Abstract
BACKGROUND
Pseudomonas aeruginosa (PA) accounts for 7%-22% of breast implant-associated infections (BIAIs), which can result in reconstructive failures and explantation. Investigating host-pathogen-device interactions in mice and patient samples will improve our understanding of colonization mechanisms, for targeted treatments and clinical guidelines.
METHODS
Mice with and without implants (Mentor®) were infected with PAO1 lab strain or BIP2 or BIP16 clinical strains and sacrificed at 1 day or 7 days post-infection (dpi) to evaluate for colonization of implants and underlying tissues via colony-forming unit (CFU) enumeration. Immunostaining was performed on mouse implants, human tissue expanders (TE) colonized by BIP2, and acellular dermal matrix (ADM) colonized by BIP16.
RESULTS
Colonization of tissues and smooth implants by P. aeruginosa was strain-dependent: at 1dpi, all strains acutely infected tissues with and without implants with colonization levels reflecting growth rates of individual strains. At 7dpi, PAO1 caused colonization of ~105 CFUs/100mg of tissue but required implant presence, while in mice infected with BIP2/BIP16, CFUs were below the limit of detection with or without implants. Immunofluorescence staining of mouse implants, however, demonstrated continued presence of BIP2 and BIP16. Staining showed co-localization of all strains with fibrinogen, collagen I and collagen III on mouse and human samples.
CONCLUSIONS
The trajectory of P. aeruginosa in BIAIs was strain-dependent and strains could exhibit acute symptomatic or chronic asymptomatic colonization. With strains causing clinical symptoms, the presence of an implant significantly worsened infection. For asymptomatic colonizers, further studies investigating their long-term impacts, especially during periods of immunosuppression in hosts, are needed.
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