Aims. The diagnosis of periprosthetic joint infection (PJI) continues to present a significant clinical challenge. New biomarkers have been proposed to support clinical decision-making; among them, synovial fluid alpha-defensin has gained interest. Current research methodology suggests reference methods are needed to establish solid evidence for use of the test. This prospective study aims to evaluate the diagnostic accuracy of high-performance liquid chromatography coupled with the mass spectrometry (LC-MS) method to detect alpha-defensin in synovial fluid. Methods. Between October 2017 and September 2019, we collected synovial fluid samples from patients scheduled to undergo revision surgery for painful total knee arthroplasty (TKA). The International Consensus Meeting criteria were used to classify 33 PJIs and 92 aseptic joints. LC-MS assay was performed to measure alpha-defensin in synovial fluid of all included patients. Sensitivity, specificity, positive predictive value, negative predictive value, and the area under the receiver operating characteristic curve (AUC) were calculated to define the test diagnostic accuracy. Results. The AUC was 0.99 (95% confidence interval (CI) 0.98 to 1.00). Receiver operating characteristic (ROC) analysis showed that the optimal cut-off value of synovial fluid alpha-defensin was 1.0 μg/l. The sensitivity of alpha-defensin was 100% (95% CI 96 to 100), the specificity was 97% (95% CI 90 to 98), the positive predictive value was 89.2% (95% CI 82 to 94), and negative predictive value was 100% (95% CI 96 to 100). ROC analysis demonstrated an AUC of 0.99 (95% CI 0.98 to 1.0). Conclusion. The present study confirms the utility of alpha-defensin in the synovial fluid in patients with painful TKA to select cases of PJI. Since LC-MS is still a time-consuming technology and is available in highly specialized laboratories, further translational research studies are needed to take this evidence into routine procedures and promote a new diagnostic approach. Cite this article: Bone Joint J 2022;104-B(9):1047–1051

Introduction. Topical diclofenac has proven efficacy and safety in the management of osteoarthritic pain. Its therapeutic efficacy is dependent on its ability to deliver pharmacodynamically active concentrations to the underlying tissues in the affected joint. However, the disposition of topical diclofenac is not fully characterized, and no studies have been performed using diclofenac diethylamine 2.32% gel. Methods. This study investigated the penetration of topical diclofenac into knee synovial tissue and fluid and evaluated relative exposure in the knee versus plasma. In this phase 1, double-blind, placebo-controlled steady-state multicenter pharmacokinetic study, patients scheduled for arthroplasty to treat knee OA were randomly assigned 2:1 to 4 g diclofenac/placebo gel, applied to the affected knee every 12 hours for 7 days pre-surgery. Diclofenac concentrations were measured in synovial tissue, fluid, and plasma ≥12 hours after last application. Adverse events (AEs) were evaluated. Diclofenac concentrations were assayed by validated high-performance liquid chromatography and tandem mass spectrometry. Results. Samples were obtained from 45 (diclofenac n=29; placebo n=16) of 47 patients enrolled. Mean (SD) age was 71.2 (7.9) years with 52.2% women and mean (SD) BMI 30.7 (4.8) kg/m. 2. All diclofenac-treated participants had measurable diclofenac concentrations in synovial tissue (mean [95% CI]) 1.57 [1.12, 2.20] ng/g) and fluid 2.27 [1.87, 2.76] ng/mL ≥12 hours after the last dose. The mean (95% CI) ratio of diclofenac in synovial tissue:plasma was 0.32 (0.23, 0.45) and in synovial fluid:plasma was 0.46 (0.34, 0.54). AEs were similar for diclofenac (55.2%) and placebo (58.8%); none were treatment related. No correlation (r=−0.003) between BMI and synovial fluid concentration, and weak positive correlation (r=0.315) between BMI and synovial tissue concentration were observed. Conclusions. Topical diclofenac diethylamine 2.32% gel penetrated the knee and remained detectable at the end of the final 12-hour dosing cycle. BMI had no impact on diclofenac's penetration into the knee

