Abstract

Objectives: The incidence of fractured neck of femur (FNOF) is increasing yearly. Many of these patients undergo hip hemiarthroplasty. High dose dual-antibiotic cement (HDDAC) has been shown to reduce rates of deep surgical site infection (SSI) when compared to the current standard low dose single-antibiotic cement (LDSAC) in a quasi-randomised controlled trial. Some concerns exist regarding the use of HDDAC and the development of antibiotic resistance. We reviewed cases of infection in LDSAC and HDDAC bone cement with regard to causative organism and resistance profile.Methods: A retrospective analysis was undertaken of all hemiarthroplasties within our trust from April 2008 to December 2014. We identified all patients in this time period who acquired a deep SSI. The infecting organisms and susceptibility patterns were collated for each cement.Results: We identified 1941 hemiarthroplasties. There were 38 deep surgical site infections representing an infection rate of 3.4% in LDSAC patients and 1.2% in HDDAC patients. The majority of infections were polymicrobial. Staphylococcus epidermidis was the most commonly isolated organism. It accounted for a larger proportion of HDDAC than LDSAC infections (p<0.05). Infection with Corynebacterium species and S. aureus, including MRSA, was eradicated completely with the use of HDDAC. There was no significant change in the proportion of Gram negative and Gram positive infections between the two cements. In Gram positive organisms, there was no significant change in resistance to most antibiotics. Although fewer resistant infections overall, there were significant increases in the proportion of resistance to ciprofloxacin and clindamycin with HDDAC. We observed no resistance to daptomycin or linezolid in either cement and levels of resistance remained low to rifampicin and teicoplanin. In Gram negative organisms, no significant change in resistance was observed.Conclusions: We observed a significantly lower infection rate with the use of HDDAC compared to LDSAC. Such was this reduced infection rate that there was a trend to a lower rate of resistance with the use of HDDAC. However, there were increases in the proportion of resistant cases, most notably to clindamycin and ciprofloxacin in Gram positive organisms, possibly reflecting the higher number of S. epidermidis in the HDDAC group. Whilst the differences in our study were not found to be statistically significant, it is reassuring for teams using HDDAC to prevent SSI in hip hemiarthroplasty.

Highlights

  • The incidence of fractured neck of femur (FNOF) is increasing

  • A quasi-randomised controlled trial conducted by Sprowson et al recently demonstrated that high dose dual-antibiotic cement (HDDAC) (Copal G+C, Heraeus Medical, UK) reduces rates of deep Surgical site infection (SSI) when compared to the standard low dose single-antibiotic cement (LDSAC) (Palacos R+G, Heraeus Medical, UK).[6]

  • We identified 1941 hemiarthroplasties. 681 of these patients received LDSAC and 1260 received HDDAC

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Summary

Introduction

It is estimated that worldwide there will be approximately 2.6 million cases by 2025; more than double the number in 1990.1 According to the National Hip Fracture Database there were 65,000 cases of FNOF in 2015 and 83.6% of these patients underwent cemented hip arthroplasty[2]. This subset of patients has high rates of peri-operative complications.[3] Surgical site infection (SSI) is one of the most devastating complications and is associated with increased length of stay and increased mortality.[4] Infection rates between 1.3% and 7% have been reported for hemiarthroplasty, with the UK rate of 4.06%.5. Concerns have been raised regarding antibiotic resistance with the use of antibiotic-loaded bone cement.[9,10] We reviewed the causative organisms and resistance profiles of all cases of infection in a large series of hemiarthroplasties where either LDSAC or HDDAC was used

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