Total joint arthroplasty (TJA) is one of the most successful procedures in orthopaedics. Despite the excellent clinical and functional results, periprosthetic joint infection (PJI) following TJA is a feared complication. For instance, the reported PJI rate after primary total knee arthroplasty is about 0.5–1.9%. In general, prevention of periprosthetic joint and surgical site infections is of utmost importance. This can be reduced by strict antisepsis, adequate sterilization of the surgical instruments and meticulous surgical technique. An indisputable role in prevention of SSI in TJA has been the use of peri-operative systemic antibiotic prophylaxis. The most common recommended antibiotics for prophylaxis in TJA are cefazolin or cefuroxime. In contrast, routine use of commercial antibiotic-loaded bone cement (ALBC) in primary total joint arthroplasty is still a concern of open debate. The use of antibiotic-loaded bone cement delivers a high concentration of antibiotics locally and can decrease the infection rate, which is supported by several studies in the literature. In this context, we present the pros of routine use of commercial antibiotic-loaded bone cement

Despite the demonstrated success in revision total joint arthroplasties, the utilization of antibiotic-loaded bone cement in primary total joint arthroplasty remains controversial. Multiple studies have demonstrated several risks associated with the routine use of this technique including: allergic reactions, changing the mechanical properties of the cement, emergence of resistant bacterial strains, systemic toxicity, and the added cost. In addition, evidence shows a currently low rate of periprosthetic joint infections in primary total joint arthroplasty (around 1%) and the theoretical benefit of marginally reducing this rate by using antibiotic-cement may not necessarily justify the associated risks and the added cost. Moreover, most of the primary total hip and an increasing number of primary total knee arthroplasties are cementless, which further raises questions about the routine use of antibiotic-loaded bone cement in primary total joint arthroplasty

Introduction. The use of antibiotic-loaded polymethylmethacrylate bone-cement spacers during two-stage exchange procedures is the standard in the treatment of patients with delayed prosthetic joint infection. The real antimicrobial activity of these spacers is unclear because the adherence of bacteria to cement might result in clinical recurrence of infection. The purpose of the study is to evaluate the in vitro formation of Pseudomonas Aeruginosa (PA) and Staphylococcus spp. biofilm on antibiotic-loaded bone cement. Materials and methods. Cement disks (diameter = 6 mm) impregnated with gentamicin and colistin were submerged in bacterial suspensions of Methicillin-resistant Staphylococcus Aureus(MRSA), Staphylococcus epidermidis (SE), and PA. Negative controls (specimen disks without antibiotic) were similarly prepared. Biofilm formation was visualized by confocal scanning laser microscopy (CSLM), after staining the discs with the live/dead BacLight viability stain containing SYTO 9 dye and propidium iodide. Images from five randomly selected areas were acquired for each disc. Sequential optical sections of 2 µm were collected in sequence along the z-axis over the complete thickness of the sample. The resulting stacks of images were analyzed, quantified and rendered into three-dimensional (3D). The biofilm thickness on antibiotic bone cement compared with the controls was automatically evaluated. Results. CSLM showed living bacteria and bacterial biofilm on the surface of all cement disks, either antibiotic-loaded or controls. Mean biofilm thickness on the controls was 29.6 µm for MRSA, 32.3 µm for SE, and 59.7 µm for PA. The 3D rendering showed decrease in the biofilm thickness for all bacterial strains on gentamicin- and colistin-impragnated cement disks as compared with the controls. The incorporation of gentamicin into cement resulted in a 54%, 74%, and 45% reduction in the bacterial biofilm thickness for MRSA, PA and SE, respectively. The use of colistin leaded to a 51 % reduction in the PA biofilm thickness. Conclusion. The bacterial viability and biofilm formation are reduced by adding antibiotics to bone cement but antibiotic-loaded bone cement does not completely inhibit the formation of an infectious biofilm in vitro

