Local Antibiotic Delivery Systems and Their Applications in Orthopaedic Surgery Publisher



Hoveidaei AH ; Sabaghian A ; Basirat E ; Ramezani A ; Shu HT ; Conway JD
Source: JBJS Open Access Published:2025

Abstract

Abstract – » Local antibiotic delivery systems are critical in managing periprosthetic and fracture-related infections, providing high local antibiotic concentrations without systemic side effects. Polymethyl methacrylate (PMMA), the first material to be mixed with antibiotics to perform local antibiotic therapy in orthopaedic history, offers reliable antibiotic delivery above the Minimum Inhibitory Concentration (MIC), typically used with heat-stable antibiotics such as vancomycin, tobramycin, and gentamicin. However, excessive antibiotics can weaken the cement, especially in total joint arthroplasty (TJA). When used for bone defects, a second surgery is often required to replace PMMA with bone grafts.» Calcium sulfate (CaSO4) and hydroxyapatite (HA) combinations provide high antibiotic delivery, with CaSO4 dissolving over time and CaSO4/HA offering better bone conversion than CaSO4. They are most effective in small, contained defects and can be mixed with relatively heat-unstable antibiotics.» Tricalcium phosphate (Ca3[PO4]2) cements are favored for their biocompatibility and biodegradability, enhancing osteoconductivity and allowing for prolonged antibiotic release. Although clinical studies on Ca3(PO4)2 as an antibiotic carrier are limited, vancomycin is commonly used, showing effective bone formation and infection control with a high bone defect cure and healing rate.» Hydrogels are 3D networks of hydrophilic polymers that absorb water and can form physical barriers against bacterial agents. Defensive antibacterial coatings (DAC) can be loaded with antibiotics and have shown lower postsurgery infection rates in arthroplasty. DACs reduce bacterial adhesion and can promote bone healing when combined with osteogenic factors, while being bioabsorbable and compatible with living tissue.» Antibiotic-impregnated bone grafts combine effective local antibiotic delivery with maximum bone healing potential, particularly for those pretreated with induced membranes. Intramedullary harvest offers an unlimited source of bone graft material. © 2025