Implant-Related Infections in Patients With Skeletal Sarcomas (IRISSAR)

In orthopaedic oncology, the risk and consequences of orthopaedic device related infections (ODRIs) are heightened as the patients often have compromised immune responses due to underlying disease, chemotherapy or radiation. The implants used may be weight-bearing to the extent that they are impossible to remove or exchange in case of infection, and thereby, in worst case, resulting in amputation or death. Compared to the 1-2% incidence of PJI in a non-oncological population with a total hip- or knee prosthesis, patients with a megaprosthesis due to skeletal sarcoma have an infection incidence of 3-25%. Patient-related factors, extensive and repeated surgery and large reconstructive implants likely account for the increased incidence.

To our knowledge no study has evaluated the role of microbiological factors such as the biofilm production and susceptibility in this population. Further, deficient immunological factors in these patients, such as defect neutrophil migration, cytokine expression and phagocyte respiratory burst, involved in the killing of microbes, may provide an environment favouring more virulent phenotypes. Fundamental knowledge on the role of biofilm in this population could add to the improvement in treatment planning and outcome.

Distinguishing causative pathogens from contaminants may be challenging, especially in polymicrobial infections. The addition of metagenomic diagnostics, still sparsely used in clinical practice, may improve sensitivities, but predictive accuracy is still an issue. Comparing the results of conventional microbiological culturing with metagenomic sequencing would be of interest to determine the accuracy of current diagnostic methods.

The present study is an exploratory project addressing the multifactorial nature of PJI focusing on microbial phenotype in patients with skeletal sarcoma. The role of host, microbe and implant factors will be investigated using a set of different methods and compared to cases och PJI in patients will a conventional hip- or knee prosthesis.

Pre-operative blood samples will be taken and samples of peri-prosthetic soft tissue, bone and joint fluid will be collected intra-operatively. Patients will be sampled during their primary operation with a megaprosthesis due to skeletal sarcoma and in case of postoperative PJI, they will be sampled in the same manner during their revision surgery. Patients undergoing a reoperation due to PJI in a conventional total hip- or knee prosthesis will also be sampled with blood, bone, soft tissue and joint fluid intraoperatively.

Descriptive comparisons between (i) periprosthetic tissues and PJI tissues before and after infection in orthopaedic oncology patients, and (ii) PJI tissues in orthopaedic oncology and conventional PJI patients, will be made in regard to the following parameters:

Role of the host:

• Clinical parameters: ASA-score, diabetes, BMI, age, sex, antibiotic use 2 weeks prior to surgery, duration of chemotherapy, type of chemotherapy, chemotherapy cessation, symptom onset in case of infection, implant type, surgery duration, osteosarcoma type, grade and stage, location of surgery, length of resection.
• Biochemistry in blood (complete white blood cell count with differential, density of neutrophils, CRP, procalcitonin, IL-6).
• Histology and immunohistochemistry (FISH for identification of bacteria, inflammatory infiltrates (presence of foreign body giant cells), angiogenesis, tissue necrosis)
• Gene expression (markers related to angiogenesis, inflammation, microbial recognition and tissue necrosis). In selected paraffin-embedded samples, analysis with spatial transcriptomics will be explored.

Role of the pathogen:

• Five tissue cultures for routine culturing (to determine the causative agent) and one additional for bacterial DNA extraction and 16S rRNA gene sequencing.
• Clinical staphylococcal strains isolated from PJI and tumour endoprosthesis at time of infection will be characterised and compared with respect to their phenotypic biofilm production, antimicrobial susceptibility and presence of virulence genes using CV, MBEC and NGS.
• Difference in gene expression of biofilm-related genes between staphylococcal PJI strains (conventional & orthopaedic oncology) when grown on titanium with serum pre-conditioning in vitro.