Estimating probabilities of malaria importation in southern Mozambique through P. falciparum genomics and mobility patterns

  1. Arnau Pujol
  2. Arlindo Chidimatembue
  3. Clemente da Silva
  4. Simone Boene
  5. Henriques Mbebe
  6. Pau Cisteró
  7. Carla García-Fernández
  8. Arnau Vañó-Boira
  9. Dário Tembisse
  10. José Inácio
  11. Glória Matambisso
  12. Fabião Luis
  13. Nelo Ndimande
  14. Humberto Munguambe
  15. Lidia Nhamussua
  16. Wilson Simone
  17. Andrés Aranda-Díaz
  18. Manuel García-Ulloa
  19. Neide Canana
  20. Maria Tusell
  21. Júlia Montaña
  22. Laura Fuente-Soro
  23. Khalid Ussene Bapu
  24. Maxwell Murphy
  25. Bernardete Rafael
  26. Eduard Rovira-Vallbona
  27. Caterina Guinovart
  28. Bryan Greenhouse
  29. Sonia Maria Enosse
  30. Francisco Saúte
  31. Pedro Aide
  32. Baltazar Candrinho
  33. Alfredo Mayor
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Abstract

Background

Imported malaria is a critical obstacle to achieving elimination in low transmission settings. Characterising malaria importation and transmission sources using human mobility and parasite genomics has the potential to inform elimination strategies, but tools combining both types of data are lacking.

Methods

We developed a novel Bayesian approach that provides individual importation probabilities and geographic origin of P. falciparum cases by combining epidemiological, human mobility and parasite genetic data. Spatial genetic structure and connectivity were assessed using microhaplotype-based genetic relatedness (identity-by-descent) from 1467 P. falciparum samples collected from 9 provinces in Mozambique during 2022, including 200 samples from two very-low transmission elimination-targeted districts (Magude and Matutuine) in the south. Travel reports were combined with genetic relatedness metrics to classify clinical cases as local or imported.

Results

Genetic relatedness between parasites from southern and northern/central Mozambique was lower (0.017) than average (0.024, p<0.001). 43.5% (87/200) of infections in elimination-targeted districts were classified as imported, had a higher genetic complexity (OR=1.4, CI=[1.0, 1.9], p=0.038) compared to local cases and originated mainly from Inhambane (62% [54/87]). Significant differences in the odds of a case being imported were found between the two study districts (OR=6.6, CI=[2.3,25.4], p<0.001), with Magude district (11.1%, 3/27) showing lower importation rates than Matutuine (48.6%, 84/173) district.

Conclusions

Differences in importation rates observed between both elimination districts suggest the need for fine-scale analysis to tailor cost-effective elimination strategies. Importation is strongly impacting malaria incidence in Matutuine district, and increasing efforts to reduce malaria burden in their sources of transmission (especially in Inhambane province), as well as targeting travelers to central and northern Mozambique, could significantly contribute to malaria elimination in the south.

Funding

Bill and Melinda Gates Foundation (INV-019032, INV-067310), the European Union’s Horizon 2020 research and innovation programme (Marie Skłodowska-Curie grant 890477), “laCaixa” Foundation (ID 100010434, fellowship code LCF/BQ/PR24/12050009).

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