Aim. The aim of this investigation was to compare risk of infection in both cemented and cementless hemiarthroplasty (HA) as well as total hip arthroplasty (THA) following femoral neck fracture. Methods. Data collection was performed using the German Arthroplasty Registry (EPRD) In HA and THA following femoral neck fracture fixation method was divided into cemented and cementless protheses and paired according to age, sex, body mass index (BMI), and the Elixhauser score using Mahalanobis distance matching. Results. Overall in 13,612 cases of intracapsular femoral neck fracture, with 9,110 (66.9 %) HAs and 4502 (33.1 %) THAs were analyzed. Infection rate in HA was significantly reduced in cases with use of antibiotic-loaded cement compared to cementless fixated prosthesis (p=0.013). In patients with THA no statistical difference between cemented and cementless prothesis was registered, however after one year 2.4 % of infections were detected in cementless and 2.1 % in cemented THA. In the subpopulation of HA after one year 1.9 % of infections were registered in cemented and 2.8 % in cementless HA. BMI (p=0.001) and Elixhauser-Comorbidity-Score (p<0.003) were identified as risk factors of PJI, while in THA also cemented prosthesis demonstrated within the first 30 days an increased risk (HR=2.728; p=0.010). Conclusion. The rate of infection after intracapsular femoral neck fracture was significantly reduced in patients treated by antibiotic-loaded cemented hemiarthroplasty. In particular for patients with multiple risk factors for the development of a PJI the usage of antibiotic-loaded bone cement seems to be a reasonable procedure for prevention of infection

Objectives. This study is to compare the elution characteristics, antimicrobial activity, and mechanical properties of antibiotic-loaded bone cement (ALBC) loaded with powder antibiotic, powder antibiotic with inert filler (xylitol), or liquid antibiotic, particularly focusing on vancomycin and amphotericin B. Methods. Cement specimens loaded with 2 g of vancomycin or amphotericin B powder (powder group), 2 g of antibiotic powder, and 2 g of xylitol (xylitol group) or 12 ml of antibiotic solution containing 2 g of antibiotic (liquid group) were tested. Results. Vancomycin elution was enhanced by 234% in the liquid group and by 12% in the xylitol group compared with the powder group. Amphotericin B elution was enhanced by 265% in the liquid group and by 65% in the xylitol group compared with the powder group. Based on the disk-diffusion assay, the eluate samples of vancomycin–loaded ALBC of the liquid group exhibited a significantly larger inhibitory zone than samples of the powder or xylitol group. Regarding the amphotericin B–loaded ALBCs, only the eluate samples of the liquid group exhibited a clear inhibitory zone which was not observed in either xylitol nor powder groups. The ultimate compressive strength was significantly reduced in specimens containing liquid antibiotics. Conclusions. Adding vancomycin or amphotericin B antibiotic powder in distilled water before mixing with bone cement can significantly improve the antibiotic-release efficacy than that by loading ALBC with the same dose of antibiotic powder. This simple, and effective method for preparation of ALBCs can significantly improve the antibiotic-release efficacy of ALBCs

The objective of this study was to compare the elution characteristics, antimicrobial activity and mechanical properties of antibiotic-loaded bone cement (ALBC) loaded with powdered antibiotic, powdered antibiotic with inert filler (xylitol), or liquid antibiotic, particularly focusing on vancomycin and amphotericin B. Cement specimens loaded with 2 g of vancomycin or amphotericin B powder (powder group), 2 g of antibiotic powder and 2 g of xylitol (xylitol group) or 12 ml of antibiotic solution containing 2 g of antibiotic (liquid group) were tested. Vancomycin elution was enhanced by 234% in the liquid group and by 12% in the xylitol group compared with the powder group. Amphotericin B elution was enhanced by 265% in the liquid group and by 65% in the xylitol group compared with the powder group. Based on the disk-diffusion assay, the eluate samples of vancomycin-loaded ALBC of the liquid group exhibited a significantly larger inhibitory zone than samples of the powder or the xylitol group. Regarding the ALBCs loaded with amphotericin B, only the eluate samples of the liquid group exhibited a clear inhibitory zone, which was not observed in either the xylitol or the powder groups. The ultimate compressive strength was significantly reduced in specimens containing liquid antibiotics. Adding vancomycin or amphotericin B antibiotic powder in distilled water before mixing with bone cement can significantly improve the efficiency of antibiotic release than can loading ALBC with the same dose of antibiotic powder. This simple and effective method for preparation of ALBCs can significantly improve the efficiency of antibiotic release in ALBCs. We thank H.Y. Hsu for performing the bioassay

Aim

There is an ongoing controversy whether the observed benefit of infection risk reduction by ALBC outweighs the risk of possible antimicrobial resistance development.

