PLoS Neglected Tropical Diseases (Jul 2023)

Towards the sustainable elimination of gambiense human African trypanosomiasis in Côte d'Ivoire using an integrated approach.

  • Dramane Kaba,
  • Mathurin Koffi,
  • Lingué Kouakou,
  • Emmanuel Kouassi N'Gouan,
  • Vincent Djohan,
  • Fabrice Courtin,
  • Martial Kassi N'Djetchi,
  • Bamoro Coulibaly,
  • Guy Pacôme Adingra,
  • Djakaridja Berté,
  • Bi Tra Dieudonné Ta,
  • Minayégninrin Koné,
  • Barkissa Mélika Traoré,
  • Samuel A Sutherland,
  • Ronald E Crump,
  • Ching-I Huang,
  • Jason Madan,
  • Paul R Bessell,
  • Antoine Barreaux,
  • Philippe Solano,
  • Emily H Crowley,
  • Kat S Rock,
  • Vincent Jamonneau

DOI
https://doi.org/10.1371/journal.pntd.0011514
Journal volume & issue
Vol. 17, no. 7
p. e0011514

Abstract

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BackgroundHuman African trypanosomiasis is a parasitic disease caused by trypanosomes among which Trypanosoma brucei gambiense is responsible for a chronic form (gHAT) in West and Central Africa. Its elimination as a public health problem (EPHP) was targeted for 2020. Côte d'Ivoire was one of the first countries to be validated by WHO in 2020 and this was particularly challenging as the country still reported around a hundred cases a year in the early 2000s. This article describes the strategies implemented including a mathematical model to evaluate the reporting results and infer progress towards sustainable elimination.MethodsThe control methods used combined both exhaustive and targeted medical screening strategies including the follow-up of seropositive subjects- considered as potential asymptomatic carriers to diagnose and treat cases- as well as vector control to reduce the risk of transmission in the most at-risk areas. A mechanistic model was used to estimate the number of underlying infections and the probability of elimination of transmission (EoT) was met between 2000-2021 in two endemic and two hypo-endemic health districts.ResultsBetween 2015 and 2019, nine gHAT cases were detected in the two endemic health districts of Bouaflé and Sinfra in which the number of cases/10,000 inhabitants was far below 1, a necessary condition for validating EPHP. Modelling estimated a slow but steady decline in transmission across the health districts, bolstered in the two endemic health districts by the introduction of vector control. The decrease in underlying transmission in all health districts corresponds to a high probability that EoT has already occurred in Côte d'Ivoire.ConclusionThis success was achieved through a multi-stakeholder and multidisciplinary one health approach where research has played a major role in adapting tools and strategies to this large epidemiological transition to a very low prevalence. This integrated approach will need to continue to reach the verification of EoT in Côte d'Ivoire targeted by 2025.