The first aim of the study was to investigate if bacteria were implicated in non-union of fractures of the tibia and femur, which had been treated with intramedullary nailing. The second aim was to evaluate the antimicrobial susceptibility of bacteria isolated from the retrieved intramedullary nails.

Forty intramedullary nails removed from tibial and femoral fractures were retrieved for the purpose of the study. Twenty of these nails were from fractures, which had successfully united and 20 were removed from fractures which had failed to unite prior to further operative intervention. There was no evidence of clinical infection in either of the two groups. The nails were subjected to ultrasound in the research laboratory to dislodge adherent bacteria formed as biofilm from the surface of the nail. Using both standard culture techniques and non-culture techniques (Immunofluorescence microscopy and PCR analysis) any dislodged bacteria were isolated and identified.

Isolated bacteria were tested for antimicrobial susceptibility to commonly used antibiotics in orthopaedic practice according to NCCLS guidelines.

Bacteria were detected in 15 out of 20 [75%] of the nails removed from fractures, which had developed a non-union, and in 5 out of 20 [25%] of fractures that had united, using both standard culture techniques and non-culture techniques. The bacterial isolates identified were mainly Staphylococcus epidermidis and the Gram-positive anaerobe Proprionibacterium acnes.

Vancomycin was the most effective antibiotic, with 2 out of 34 [6%] isolates being resistant. Erythromycin was the least effective, with 21 out of 34 [62%] isolates being resistant. Based on overall Minimum Bactericidal Concentrations at which 90% of all strains were killed, Vancomycin was the most active bactericidal agent tested followed in decreasing order by fucidic acid, ciprofloxacin, gentamicin, cefamandole and erythromycin.

Bacteria were detected more commonly in the fracture non-union group than in the union group [p< 0.01]. Of the antibiotic agents tested Vancomycin was the most effective and Erythromycin was the least effective.

Aim: The aim of the project was to discover if bacteria were implicated in non-union of fractures of the tibia and femur, which had been treated with intramedullary nailing.

Method: 40 intramedullary nails removed from tibial and femoral fractures were retrieved for the purpose of the study. 20 of these nails were from fractures, which had successfully united and were removed for mainly anterior knee pain or discomfort at screw sites. These nails formed the control group for the project. 20 nails were removed from fractures which had failed to unite prior to further operative intervention such as exchange nailing or the application of an Ilizarov frame. These fractures had no clinical evidence of infection and formed the study group for the project. The nails were subjected to ultrasound in the research laboratory to dislodge adherent bacterial formed as biofilm from the surface of the nail. Using both standard culture techniques and non-culture techniques, any dislodged bacteria were isolated and identified. Non-culture techniques involved the use of specific monoclonal antibody labelled immunofluorescence microscopy. Isolated bacteria were tested for the sensitivities of commonly used antibiotics in orthopaedic practice according to NCCLS guidelines.

Results: We discovered that bacteria were detected in up to 70% of the nails removed from fractures, which had failed to unite, using both standard culture and non-culture techniques. Also, we discovered that bacteria were detected in up to 30% of the nails removed from fractures that had united. The organisms identified were mainly the coagulase negative staphylococcus epidermidis and the gram-positive anaerobe proprionibacterium acnes. The antibiotics gentamicin, erythromycin, cefotaxime and cefomandole performed poorly against the isolated bacteria. Vancomycin, ciproxin and fucidin however performed better.

Conclusion: Bacteria formed as biofilm on intramedullary nails may have a significant role in the development of non-union fractures treated by this method. The bacteria isolated showed worrying resistance to commonly used antibiotics in orthopaedic practice, in particular, those used as prophylaxis.