Introduction. Intraosseous administration of low dose vancomycin has been proven to produce 6 to 20 times higher tissue concentrations compared to intravenous administration in both primary and revision knee replacement. However, these superior levels are achieved when the antibiotic given intraosseously is administered distal to a tourniquet that is inflated for the majority of the case. With increasing interest in limited, or no, tourniquet use during TKA we sought to study the tissue concentrations achieved with limited tourniquet use and intraosseously administered vancomycin compared to weight-based, time optimized intravenous administration. Methods. Twenty-four patients undergoing primary TKA were randomized to two groups. The Intravenous (IV) Group received weight based (15mg/kg) vancomycin timed to finish before incision. The Intraosseous (IO) Group received 500 mg of vancomycin injected as a bolus through a needle into the proximal tibia distal to an inflated tourniquet prior to skin incision. In the IO group, the tourniquet was deflated 10 minutes following the injection and re-inflated only for cementation. In the IV group, the tourniquet was only inflated for cementation. During the procedure, fat and bone samples were taken at regular intervals. Tissue antibiotic concentrations were measured using a validated technique involving high performance liquid chromatography. Results. Mean tissue concentrations of vancomycin in fat and bone samples from all time points were 3–10 times greater in the IO group (all results, p<0.01). At closure, mean vancomycin levels in fat were 6.0ug/g in the IV group vs 40.5ug/g in the IO group (p<0.001). Final bone levels were 8.3ug/g in the IV group vs 26.9ug/g in the IO group (p=0.009). Conclusion. In total knee replacement, IO administration of prophylactic vancomycin achieves significantly higher tissue concentrations versus IV administration given under ideal conditions despite limited tourniquet use. For figures, tables, or references, please contact authors directly

Infection remains as one of the major challenges of total joint surgery. One-stage irrigation, debridement and reimplantation or two-stage revision surgery with a temporary implantation of antibiotic eluting bone cement spacer followed by reimplantation are two methods often used to treat infected patients with mixed outcomes. Like bone cement, ultra-high molecular weight polyethylene (UHMWPE) can also be used as a carrier for antibiotics. Recently, we demonstrated that vancomycin and rifampin can be successfully delivered from UHMWPE implants at therapeutic levels to eradicate Staphylococcus aureus biofilm in a lupine animal model. There are regulatory challenges in translating these types of combination devices in to clinical use. One approach is to follow a stepwise strategy, with the first step of seeking clearance for a temporary UHMWPE spacer containing gentamicin sulfate. In this study, we explored the effect of gentamicin sulfate (GS) content in UHMWPE on GS elution rate and antimicrobial activity against methicillin-sensitive S. aureus(MSSA). We also assessed the effect of spacer fabrication on the activity of gentamicin sulfate. We prepared and consolidated UHMWPE/GS blends in varying concentrations. After consolidation, we fabricated test samples with surface area (350mm2) to volume (300mm3) ratio of 1.2 for elution in 1.5ml phosphate buffered saline at body temperature for up to six months and quantified eluted GS content using liquid chromatography – mass spectrometry (LCMS). We assessed the antibacterial activity of the obtained samples in vitro against various concentrations of MSSA (103–106 CFU/ml). Furthermore, we quantified the probability of bacterial colonization of UHMWPE impregnated with GS compared to GS containing bone cement. We assessed any detectable changes in activity of eluted GS caused by spacer fabrication by screening m/z peaks of GS isomers in mass spectra obtained from LC-MS. Gentamicin sulfate activity was not compromised by the elevated temperature and pressure used during spacer fabrication. Elution rate of GS increased with increasing GS content in the blends studied. At comparable elution rates, the GS-loaded UHMWPE was either equivalent or better in terms of antibacterial and anticolonization properties when compared with gentamicin containing bone cement. GS-impregnated UHMWPE is a promising material for temporary spacers

Intra-operative, peri-articular injection of local anaesthesia is an increasingly popular way of controlling pain following total knee replacement. At the same time, the problems associated with allogenic blood transfusion have led to interest in alternative methods for managing blood loss after total knee replacement, including the use of auto-transfusion of fluid from the patient’s surgical drain. It is safe to combine peri-articular infiltration with auto-transfusion from the drain. We performed a randomised clinical trial to compare the concentration of local anaesthetic in the blood and in the fluid collected in the knee drain in patients having either a peri-articular injection or a femoral nerve block. Clinically relevant concentrations of local anaesthetic were found in the fluid from the drains of patients having peri-articular injections (4.92 μg/ml (sd 3.151)). However, none of the patients having femoral nerve blockade had detectable levels. None of the patients in either group had clinically relevant concentrations of local anaesthetic in their blood after re-transfusion.

The evidence from this study suggests that it is safe to use peri-articular injection in combination with auto-transfusion of blood from peri-articular drains during knee replacement surgery.