Nature Communications (May 2023)

Modelling the impact of interventions on imported, introduced and indigenous malaria infections in Zanzibar, Tanzania

  • Aatreyee M. Das,
  • Manuel W. Hetzel,
  • Joshua O. Yukich,
  • Logan Stuck,
  • Bakar S. Fakih,
  • Abdul-wahid H. Al-mafazy,
  • Abdullah Ali,
  • Nakul Chitnis

DOI
https://doi.org/10.1038/s41467-023-38379-8
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract Malaria cases can be classified as imported, introduced or indigenous cases. The World Health Organization’s definition of malaria elimination requires an area to demonstrate that no new indigenous cases have occurred in the last three years. Here, we present a stochastic metapopulation model of malaria transmission that distinguishes between imported, introduced and indigenous cases, and can be used to test the impact of new interventions in a setting with low transmission and ongoing case importation. We use human movement and malaria prevalence data from Zanzibar, Tanzania, to parameterise the model. We test increasing the coverage of interventions such as reactive case detection; implementing new interventions including reactive drug administration and treatment of infected travellers; and consider the potential impact of a reduction in transmission on Zanzibar and mainland Tanzania. We find that the majority of new cases on both major islands of Zanzibar are indigenous cases, despite high case importation rates. Combinations of interventions that increase the number of infections treated through reactive case detection or reactive drug administration can lead to substantial decreases in malaria incidence, but for elimination within the next 40 years, transmission reduction in both Zanzibar and mainland Tanzania is necessary.