This randomized controlled trial aims to evaluate the efficacy of Wolbachia-infected male mosquitoes combined with sterile insect technique (IIT-SIT) to mitigate active dengue transmission in Singapore.
Aedes-borne diseases are expected to increase in geographical coverage and intensity due to climate change and rapid urbanization. It has been demonstrated that Wolbachia-mediated incompatible insect technique coupled with sterile insect technique (IIT-SIT) is highly effective in suppressing Aedes populations and subsequently reducing dengue risk. However, the efficacy of the tool in mitigating ongoing transmission is unknown. The researchers outline a randomized controlled trial to be conducted in high-rise public housing estates in Singapore to assess the efficacy of IIT-SIT to mitigate active dengue transmission. Specifically, the study will determine whether the release of male Wolbachia-infected Aedes aegypti mosquitoes can curtail the growth of dengue clusters, defined operationally by the Singapore National Environment Agency (NEA) as two or more reported dengue cases within a 150-meter radius and with illness onset dates within 14 days of each other. This study will randomize eligible clusters into intervention/control arms in real-time. Clusters assigned to the intervention arm will receive IIT-SIT treatment until cluster extinction (i.e. when no further cases are linked to the cluster). This trial closely mimics how IIT-SIT could be used as an additional tool for outbreak management, by treating areas with active dengue transmission in real-time. Conventional vector control measures will be carried out as per NEA's usual outbreak management practices in both intervention and control clusters. The intervention efficacy will be estimated through two primary endpoints: (1) probability of cluster extinction, as estimated from the time-to-cluster extinction among intervention versus control clusters; and (2) final size of the dengue cluster, as estimated by the difference in the final number of dengue cases in intervention versus control clusters. This study will provide evidence from a randomized controlled trial for the efficacy of IIT-SIT in curbing ongoing transmission and provide an epidemiological basis for integrating IIT-SIT into the existing arsenal of outbreak management tools. The trial will assess the technology's feasibility for operationalization, and identify difficulties in implementation prior to larger-scale use for outbreak control.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
900
Releases of male Wolbachia-infected Aedes aegypti mosquitoes
National Environment Agency
Singapore, Singapore
RECRUITINGImpact of male Wolbachia-Aedes deployments on the time to cluster extinction
In this analysis, male Wolbachia-Aedes exposure will be considered as a binary classification based on whether the dengue cluster is allocated to the intervention or control arm. Cox proportional hazards models will be used to assess the intervention effect of male Wolbachia-Aedes by estimating the hazards ratio, which compares the probability of cluster extinction between arms from following up clusters from enrolment to cluster extinction.
Time frame: Up to 3 years
Impact of male Wolbachia-Aedes deployments on final cluster size, as measured by the difference in final cluster size between arms
In this analysis, male Wolbachia-Aedes exposure will be considered as a binary classification based on whether the dengue cluster is allocated to the intervention or control arm. Negative binomial models will be used to assess the intervention effect of male Wolbachia-Aedes by estimating the average treatment effect of the intervention on the final number of dengue cases in intervention versus control clusters.
Time frame: Up to 3 years
Impact of male Wolbachia-Aedes deployments on the prevalence of Ae. aegypti/Ae. albopictus mosquitoes
The study will test whether male Wolbachia-Aedes deployments will effectively suppress Ae. aegypti mosquito populations as well as whether they have an off-target impact on Ae. albopictus mosquito populations in intervention vs. control clusters.
Time frame: Up to 3 years
Impact of male Wolbachia-Aedes deployments on dengue risk in clusters, measured by odds ratio of Wolbachia exposure distribution among laboratory-confirmed reported dengue cases compared to test-negative controls
In this analysis, male Wolbachia-Aedes exposure will be considered as a binary classification based on whether a patient's residence is in an dengue cluster receiving intervention or a control cluster, where residence is defined as the primary place where the patient resided at reporting date.
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Time frame: Up to 3 years
Impact of male Wolbachia-Aedes deployments on the individual level reproduction number
In this analysis, the researchers will use notified and individually geolocated dengue cases to calculate the spatially adjusted time-varying reproduction number, which estimates the number of forward infections caused by an individual.
Time frame: Up to 3 years