Community Dynamics of Malaria Transmission in Humans and Mosquitoes at Maferinyah Sub-Prefecture, Guinea
- Conditions
- Malaria
- Registration Number
- NCT04969913
- Brief Summary
Background:
Half of the world s population is at risk of malaria. In 2015, there were 214 million cases of malaria and 438,000 deaths. A transmission-blocking vaccine (TBV) could help end the disease. Improved tests are needed to measure how well the vaccines work. Researchers want to collect data about malaria infection as the first step in testing a TBV in rural Guinea.
Objective:
To study community dynamics of malaria transmission by estimating the rate of blood smear positive people by month and season.
Eligibility:
People 6 months of age and older who live in Maf(SqrRoot)(Registered Trademark)rinyah sub-prefecture and plan to remain during the study. Households with at least 3 people who are eligible to take part in the study are also needed.
Design:
Participants will be screened with a medical and medicine history. They will have a physical exam. Their height and weight will be measured. Their vital signs may be taken.
Participants will have a study visit each month for up to 3 years. They will get a study ID. They will be asked about any symptoms of malaria or changes in health. They will give blood samples. They may have a physical exam. Within 3 days of the study visits, live and dead mosquitoes may be gathered in and around their home. Insecticide spray will be used.
Participants can visit the clinic at any time if they feel ill. If they have malaria, they will be treated according to Guinea National Malaria Control Guidelines for adults and children.
- Detailed Description
A vaccine that interrupts malaria transmission is critical to eradicate the disease, but improved assays are needed to measure the efficacy of vaccines. Transmission-blocking vaccines (TBVs) work by inducing antibodies that inhibit parasite development in the mosquito interrupting transmission. Efficacy of vaccines may be estimated by in vitro membrane feeding assays using immune sera and laboratory mosquitoes, but qualified assays that measure transmission in the field are needed to assess transmission-blocking interventions in natura.
Clinical trials of TBVs have started elsewhere on the continent in Mali, and we expect to expand TBV studies in Guinea in the near future. This protocol will use a longitudinal cohort to gather information of malaria transmission based on the rates of blood smear positive individuals by month, season and year in at Maferinyah sub-prefecture, Guinea.
Individuals in the villages will be approached first for participation, including permission to contact their household and neighbors of their compound for participation. Households will be identified using census data and individuals will be consented for participation.
Malaria smears will be obtained at monthly visits, in conjunction with mosquito collections in/around village residences. Parasite infection rates in locally caught mosquitoes will be assessed longitudinally for differences by season and year. A total of 400 volunteers from Maferinyah will be enrolled. Participants will be followed for up to 3 years, to collect data that will guide the design of future community-based trials of TBV.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 400
Not provided
Not provided
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method To study community dynamics of malaria transmission by estimating the rate of blood smear positive individuals by month and season stratified by age Season and year Rate of blood smear positive individuals by month and season stratified by age
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (2)
Immunology and Pathogenesis Laboratories
🇺🇸Bethesda, Maryland, United States
Maferinyah Rural Health Training and Research Center
🇬🇳Maferinyah, Guinea