Periprosthetic joint infection (PJI) is one of the most feared complications following total knee arthroplasty (TKA). Despite improved peri-operative antibiotic management and local antibiotic-loaded bone cement PJI is reported in about 0.5–1.9 % of primary knee replacement. In case of revision knee arthroplasty the infection rate even occurs at about 8–10 %. Depending on an acute or late PJI several surgical methods are used to treat the infection. However, suffering of a late PJI, the only surgical procedure remains the exchange of the TKA in combination with a radical debridement and removal of all foreign material. In order to achieve complete debridement of the joint, the soft tissue must be radically excised. Frequently, the debridement of the posterior capsule causes severe difficulties, therefore it might be necessary to resect the collateral ligaments to be able to reach the posterior parts of the capsule. But this necessitates the use of a higher level of constraint such as a rotating or total hinge and fully cemented long stemmed revision implants. Furthermore, due to the cemented stems, a sufficient amount of antibiotic-loaded cement may be delivered to the bone as topical therapy. Up to now, several studies have shown excellent functional long-term results for hinge knee prostheses after PJI and a very good infection control rate. Advantages of the hinge knee prosthesis in cases of PJI are the opportunity for a complete debridement especially while addressing the posterior capsule after resection of the collateral ligaments and for delivering antibiotic-loaded bone cement at the stems of the prosthesis for topic therapy. Disadvantages are the need for a higher level of constraint and a possible higher blood loss due to the radical debridement

Despite the prophylactic use of antibiotics and hygienic strategies, surgical site infection following total joint arthroplasty (TJA) is still a severe and unsolved complication. Since antibiotic-loaded bone cement (ALBC) was introduced by Buchholz in the 1970s, the use of ALBC has been increasingly used for the prevention and treatment of periprosthetic infection (PPI). However, the routine use of ALBC during primary TJA remains controversial. Recent clinical studies have found that ALBC is effective in reducing the risk of PJI following primary TJA. Although ALBC having the advantage of reducing the risk of PJI, the main disadvantages are the possible development of toxicity, antibiotic resistance, allergic reaction, and possible reduction of the mechanical properties of bone cement. Nevertheless, a recent published article demonstrated, that the use of high dose dual-antibiotic impregnated cement reduce significantly the rate of surgical site infections compared to standard low dose single ALBC in the setting of a hip fracture treating with hemiarthroplasty. Furthermore, Sanz-Ruiz et al. presented that the use of ALBC in TJA has favorable cost-efficiency profile. In this context, reasons why surgeons should use antibiotic-loaded bone cement during primary TJA are demonstrated

Pelvic discontinuity is defined as a separation of the ilium superiorly from the ischiopubic segment inferiorly. In 2018, the main management options include the following: 1) hemispheric acetabular component with posterior column plating, 2) cup-cage construct, 3) pelvic distraction, and 4) custom triflange construct. A hemispheric acetabular component with posterior column plating is a good option for acute pelvic discontinuities. However, healing potential is dependent on host's biology and characteristic of the discontinuity. The plate should include 3 screws above and 3 screws below the discontinuity with compression in between. In addition, the hemispherical acetabular component should have at least 50% host bone contact with 3–4 screws superior and 2–3 screws inferior to the discontinuity. On the other hand, a cup-cage construct can be used in any pelvic discontinuity. This includes a highly porous acetabular component placed on remaining host bone. Occasionally, highly porous metal augments are used to fill the remaining bone defects. A supplemental cage is placed over the acetabular component, spanning the discontinuity from the ilium to the ischium. A polyethylene liner is then cemented into place with antibiotic-loaded bone cement. Rarely, pelvic distraction may be needed. With this technique, pelvic stability is obtained via distraction of the discontinuity by elastic recoil of the pelvis and by fixing the superior hemipelvis and inferior hemipelvis to a highly porous metal cup or augment with screws, thereby unitizing the superior and inferior aspects of the pelvis. In essence, the cup acts as a segmental replacement of the acetabulum, with healing occurring to the cup or augment, resulting in a unitised hemipelvis. Frequently, the discontinuity itself does not achieve bony healing. Finally, custom triflange constructs are being utilised with increasing frequency. Triflange cups are custom-designed, porous and/or hydroxyapatite coated, titanium acetabular components with iliac, ischial, and pubic flanges. Rigid fixation promotes healing of the discontinuity and biologic fixation of the implant. It requires a CT scan, dedicated preoperative design, and fabrication costs

