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Seasonal Malaria Chemoprevention (SMC) for children less than five years old is one the high impact interventions against malaria in sub-Saharan Africa (SSA). Since 2016, the Government of Mali and partners through the National Malaria Control Program has deployed SMC countrywide during high malaria transmission season with a total of four (4) rounds per year. Sulfadoxine-Pyrimethamine (SP) with Amodiaquine (AQ) are the drugs used for SMC. However, SP is also used for Intermittent preventative treatment (IPTp) for pregnant women while AQ has been used for decades for treatment of uncomplicated malaria.
The proposed study will examine the effect of SMC with Sulfadoxine+Amodiaquine (SP+AQ) extension to older age, the efficacy of Dihydroartemisin-Piperaquine (DHA-PQ) when used for SMC, social, cultural, economic and health systems factors associated with effective implementation of SMC. The specific aims of this study are to: 1] Assess the effect of SMC (SP+AQ) on malaria incidence and infection prevalence in different age groups across sites; 2] Study the effect of SMC (DHA-PQ) compared to SMC (SP-AQ) among children less than 10 years; 3] Determine the cost-effectiveness for each treatment regimen; ) 4] Explore factors determining effective SMC implementation including coverage of children targeted to receive treatment by community distributors, receipt of a full course of treatment, perception of medications by parents and health care providers, and sustainability; and 5) Establish a district based system to identify severe cases.
The expected outcomes of this work, upon completion of our specific aims, include 1) Recommendations to Malian health officials and other partners for improving implementation of SMC and alternative drug to SP+AQ for SMC, and 2) Guidelines for routine monitoring of SMC implementation.
Full description
Study Aims The primary aim of the proposed research is to compare impact of three different treatment strategies of Seasonal malaria chemoprevention (SMC) on malaria incidence in Koulikoro health district Specific aims: Assess the effect of SMC (Sulfadoxin Pyrimethamin+Amodiaquin) on malaria incidence and infection prevalence in different age groups across sites; Study the effect of SMC with Dihydroartemesinin - Piperaquin compared to SMC with Sulfadoxin Pyrimethamin+Amodiaquin among children less than 10 years; Determine the cost-effectiveness for each treatment regimen; Explore factors determining effective SMC implementation including coverage of children targeted to receive treatment by community distributors, receipt of a full course of treatment, perception of medications by parents and health care providers, and sustainability; and Establish a district-based system to identify severe cases.
Research questions and hypotheses
Primary research question:
-Is SMC extension to children 5-9 years old with Sulfadoxin Pyrimethamin+Amodiaquin more effective on reducing malaria mortality and morbidity during the high malaria transmission season? Null hypothesis (H0): There is no benefit to SMC extension to older children with Sulfadoxin Pyrimethamin+Amodiaquin over standard SMC for children less than 5 years reducing confirmed P. falciparum case incidence, infection incidence, or community parasite prevalence during malaria transmission season
Secondary research questions:
Could Dihydroartemesinin - Piperaquin be used as an alternative drug for SMC in case of significant resistance of P. falciparum to SP? Null hypothesis (H0): Dihydroartemesinin - Piperaquin is less effective than Sulfadoxin Pyrimethamin+Amodiaquin when used for seasonal malaria chemoprevention among children < 10 years' old
Is extension of SMC to children < 10 years associated with a decline in the proportion of infected malaria vector, and Entomological Inoculation Rates?
Are there difference in frequency of adverse effects to children receiving Sulfadoxin Pyrimethamin+Amodiaquin vs. children receiving Dihydroartemesinin - Piperaquin?
What are the barriers to high and effective SMC implementation and effectiveness
What is the cost and cost-effectiveness of SMC according to target groups and drugs used?
What is the best delivery strategy for effective implementation and community adherence to SMC Research Activities
Mapping and census enumeration including household geolocation of the study area will be undertaken in June 2019. The household census will be completed using house-to-house enumeration. This will be used to identify 9 candidate study villages for approximately 5,000 children aged 3 months to <10 years old. From the 9 villages, three (3) study arms will be formed (3 villages per arm). Village will be randomly allocated to sites according to geographic and environmental characteristics as well as population size.
