Implants Induce a New Niche for Microbiomes

Overview

Journal APMIS

Specialties Allergy & Immunology
Microbiology
Pathology

Date 2018 Jul 3

PMID 29962006

Citations 14

Authors

Tim H Jakobsen

Steffen R Eickhardt

Alexandra G Gheorghe

Charlotte Stenqvist

Majken Sonderholm

Camilla Stavnsberg

Peter O Jensen

Anders Odgaard

Marvin Whiteley

Claus Moser

Jesper Hvolris

Hans Petter Hougen

Thomas Bjarnsholt

Affiliations

Soon will be listed here.

Abstract

Although much work is being done to develop new treatments, research and knowledge regarding factors underlying implant-related microbial colonization leading to infection are less comprehensive. Presence of microorganisms in and around implants clinically characterized as uninfected remains unknown. The objective of this study was to detect and identify bacteria and fungi on implants from various groups of patients with no prior indications of implant related infections. Patient samples (implants and tissue) were collected from five different hospitals in the Capital region of Denmark. By in-depth microbiological detection methods, we examined the prevalence of bacteria and fungi on 106 clinically uninfected implants from four patient groups (aseptic loosening, healed fractures, craniofacial complications and recently deceased). Of 106 clinically uninfected implants and 39 negative controls investigated, 66% were colonized by bacteria and 40% were colonized by fungi (p < 0.0001 compared to negative controls). A large number of microbes were found to colonize the implants, however, the most prevalent microbes present were not common aetiological agents of implant infections. The findings indicate that implants provide a distinct niche for microbial colonization. These data have broad implications for medical implant recipients, as well as for supporting the idea that the presence of foreign objects in the body alters the human microbiome by providing new colonization niches.

Citing Articles

Bacterial micro-aggregates as inoculum in animal models of implant-associated infections.

Hartmann K, Lund Nielsen R, Mikkelsen F, Aalbaek B, Lichtenberg M, Jakobsen T Biofilm. 2024; 7:100200.

PMID: 38803605 PMC: 11128829. DOI: 10.1016/j.bioflm.2024.100200.

Clinical and laboratory predictors for prosthetic joint infection within the first postoperative days following primary total hip and knee arthroplasty.

Brumat P, Mavcic B, Jurcic I, Trebse R Int Orthop. 2023; 47(9):2173-2179.

PMID: 37421426 PMC: 10439017. DOI: 10.1007/s00264-023-05891-x.

Pathogen detection in suspected spinal infection: metagenomic next-generation sequencing versus culture.

Huang H, Shi J, Zheng M, Su S, Chen W, Ming J Eur Spine J. 2023; 32(12):4220-4228.

PMID: 37237239 DOI: 10.1007/s00586-023-07707-3.

The structure-function relationship of Pseudomonas aeruginosa in infections and its influence on the microenvironment.

Lichtenberg M, Jakobsen T, Kuhl M, Kolpen M, Jensen P, Bjarnsholt T FEMS Microbiol Rev. 2022; 46(5).

PMID: 35472245 PMC: 9438473. DOI: 10.1093/femsre/fuac018.

Analyzing risk factors for treatment failure in fracture-related infection.

Yong T, Rackard F, Dutton L, Sparks M, Harris M, Gitajn I Arch Orthop Trauma Surg. 2022; 143(3):1387-1392.

PMID: 35043253 DOI: 10.1007/s00402-021-04277-1.