Background. The aim of the study was to analyze effectiveness and safety of packing the medullary canal of the tibia and femur with Herafill (Heraeus Medical GmbH, Wehrheim, Germany), a void filler and antibiotic carrier, during second stage revision total knee arthroplasty(TKA) for periprosthetic joint infection (PJI). We used hybrid cementation technique for the fixation of TKA components with antibiotic-loaded bone cement for femoral and tibial component and cementless stem extensions. Methods. Two groups of 27 consecutive patients each were matched for gender and age. The study group received Herafill, while the control group did not. Otherwise, the treatment protocol remained the same for both groups. The average follow-up was 48 months (minimum of 34 months). Results. No reinfections were observed in the study group, while three were seen in the control group. No other differenceswere observed between the study and control groups, including clinical Knee Society Score (59.4 and 58.6 points, respectively) and functional Knee Society Score(63.5 and 60.6 points respectively). No side effects related to the use of Herafill beads were noted. Radiologically, all of the beads incorporated into the host bone. Conclusions. Herafill packed into the tibial and femoral intramedullary canal during second stage of septic revision TKA seems to be a reliable bone substitute. It may reduce the infection recurrence rate. IT incorporates well into the host bone. Despite technical and surgical advances in the field of revision TKA, patients suffering from PJI should not expect good and very good results after second stage revision TKA

Aim. The treatment of chronic orthopedic device-related infection (ODRI) often requires multiple surgeries and prolonged antibiotic therapy. In a two-stage exchange procedure, the treatment protocol includes device removal and placement of an antibiotic-loaded bone cement spacer to achieve high local antibiotic concentrations. At the second stage, further surgery is required to remove the spacer and replace it with the definitive device. We have recently developed a thermo-responsive hyaluronan hydrogel (THH) that may be loaded with antibiotics and used as delivery system. Since the material is bio-resorbable, it does not require surgical removal and may therefore be suitable for use as treatment strategy in a single-stage exchange. This aim of this study was to evaluate gentamicin sulphate (Genta)-loaded THH (THH-Genta) for treating a chronic Staphylococcus aureus ODRI in sheep using a single-stage procedure. Methods. Twelve Swiss-alpine sheep received an IM tibia nail and an inoculation of a gentamicin-sensitive clinical strain of Staphylococcus aureus. After letting a chronic infection develop for 8 weeks, a revision procedure was performed: the implant was removed, the IM canal debrided and biopsies were taken for culture. The IM canal was then filled with 25ml THH-Genta (1% Genta) or left empty (control group) prior to the implantation of a sterile nail. An ultrafiltration probe was placed within the IM cavity to collect extracellular fluid and determine local antibiotic levels for 10 days. Both groups received systemic amoxicillin and clavulanic acid for 2 weeks, followed by 2 weeks without treatment for antibiotic washout. At euthanasia, IM nail, bone marrow, bone and tissue samples were harvested for quantitative bacteriology. Results. All sheep were infected at revision surgery as confirmed by cultures of biopsies and sonication of the IM nail. Local Genta concentrations ranged on average from 830µg/ml postoperatively to below 5µg/ml after 8 days. At euthanasia, S. aureus was detected in 5/5 IM nails, 5/5 bone marrow samples, and 8/25 superficial soft tissue samples in the control group (one control sheep was excluded for having a superinfection). In the THH-Genta group, S. aureus was cultured from 0/6 IM nails, 1/6 bone marrow samples, and 1/30 superficial soft tissue samples. Conclusions. The THH showed a Genta release pattern that started with high local concentrations and decreased to low concentrations within 10 days. Local Genta delivery by THH combined with systemic antibiotics significantly reduced infection rates whereas systemic therapy alone was unable to eradicate infection in any animal

Antibiotic-loaded bone cements are used to decrease occurrence of bone infections in cemented arthroplasties and actually being considered as a more cost-effective procedure when compared to cementless implants [1]. However, considering the challenge of treating device-associated infections there is a reduced number of formulations in the market. Response from the industry to medical need is still slow considering the rapid change in the infecting microbial profile and the emergence of multiresistant strains [2]. In this context, the aim of the work is to evaluate the role of lactose (L), as a porogen, on the antibiotic release from bone cement (BC). Levofloxacin (Lev) and minocycline (M) were the selected antibiotics to be individually loaded into BC due to their low cost and potential application in bone infections [3,4]. Two types of matrices were prepared: 1) Loaded with 2.5% of antibiotics (controls) and 2) Loaded with 10% lactose and 2.5% antibiotic. In vitro drug release and microbiological tests against representative strains causative of bone infections were assessed. Lactose significantly increased the release of both antibiotics. Complete minocycline release after one-week was observed (Fig.1A). Also, lactose increased 3.5-fold the levofloxacin released from BC (Fig.1B). Furthermore, microbiological studies showed that no interaction was observed between lactose and antibiotic as no decrease in drugs antimicrobial activity was observed (Table 1). Considering the results, L-BC matrix appears to be a valuable alternative to available formulations. Future work will include testing other antibiotics as well as mixtures of drugs. Fundação para a Ciência e Tecnologia (Portuguese government) for financial support: EXCL/CTM-NAN/0166/2012 and strategic project PEst-OE/SAU/UI4013/2011

