International Journal of Infectious Diseases (Apr 2022)

A citywide, clonal outbreak of Pseudomonas aeruginosa

  • Christoffel J. Opperman,
  • Clinton Moodley,
  • Katie Lennard,
  • Mariette Smith,
  • Jabulani Ncayiyana,
  • Mjikisile Vulindlu,
  • Musarrat Gafoor,
  • Nevashan Govender,
  • Husna Ismail,
  • Colleen Bamford,
  • Kerrigan M. McCarthy,
  • Mark P. Nicol,
  • Chad M. Centner

Journal volume & issue
Vol. 117
pp. 74 – 86

Abstract

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Background: Outbreaks of community-acquired Pseudomonas aeruginosa are typically small and localized. We investigated an increase in community-acquired infections with P. aeruginosa in Cape Town, South Africa. Methods: Cases were defined as P. aeruginosa isolated from any clinical sample, and “wild-type” as those susceptible to all antibiotics tested. The residential addresses of community-acquired wild-type cases were mapped. Whole-genome sequencing and multilocus sequence typing were used to determine clonality and identify virulence genes. A clinical study in a subset of patients with bloodstream infection compared demographic and clinical characteristics between sequence types (STs). Results: The outbreak lasted 10 months from December 2016 to September 2017 with 3,321 documented cases. At the peak, cases reached 2.3-fold baseline rates. Cases were distributed widely across the city. Multilocus ST 303 was predominant during the outbreak. A total of 51 virulence genes were differentially present in ST303 compared with other STs, including genes involved in biofilm formation, iron uptake, and gut penetration. Conclusion: The investigation confirmed a citywide outbreak of P. aeruginosa. We identified a predominant outbreak-associated clone, ST303, which harbored genes that could contribute to virulence and survival in adverse environmental conditions such as those associated with drought.

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