Abstract
Aim
Non-steroidal anti-inflammatory drugs (NSAIDs) are a cornerstone of perioperative pain management in orthopedic trauma surgery, although concerns persist regarding the potential impact of these drugs on fracture healing. Furthermore, NSAIDs may also exert an influence on host immune defenses, which may also be important in the context of infection treatment. However, this has been very much under-investigated in the clinical and scientific literature. The aim of this study was to determine the impact of NSAIDs on the course of an orthopedic device-related infection (ODRI) and its response to antibiotic therapy in a rat model.
Method
A polyetheretherketone (PEEK) screw was inserted in the proximal tibia of 48 skeletally mature female Wistar rats: 12 control animals received a sterile screw, of which 6 also received NSAID therapy (carprofen, 5 mg/kg s.c. once daily); 36 rats received a Staphylococcus epidermidis-inoculated screw, of which 18 received NSAID therapy. Antibiotic therapy was administered from day 7–21 in 9 animals from all groups receiving S. epidermidis-inoculated screws (cefazolin: 30 mg/kg; s.c., b.i.d. plus rifampin: 25 mg/kg; s.c., b.i.d.). Bone histomorphometric changes were monitored using longitudinal microCT scanning, performed postoperatively, and at 3, 6, 9, 14, 20 and 28 days (euthanasia). Quantitative bacteriology of the implant, bone and overlying soft tissue was performed to assess infection status of individual animals.
Results
All animals receiving S. epidermidis-inoculated screws in the absence of antibiotic therapy were confirmed as infected at euthanasia. Quantitative microbiology showed no significant change in bacterial load in NSAID-treated animals versus control. However, NSAID administration dramatically impaired antibiotic efficacy, with 7/8 animals remaining infected when NSAIDs were co-administered, whilst only 2/9 of control animals were infected when NSAIDs were withheld.
Pronounced osteolysis was observed by day 6–9 in control animals, with reparative processes (periosteal proliferation and mineralization) observed at day 14. NSAID treatment markedly prevented S. epidermidis-induced osteolysis, but also reparative processes. Antibiotic treatment did not affect the bone changes.
Conclusions
NSAID administration dramatically affected the response of bone tissue to infection, reducing osteolysis but also impairing reparative processes. Crucially, NSAIDs dramatically reduced antibiotic efficacy. Given these pronounced negative effects, further investigations should be conducted to determine the underlying pathophysiological mechanism and better understand the consequences of the therapeutic use of NSAIDs in human patients with ODRI.