This study aimed to determine the optimal formulation of antibiotic-loaded bone cement (ALBC) for periprosthetic joint infection (PJI) using both in vitro and in vivo models incorporating various combinations of gram-positive and gram-negative antibiotics. The in vitro antibiotic release characteristics and antibacterial capacities of ALBCs loaded with either 4 g of vancomycin or teicoplanin and 4 g of ceftazidime, imipenem, or aztreonam were measured against methicillin-susceptible S. aureus, methicillin-resistant S. aureus, coagulase-negative staphylococci, Pseudomonas aeruginosa and Escherichia coli. ALBC spacers with superior in vitro antibacterial capacity were then implanted into ten patients (five females and five males between 29 and 75 years of age) diagnosed with chronic hip/knee PJIs and antibacterial activities within joint fluid were measured. The average duration of ALBC spacer implantation was 80 days (range, 36–155 days). Antibiotic concentrations and antibacterial activities of joint fluid at the site of infection were measured during the initial period as well as several months following spacer implantation. Cement samples loaded with vancomycin/ceftazidime or teicoplanin/ceftazidime exhibited equal or longer antibacterial duration against test bacteria as compared with other ALBCs. Joint fluid samples exhibited antibacterial activity against the test microorganisms including ATCC strains and clinically isolated strains. There were no adverse systemic effects, infection at second stage re-implantation, or recurrent infection at final follow-up. Vancomycin/ceftazidime ALBC provided broad antibacterial capacity both in vitro and in vivo and was shown to be an effective and safe therapeutic measure in the treatment of hip/knee PJIs. We thank H.Y. Hsu for performing bioassay

The removal of cement debris at the time of primary and revision joint replacement has been facilitated through the introduction of coloured bone cements. Up to date, few studies have evaluated the effect of methilene blue dye on physical, mechanical and pharmacological properties of cements. In this light, we evaluated the effects of adding methylene blue to bone cement with or without antibiotics (gentamicin, vancomycin or both). The addition of methylene blue to plain cement significantly decreased its mean compression (95.4±3 MPa vs 100.1±6 MPa, p = 0.03) and bending (65.2±5 MPa vs 76.6±4 MPa, p < 0.001) strengths, mean setting time (570±4 seconds vs 775±11 seconds, p = 0.01), as well as its mean elastic modulus (2744±97 MPa vs 3281±110 MPa, p < 0.001). Bending resistance decreases after the supplementation of the coloured cement with vancomycin and gentamicin (55.7±4 MPa vs 65.2±5 MPa, p < 0.001). The release of antibiotics from the bone cement was significantly decreased by the methylene blue. Indeed, the release of gentamicin alone was 385.5±26 μg in comparison to 228.2±24 μg when the methylene blue was added (p < 0.001), while the release of gentamicin in combination with vancomycin was 613±25 μg vs 498.5±70 μg (p = 0.018) when the dye was added to the same formulation. With this study we demonstrated several theoretical disadvantages of the antibiotic-loaded bone cement coloured with methylene blue, although caution should be exercised in transferring our findings to the clinical context. Based on our findings, we do not recommend methylene blue supplementation of PMMA for routine clinical use

