BMC Public Health (Jun 2024)

Assessment of the pathogen genomics landscape highlights disparities and challenges for effective AMR Surveillance and outbreak response in the East African community

  • Julien A. Nguinkal,
  • Yedomon A. B. Zoclanclounon,
  • Andrea Molina,
  • Abdi Roba,
  • Ndia M. Nyakio,
  • Peter N. Lokamar,
  • Néhémie Nzoyikorera,
  • Théogène Ihorimbere,
  • Joseph Nyandwi,
  • Mamdouh A. Aguer,
  • James A. Maror,
  • Michael Lasuba Lokore,
  • Monica Fredrick Francis,
  • Lawrence A. Mapunda,
  • Medard Beyanga,
  • Tonny Muyigi,
  • Godfrey Pimundu,
  • Susan N. Nabadda,
  • Emmanuel Kabalisa,
  • Jeanne d’Arc Umuringa,
  • Isabelle Mukaga Tare,
  • Hakim I. Lagu,
  • Emmanuel Achol,
  • Jürgen May,
  • Muna Affara,
  • Florian Gehre

DOI
https://doi.org/10.1186/s12889-024-18990-0
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 10

Abstract

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Abstract The East African Community (EAC) grapples with many challenges in tackling infectious disease threats and antimicrobial resistance (AMR), underscoring the importance of regional and robust pathogen genomics capacities. However, a significant disparity exists among EAC Partner States in harnessing bacterial pathogen sequencing and data analysis capabilities for effective AMR surveillance and outbreak response. This study assesses the current landscape and challenges associated with pathogen next-generation sequencing (NGS) within EAC, explicitly focusing on World Health Organization (WHO) AMR-priority pathogens. The assessment adopts a comprehensive approach, integrating a questionnaire-based survey amongst National Public Health Laboratories (NPHLs) with an analysis of publicly available metadata on bacterial pathogens isolated in the EAC countries. In addition to the heavy reliance on third-party organizations for bacterial NGS, the findings reveal a significant disparity among EAC member States in leveraging bacterial pathogen sequencing and data analysis. Approximately 97% (n = 4,462) of publicly available high-quality bacterial genome assemblies of samples collected in the EAC were processed and analyzed by external organizations, mainly in Europe and North America. Tanzania led in-country sequencing efforts, followed by Kenya and Uganda. The other EAC countries had no publicly available samples or had all their samples sequenced and analyzed outside the region. Insufficient local NGS sequencing facilities, limited bioinformatics expertise, lack of adequate computing resources, and inadequate data-sharing mechanisms are among the most pressing challenges that hinder the EAC’s NPHLs from effectively leveraging pathogen genomics data. These insights emphasized the need to strengthen microbial pathogen sequencing and data analysis capabilities within the EAC to empower these laboratories to conduct pathogen sequencing and data analysis independently. Substantial investments in equipment, technology, and capacity-building initiatives are crucial for supporting regional preparedness against infectious disease outbreaks and mitigating the impact of AMR burden. In addition, collaborative efforts should be developed to narrow the gap, remedy regional imbalances, and harmonize NGS data standards. Supporting regional collaboration, strengthening in-country genomics capabilities, and investing in long-term training programs will ultimately improve pathogen data generation and foster a robust NGS-driven AMR surveillance and outbreak response in the EAC, thereby supporting global health initiatives.

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