An antibiotic cement-coated locking plate as a temporary fixation for treatment of infected bone defects: a new method of stabilization

Over the last 15 years, with the advent of modern standards in the control of sterility within the operating room environment and adequate protocols of peri-operative antibiotic prophylaxis, the incidence of infections associated to orthopedic implants has become very low. Nevertheless, the event of infection still represents one of the most serious and devastating complications which may involve prosthetic devices. It leads to complex revision procedures and, often, to the failure of the implant and the need for its complete removal. In orthopedics, for the enormous number of surgical procedures involving invasive implant materials, even if nowadays rare, infections have a huge impact in terms of morbidity, mortality, and medical costs. The difficult battle to prevent and fight bacterial infections associated to prosthetic materials must be played on different grounds. A winning strategy requires a clear view of the pathogenesis and the epidemiology of implant-related infections, with a special attention on the alarming phenomenon of antibiotic resistance. In this regard staphylococci are the prevalent and most important causative pathogens involved in orthopedic implant-related infections, and, thus, the main enemy to defeat. In this paper, we offer an overview of the complexity of this battleground and of the current and new, in our opinion most promising, strategies in the field of biomaterials to reduce the risks and counteract the establishment of implant infections.

The pathogenesis of infections associated with fracture-fixation devices is related to microorganisms growing in biofilms, which render these infections difficult to treat. These infections are classified as early ( 10 weeks) according to the implant surgery. Most infections are caused by staphylococci and are acquired during trauma (in penetrating injuries) or subsequent fracture-fixation procedures. A combination of clinical, laboratory, histopathology, microbiology, and imaging studies are usually needed to accurately diagnose infection. Magnetic resonance imaging (MRI) and computed tomography (CT) scans are often used to diagnose infection and plan surgical treatment. Positron emission tomography (PET) and PET-CT are promising new tools for diagnosing implant-associated osteomyelitis. The treatment goal is achieving bone consolidation and avoiding development of chronic osteomyelitis. Successful treatment requires adequate surgical procedures combined with 6-12 weeks of antimicrobial therapy acting on adhering stationary-phase microorganisms. In chronic osteomyelitis, orthopedic and plastic- reconstructive surgery is combined in the same procedure or within a short time span. In this article, pathogenesis, classification, diagnosis, and treatment of infections associated with intramedullary nails, external-fixation pins, plates, and screws are reviewed.