Microbiomes identified after TKA possibly exist in patients’ native knees
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Among 40 patients who underwent total knee arthroplasty for osteoarthritis, results of a prospective cohort study showed next-generation sequencing identified at least one positive organism that was native to the patient’s knee in 12 patients. Furthermore, 4.6 organisms were identified, on average, in patients with positive next-generation sequencing results.
Escherichia coli was the most common organism identified in the native knees of patients studied, according to results of the study by Wayne E. Moschetti, MD, MS, FAAOS, and colleagues, of Lebanon, New Hampshire.
“We sought to understand whether a microbiome exists in the native arthritic knee, similar to other anatomic locations like the gut,” Moschetti told Healio Orthopedics, noting next-generation sequencing (NGS) of DNA is a novel technology that identifies non-host pathogen DNA from a particular sample to diagnosis infection.
In the study, the samples used were taken from patients’ knee synovial fluid aspirations done during TKA, but prior to arthrotomy. The fluid obtained was sent for NGS analysis at MicroGen Diagnostics, as were four separate tissue samples taken from each patient immediately after arthrotomy from the knee’s medial and lateral gutters, suprapatellar pouch and from a femoral swab.
The controls used were sterile water samples from before and after the arthrotomies were performed. These samples were also sent for NGS testing.
Researchers recorded all microbes the NGS analyses identified and noted they represented part of the native knee microbiome.
“Approximately 30% of patients undergoing primary total knee replacement for osteoarthritis had an organism identified by NGS at the time of surgery. This provides an important foundation for future research about the pathophysiology of periprosthetic joint infections as organisms identified may represent the native microbiome rather than pathogenic microbes,” Moschetti said.
Larger studies and longer follow-up are needed to better understand the implications of the effect of the native joint’s microbiome after TKA, the researchers noted in their abstract. – by Susan M. Rapp
Reference:
Moschetti W, et al. ePaper 061. Presented at: American Academy of Orthopaedic Surgeons Annual Meeting; March 24-28, 2020 (meeting canceled).
Disclosures: Moschetti reports no relevant financial disclosures. The study was supported by a resident Orthopaedic Research and Education Foundation grant.