The census data will be used as a sampling frame for conducting the enrollment and follow-on deployment of the interventions, for cohort selection and for determining the population denominator for incidence calculated using passive case detection reported through the routine surveillance system.
Enrollment. Before SMC, all children < 10 years old will be selected to participate. A study specific consent for will be addressed to parents of children and only children of parents who voluntarily consent will be enrolled. At enrollment, finger print, facial recognition and picture of children for whom consent was obtain will be collected and study card with picture and individual ID number will be generated for each child. Fever, Anemia and malaria infection prevalence will be collected during enrollment and infected cases will be given malaria treatment according to the Mali NMPC recommandations and free of charge.
Sensitisation of the population to the proposed study and Community. Study investigators organized a first workshop in Koulikoro to explain the study purposes and goals. Attendees to this meeting will be the Regional and District level health authorities, Director of the 9 community health centers, Malaria focal points in Koulikoro district health center, Community leaders, Community health workers and health agents of the selected study area.
Randomisation. From the census data, the geographical and environmental characteristics of each village, Clusters will be randomize villages to study arm considering:
3 levels of population: low, medium, and high stratified and 3 regions (Northern, Central, and River).
The first study arm will be under standard SMC
The second study arm will receive SMC with standard drugs for < 10 years
The third study arm will receive SMC with alternative drug for < 10 years
SMC delivery. According the National Malaria Control Program, the first round of SMC will start in July 22nd, 2019 and a total of four monthly round will be performed. This study will follow the national calendar for SMC. During each round, teams will be deployed on each site for a week to oversee the drug distribution and monitor adherence through direct and indirect observation. A post SMC household survey will be performed to assess adherence to treatment, adverse side effects and reasons for non-compliance to SMC treatment
Selection and training of community health workers. For each site a list of community health workers (CHWs) and Community Health Agents (CHAs) will be established. A special on-site training will be organized for each health district before the first round of SMC. Training will be on SMC treatment, doses and coverage; electronic data capture, use of RDT, prompt administration of ACTs and referral to the Community health center of complicated malaria cases) Communities will be made aware of the new duties of their CHW/CHA before the project start.
Implementation science. Qualitative and quantitative research methods will be applied including observations, in-depth interviews and focus group discussions to examine all of the steps in the implementation of SMC.
Capture costing data. SMC drugs and delivery costs will be collected following a standardized protocol to estimate the financial and economic costs of each treatment regimen. Final cost will be compare to total expenditure for malaria treatment at community level in absence of SMC.
Entomological collections. During malaria transmission season, a total of three mosquito collection will be performed in each study village. Collection methods will include PSC inside houses, and HLC in and out doors. Up to 100 female anophelines per site per survey will be dissected for age grading, and tested by PCR for species identification and sporozoite ELISA.
Environmental context. Monthly monitoring of weather (temperature, humidity, rainfall) will be undertaken. Additionally, proximity and productivity of breeding sites will be monitored monthly. Daily weather data (temperature, humidity, rainfall) will be collected from the nearest weather station on a district level.
Along the River Niger: Gouni, Kenenkou and Kamani
Central zone: Doumba, Koula and Sinzani
Northern zone: Sirakorola, Monzombala and Chola 3.2. Study Design: A cluster randomized design will be used. A total of three treatment arms will be formed (see the graphic below): Arm 1: Standard of care defined as Sulfadoxin Pyrimethamin+Amodiaquin for children less than 5 years old according the NMCP national politic for malaria control Arm2: Sulfadoxin Pyrimethamin+Amodiaquin will be delivery to children 3 months to less than 10 years (extension of SMC to children 5-9 years with current drug) Arm 3: Dihydroartemesinin - Piperaquin will be delivery to children 3 months to less than 10 years
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4,556 participants in 3 patient groups
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Data sourced from clinicaltrials.gov
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