the start of the trial and at the end of the trial (month 12)
Mapping and describe Aedes aegypti breeding sites, focusing on their geographic and ecological characteristics. This mapping will be used to enhance targeted larval control efforts in these areas.
The geographic survey will collect household and environmental data, including demographic details, public space quality, water provision, sanitation access, and waste management practices. It will map housing conditions, examining building types, construction materials, and key features like water storage and solid waste management. The survey will also assess local built environments to inform interventions for improving living conditions and controlling mosquito breeding sites.
Time frame: Before (month 1) the start of the trial and at the end of the trial (month 12)
Container index
Proportion of positive containers
Time frame: before (month 1), twice during (month 4, 8) and once at the end of the trial (month 12)
Breteau index
Number of positive containers per 100 houses
Time frame: Before (month 1), twice during (month 4, 8) and once at the end of the trial (month 12)