Introduction:. Deep infection after total joint arthroplasty is a devastating complication with reported incidence of 1–3% with projection to increase to 6.8% by 2030. The direct costs of revision surgery due to septic failure are estimated at over $55,000 per case. Antibiotic-Loaded Bone Cement (ALBC) has been proposed as a preventive measure to decrease post-operative infection rates. Its efficacy has been compared with plain bone cement (PBC) in multiple studies. There has been no study to our knowledge examining its efficacy in “high risk” patients. The purpose of this study is to compare infection rates in three cohorts of patients: (1) all patients receiving only PBC, (2) all patients receiving only ALBC, and (3) only “high risk” patients receiving ALBC. Methods:. A standard cement protocol was instituted at our hospital for primary total knee arthroplasties (pTKA). From January 2000 to 2005 all pTKAs were performed with PBC. From February 2005 to May 2010, all pTKAs were performed with ALBC. From June 2010 to March 2012, all patients received regular bone cement unless they had previous diagnoses of rheumatoid arthritis, obesity, and/or diabetes mellitus. Our institutional joint registry was queried and the three cohorts' individual charts were retrospectively reviewed. Infection rates amongst cohorts were compared at 30 days, 6 months, and 1 year from index surgery date utilizing two sided proportion tests. Results:. A total of 3,292 consecutive primary TKAs with full follow up were included. Overall infection rate at one year for the entire study was 0.76%. There were 1,025 patients who received PBC, 1486 ALBC, and 781 in the risk stratified cohort. The 30-day infection rates for cohorts 1, 2, 3 were .0.29%, 0.20%, and 0.13% respectively. The 6-month infection rates for cohorts 1, 2, 3 were 0.39%, 0.54% and 0.38% respectively. The 1-year infection rate for cohorts 1, 2, 3 were 0.78%, 0.61%, and 0.64% respectively. The differences in infection rates between each cohort at all three time intervals were not statistically significant. Conclusions:. Antibiotic loaded bone cement does not significantly decrease infection rates for primary total knee arthroplasty. Even risk stratified usage of ALBC for “high risk” patients may be unnecessary and add undue costs to both the patient and hospital, without any appreciable benefit

Background:. Periprosthetic joint infection (PJI) is one of the most devastating complications in patients undergoing total knee arthroplasty (TKA). Although controversy exists about the necessity of the prophylactic use of antibiotics in clean operations, the routine use of antibiotic-loaded bone cement (ALBC) has been the clinical procedure against PJI for many decades. Additionally, the combination of antibiotics has been used to broaden the antimicrobial spectrum and to enhance antimicrobial activity in a revision setting with a potentially resistant organism. Even in primary TKA, the prophylactic combination of antibiotics used as therapy should be considered on patients with a higher susceptibility to bacterial infection based on their clinical histories of PJI, rather than the lower risk population. The purpose of this study is to investigate whether the synergistic combination of antibiotics in bone cement in high risk patients can reduce PJI. Methods:. A total of 3015 knees of 1918 patients were screened for inclusion in this study based on their risk factor, and those categorized as systematically or locally high risk patients were included. Patients that were classified as “systemically high risk” received an American Society of Anesthesiologists (ASA) classification of 3 or higher and a Charlson Comorbidity Index (CCI) classification of 2 or higher (n = 212 knees, 70.7% of 300 total). Patients that were classified as “locally high risk” had a history of inflammatory arthritis, poor skin conditions, and/or recent septic knee arthritis (n = 76 knees, 25.3%). Patients with both systemically and locally high risk included 12 knees (4.0%). The 300 knees included in this study were separated into three groups based on the combination of antibiotics administered. In group 1(208 knees), gentamycin–impregnated cement was used and in group 2(48 knees) hand-mixed vancomycin with pre-mixed gentamycin cement for intraoperative management was used. In group 3 revision bone cement containing a combination of two antibiotics (gentamycin and clindamycin) was used (44 knees). The mean age was 70.9 years. The number of men and women were 31(10.3%) and 269(89.7%), respectively. The average body mass index (BMI) was 26.7 kg/m. 2. The incidence of PJI was investigated. Results:. The systemically high risk, locally high risk, and both cases in group 1 numbered 173 knees (83.2%), 31 knees (14.9%), and 4 knees (1.9%), respectively. In group 2 they numbered 26 knees (54.2%), 18 knees (37.5%), and 4 knees (8.3%), respectively. In group 3, they numbered 13 knees (29.5%), 27 knees (61.4%), and 4 knees (9.1%), respectively. There were no cases of infection in groups 2 or 3 but an infection occurred in one knee (0.3%) in group 1. There were no differences in age, gender, or BMI among groups (p > 0.05). Conclusion:. We conclude that the use of any ALBC did not seem to affect the incidence of infection following primary TKA. While combination antibiotics have been used by surgeons who may be concerned about PJI after TKA in high risk patients, our results did not indicate a significant difference, and as a result using antibiotics in bone cement to reduce PJI may be just myth

Objective

A clinical investigation into a new bone void filler is giving first data on systemic and local exposure to the anti-infective substance after implantation.