Characterization of Plasmodium Falciparum Resistance Genes to Common Antimalarial Drugs in Semi-urban Areas of Burkina Faso.

INTRODUCTION: Malaria still remains the most frequent parasitic disease on the world with, in 2022, 249 million cases and 608,000 deaths worldwide. Malaria control is compromised by the spread of the parasite's resistance to available antimalarials. The objective of our study is to characterize the Plasmodium falciparum resistance genes to common antimalarial drugs in semi-urban areas of Burkina Faso. MATERIALS AND METHODS: This is a prospective cross-sectional study whose collection took place from June to October 2021 and from June to October 2022 in five health facilities in Burkina Faso. The molecular analysis based on PCR-RFLP took place from January to June 2023 at Centre National de Recherche et de Formation (CNRFP) to determine resistance genes such as Pfcrt, Pfmdr1, Pfdhps, and Pfdhfr. RESULTS: A total of 150 samples were analyzed giving a prevalence of 46.67, 1.33, 0.67, 20, 82, and 4.67%, for Pfcrt 76 T, Pfmdr1 86Y, Pfdhps 437G, Pfdhfr 51I, Pfdhfr 59R, and Pfdhfr 108N mutations, respectively. There are no mutations observed Pfdhps 540E and Pfdhfr 164L positions. However, mutation on Pfdhfr 59R position was the most common. In addition, triple mutation (Pfdhps 437G + Pfdhfr 59R + Pfdhfr 108N) was found with a low frequency which is 0.67%. CONCLUSION: Surveillance of Plasmodium falciparum resistance markers to antimalarial drugs, remains one of the priorities in the context of the control or malaria elimination.

Seasonal Malaria Chemoprevention Implementation: Effect on Malaria Incidence and Immunity in a Context of Expansion of P. falciparum Resistant Genotypes with Potential Reduction of the Effectiveness in Sub-Saharan Africa.

Seasonal Malaria Chemoprevention (SMC), which combines amodiaquine (AQ) with sulfadoxine-pyrimethamine (SP), is an effective and promising strategy, recommended by WHO, for controlling malaria morbidity and mortality in areas of intense seasonal transmission. Despite the effectiveness of this strategy, a number of controversies regarding the impact of the development of malaria-specific immunity and challenges of the strategy in the context of increasing and expanding antimalarial drugs resistance but also the limited coverage of the SMC in children make the relevance of the SMC questionable, especially in view of the financial and logistical investments. Indeed, the number of malaria cases in the target group, children under 5 years old, has increased while the implementation of SMC is been extended in several African countries. This ambivalence of the SMC strategy, the increase in the prevalence of malaria cases suggests the need to evaluate the SMC and understand some of the factors that may hinder the success of this strategy in the implementation areas. The present review discusses the impact of the SMC on malaria morbidity, parasite resistance to antimalarial drugs, molecular and the immunity affecting the incidence of malaria in children. This approach will contribute to improving the malaria control strategy in highly seasonal transmission areas where the SMC is implemented.