Rebound of multiple infections and prevalence of anti-malarial resistance associated markers following malaria upsurges in Dielmo village, Senegal, West Africa.

BACKGROUND: Thanks to the scale up of malaria control interventions, the malaria burden in Senegal has decreased substantially to the point that the National Malaria Control Programme plans to achieve malaria elimination by 2030. To guide such efforts, measuring and monitoring parasite population evolution and anti-malarial drugs resistance is extremely important. Information on the prevalence of parasite mutations related to drug resistance can provide a first signal of emergence, introduction and selection that can help with refining drug interventions. The aim of this study was to analyse the prevalence of anti-malarial drug resistance-associated markers before and after the implementation of artemisinin-based combination therapy (ACT) from 2005 to 2014 in Dielmo, a model site for malaria intervention studies in Senegal. METHODS: Samples from both malaria patients and Plasmodium falciparum asymptomatic carriers were analysed with high resolution melting (HRM) technique to genotype P. falciparum chloroquine resistance transporter (Pfcrt) gene haplotypes and multidrug-resistant protein 1 (Pfmdr1) gene at codons N86 and Y184. RESULTS: Among the 539 samples analysed, 474, 486, and 511 were successfully genotyped for Pfmdr1 N86, Y184, and Pfcrt, respectively. The prevalence of drug resistance markers was high, particularly during the malaria upsurges. Following the scale-up in bed net distribution, only the mutant (86F-like) variant of Pfmdr1 86 was present while during the malaria upsurges the predominance of two types 86Y-86N (43%) and 86F-like (56%) were observed. Most infections (87%) carried the wild type Y-allele at Pfmdr1 184 during the period of nets scale-up while during the malaria upsurges only 16% of infections had wild type and 79% of infections had mixed (mutant/wild) type. The frequency of the mixed genotypes SVMNT-like_CVMNK and SVMNT-like_CVIET within Pfcrt gene was particularly low during bednet scale up. Their frequency increased significantly (P < 0.001) during the malaria upsurges. CONCLUSION: This data demonstrated the effect of multiple interventions on the dynamics of drug resistance-associated mutations in the main malaria parasite P. falciparum in an endemic village in Senegal. Monitoring drug resistance markers should be conducted periodically to detect threats of emergence or resurgence that could compromise the efficacy of anti-malarial drugs.

P. falciparum genetic markers associated with drug resistance from patients with treatment failure in the Southern part of Senegal in 2017.

Artemisinin Combination Therapies (ACT) stand as the most potent antimalarial treatments. In response to the emergence of ACT-resistant malaria parasites in Southeast Asia, the World Health Organization (WHO) has recommended continuous monitoring of the effectiveness of ACT and other antimalarials. To address this need, we collected dried blood spots from malaria patients during a 42-days drug efficacy trial evaluating the efficacy of Artesunate plus Amodiaquine (ASAQ), Artemether Plus Lumefantrine (AL) and Dihydroarthemisinine plus Piperaquine (DHAPQ) on simple P. falciparum malaria in 2017. Blood samples were collected on Day 0, prior to the patients' initial ACT dose, and on any days of recurrent parasitemia. Genetic markers such as Merozoite Surface Protein 1 (MSP1) and Merozoite Surface Protein 2 (MSP2) were genotyped to differentiate between recrudescence and re-infestation cases. Furthermore, PCR Single Specific Oligonucleotide Probes combined with-ELISA platform (PCR-SSOP-ELISA) and PCR-RFLP techniques were used to identify Pfcrt 72-76 mutant haplotype and Pfmdr1_86Y allele associated with chloroquine and amodiaquine resistance, respectively. Out of the 320 patients enrolled in the study, only 43 (13.43%) experienced relapses. Upon PCR correction, our analysis revealed that recrudescent infections affected 13 patients, with 8 in the ASAQ group, 5 in the AL group, and none in the DHAPQ group. Notably, no early treatment failures (within the first 3 days of treatment) were observed, and all recurrences occurred between Day 21 and Day 42. The prevalence of the Pfcrt wild-type haplotype CVMNK and Pfmdr N86 allele was 67.03% and 97.70%, respectively. In contrast, the mutant types CVIET and 86Y were found at 32.97% and 2.3%, respectively. The high prevalence of the CVMNK wild haplotype suggests that the parasites remain sensitive to chloroquine, while the low prevalence of the 86Y mutants indicates continued effectiveness of amodiaquine. Furthermore, the low prevalence of strains exhibiting the combination of CVIET and 86Y suggests that the use of multiple antimalarials is valuable for resistance control. Notably, none of the relapse cases carried the 86Y mutation or the combination of 86Y and CVIET.