Optimization of Seasonal Malaria Chemoprevention (SMC) Delivery

Not Applicable

• Conditions: Anemia; Malaria
• Interventions: Other: DDD+DOT; Other: FPD+NDOT; Other: FPD+DOT; Other: DDD+NDOT

• Registration Number: NCT02646410
• Lead Sponsor: University of Bamako

Brief Summary

Based in part on the pivotal studies conducted in Mali, SMC was approved by WHO as a policy for malaria control in countries with seasonal malaria transmission such as Mali in March 2012. The goals are to identify the most effective method to deliver SMC, and to obtain more information on the long term impact of SMC on malaria immunity. Our specific aims are 1) to determine the optimal mode (fixed-point (FPD) vs door-to-door delivery (DDD); directly observed treatment (DOT) vs non-DOT (NDOT)) and frequency (3 vs 4 doses per season) of SMC delivery; 2) to compare quantitative measures of immunity in children who do and do not receive SMC. A cluster-randomized design will be sued. The target population will be children aged 3-59 months old in Ouelessebougou district, Mali. In Year 1, villages in four sub-districts will be randomized into four groups (FPD+DOT; FPD+NDOT; DDD+DOT; DDD+NDOT). The optimal mode of delivery will be selected based on the SMC coverage during the first year, and will then be implemented in villages of two additional sub-districts. Villages in these two newly selected sub-districts will be randomized in two groups. Children in the first group will received three rounds of SMC and those in the second group will receive four rounds of SMC to determine the optimal frequency of SMC based on the incidence rate of clinical malaria as measured by passive surveillance. In Year 3, children in the selected sub-districts will received SMC by the optimal delivery system determined in Years 1 -2. A survey will be conducted collect data on mortality and hospital admission and compare these outcomes in areas where SMC was implemented and areas where SMC was not implemented.

Detailed Description

Based in part on the pivotal studies conducted in Mali, SMC was approved by WHO as a policy for malaria control in countries with seasonal malaria transmission such as Mali in March 2012. The strategy is a highly cost-effective approach to reduce childhood mortality in these areas. Despite the huge benefit of the SMC on malaria infection and disease, the optimal approach to deliver SMC remains to be determined and there is no data on the long term effect of this strategy on the development of immunity to malaria. While fixed-point delivery (FPD) combined with non directly observed treatment (NDOT) by community health workers is attractive for the SMC implementation, it is need to be evaluated and compared to other mode of delivery. The objectives are to identify the most effective method to deliver SMC, and to obtain information on the long term impact of SMC on malaria immunity. Specifically, i) to determine the optimal mode (fixed-point (FPD) vs door-to-door delivery (DDD); directly observed treatment (DOT) vs. non-DOT (NDOT)) and frequency (3 vs. 4 doses per season) of SMC delivery; ii) to compare quantitative measures of immunity in children who do and do not receive SMC over a three year period.

The design is a cluster-randomized trial over three years. The target population is children aged 3-59 months old living in Ouelessebougou district, Mali. In Year 1, villages in four sub-districts will be randomized into four groups (FPD+DOT; FPD+NDOT; DDD+DOT; DDD+NDOT). The optimal mode of delivery will be selected based on the SMC coverage during the first year, and will then be implemented in villages of two additional sub-districts. Villages in these two newly selected sub-districts will be randomized in two groups. Children in the first group will received three rounds of SMC and those in the second group will receive four rounds of SMC to determine the optimal frequency of SMC based on the incidence rate of clinical malaria as measured by passive surveillance. Children in the four sub-districts selected in Year 1 will continue to receive three rounds of SMC in Year 2 using the optimal mode of delivery. In Year 3, children in the randomly selected sub-districts will received SMC by the optimal delivery system determined in Years 1 -2. Immune responses will be measured and compared between the children receiving SMC to a cohort of children not receiving SMC, to assess the impact of SMC on key antimalarial antibody responses over the three year period using cross-sectional surveys at the beginning and the end of the transmission season.

In Year 3, 4 and 5 surveys will be conducted to collect data on mortality and hospital admissions and compare these outcomes in areas where SMC was implemented and areas where SMC was not implemented.

Study Timeline

• Study Start: 2014-08
• Study First Submitted: 2015-12-29
• Study First Submitted QC: 2015-12-31
• Study First Posted: 2016-01-05
• Status Verified: 2018-04
• Last Update Submitted: 2018-04-30
• Last Update Posted: 2018-05-02
• Primary Completion: 2018-12
• Study Completion: 2018-12

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 10000

Inclusion Criteria

Age >= 3 months & < 60 months

Exclusion Criteria

• severe, chronic illness
• known allergy to one of the study drugs (SP or AQ)
• known HIV positive subjects using Cotrimoxazole.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: FACTORIAL

Arm && Interventions

Group	Intervention	Description
DDD+DOT	DDD+DOT	door-to-door delivery (DDD) combined with directly observed treatment (NDOT)
FPD+NDOT	FPD+NDOT	Fixed-point delivery (FPD) combined with non directly observed treatment (NDOT)
FPD+DOT	FPD+DOT	Fixed-point delivery (FPD) combined with directly observed treatment (DOT)
DDD+NDOT	DDD+NDOT	door-to-door delivery (DDD) combined with non directly observed treatment (NDOT)

Primary Outcome Measures

Name	Time	Method
Coverage of SMC	1-5 weeks after last round of SMC in Year1	SMC coverage will be defined as proportion of the children who have received the three treatments doses at each of the three rounds of SMC.
Hospital admission	1, 2, 3, 4 years of the intervention	Hospitalization
Mortality rate	1, 2, 3, 4 years of the intervention	death
Incidence of clinical malaria in Year 2	up to 4 weeks after the last round of SMC	Clinical malaria defined as signs and symptoms suggestive of malaria with positive RDT and/or positive blood smear.

Secondary Outcome Measures

Name	Time	Method
malaria parasitemia	one week before the first round of SMC and 4-6 weeks after the last round of SMC	Parasite prevalence defined as the proportion of children with a positive malaria blood smear and parasite density
moderate anemia	one week before the first round of SMC and 4-6 weeks after the last round of SMC	Prevalence of moderate anemia defined as hemoglobin concentration \< 8 g/dL measured by hemoglobin analyzer
immune response to malaria parasite	one week before the first round of SMC and 4-6 weeks after the last round of SMC	Cellular and humoral antimalarial immune responses to malaria parasites
molecular markers of resistance to SP + AQ	one week before the first round of SMC and 4-6 weeks after the last round of SMC	Frequency of mutations at codons 51, 59, and 108 of the dhfr gene, 437 and 540 of the dhps gene, codon 76 in the P. falciparum chloroquine transporter gene (pfcrt), and codon 86 of the P. falciparum multidrug resistance gene one (pfmdr1).
Clinical malaria in Year 1	up to 4 weeks after the last round of SMC	Clinical malaria defined as signs and symptoms suggestive of malaria with positive RDT and/or positive blood smear.
nutritional status	one week before the first round of SMC and 4-6 weeks after the last round of SMC	Prevalence of wasting stunting and underweight as defined by WHO Global database on Child Growth and Malnutrition

Trial Locations

Locations (1)

Malaria Research and Training Center; 🇲🇱 Bamako, Mali