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Bone & Joint Research
Vol. 8, Issue 2 | Pages 65 - 72
1 Feb 2019
Cowie RM Aiken SS Cooper JJ Jennings LM

Objectives. Bone void fillers are increasingly being used for dead space management in arthroplasty revision surgery. The aim of this study was to investigate the influence of calcium sulphate bone void filler (CS-BVF) on the damage and wear of total knee arthroplasty using experimental wear simulation. Methods. A total of 18 fixed-bearing U2 total knee arthroplasty system implants (United Orthopedic Corp., Hsinchu, Taiwan) were used. Implants challenged with CS-BVF were compared with new implants (negative controls) and those intentionally scratched with a diamond stylus (positive controls) representative of severe surface damage (n = 6 for each experimental group). Three million cycles (MC) of experimental simulation were carried out to simulate a walking gait cycle. Wear of the ultra-high-molecular-weight polyethylene (UHMWPE) tibial inserts was measured gravimetrically, and damage to articulating surfaces was assessed using profilometry. Results. There was no significant difference (p  >  0.05) between the wear rate of implants challenged with CS-BVF (3.3 mm. 3. /MC (95% confidence interval (CI) 1.8 to 4.8)) and the wear rate of those not challenged (2.8 mm. 3. /MC (95% CI 1.3 to 4.3)). However, scratching the cobalt-chrome (CoCr) significantly (p < 0.001) increased the wear rate (20.6 mm. 3. /MC (95% CI 15.5 to 25.7)). The mean surface roughness of implants challenged with CS-BVF was equivalent to negative controls both after damage simulation (p = 0.98) and at the conclusion of the study (p = 0.28). Conclusion. When used close to articulating surfaces, a low-hardness, high-purity CS-BVF had no influence on wear. When trapped between the articulating surfaces of a total knee arthroplasty, CS-BVF did not scratch the surface of CoCr femoral components, nor did it increase the wear of UHMWPE tibial inserts compared with undamaged negative controls. Cite this article: R. M. Cowie, S. S. Aiken, J. J. Cooper, L. M. Jennings. The influence of a calcium sulphate bone void filler on the third-body damage and polyethylene wear of total knee arthroplasty. Bone Joint Res 2019;8:65–72. DOI: 10.1302/2046-3758.82.BJR-2018-0146.R1


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 332 - 332
1 May 2009
Boes L Boesebeck H Ulrich SD Mont M Seyler TM
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Introduction: A number of surgical techniques have been described for the operative treatment of late stage osteochondritis dissecans (OCD) in the knee and ankle that have failed nonoperative management. However, no particular technique has been universally successful. We report the results of a new technique using retrograde drilling combined with the use of a novel collagen based bone void filler to prevent mechanical failure of the joint surface. The purpose of this study was to evaluate the results of this new technique and analyze the efficacy of both collagen Type-1 based osteoinductive bone void fillers Colloss and Colloss E with and without additional bone grafting. Methods: The osteoinductive bone void fillers Colloss (bovine) and Colloss E (equine) are bone inducing collagenous sponges. The osteoinductive properties are due to the interactive release of BMP-2, BMP-7, IGF-1 and TGF-beta from the implant and the surrounding host tissue by osteoclastic and osteoblastic action. All surgeries performed in the present series included retrograde drilling procedures for OCD in the talar dome and the femoral condyles. Between 2000 and 2006 eight patients were treated by retrograde drilling or trephine drilling under arthroscopic and fluoroscopic control preventing injury to the cartilage surface. The subchondral cavity was filled with a mixture of 20–40 mg bone void filler and morsellized bone graft. The bone void filler is tamped through the drill guide and into position with a Steinmann pin. Thus, only the subchondral defect was filled but the peripheral area of the drill hole remained empty. Evaluation was achieved by clinical assessment, radiographic, and magnetic resonance imaging examination. The follow-up averaged 24 months up to 48 months. Results: In all cases, osseous density increased in the Colloss filled subchondral area and mechanical impression of the joint surface could be prevented. Interestingly, clinical examination and follow-up MRI exams demonstrated moderate swelling and joint effusion in 5 of 8 cases for a period of 4 to 10 weeks postoperatively. This may be in part due to the augmentation technique. Nevertheless, good clinical (range of motion, pain) and radiographic results (bony healing) were obtained after this new treatment modality. Discussion: The subchondral application of Colloss in OCD bone cysts or osteonecrosis induced solid osseous formation at the implantation site. The results of persisting joint reaction such as swelling, pain, and prolonged bone edema in MRI scans may be due to mechanical bearing indicating that augmentation of the defect has to be improved to ensure a solid bony reconstruction. Major advantages of this technique include the ease of performing this procedure, the one-step nature of the procedure, and the ability to avoid violation of stable articular cartilage. In addition, this technique may be repeated according to the size of the lesion


The Bone & Joint Journal
Vol. 98-B, Issue 8 | Pages 1126 - 1131
1 Aug 2016
Shiels SM Cobb RR Bedigrew KM Ritter G Kirk JF Kimbler A Finger Baker I Wenke JC

Aims. Demineralised bone matrix (DBM) is rarely used for the local delivery of prophylactic antibiotics. Our aim, in this study, was to show that a graft with a bioactive glass and DBM combination, which is currently available for clinical use, can be loaded with tobramycin and release levels of antibiotic greater than the minimum inhibitory concentration for Staphylococcus aureus without interfering with the bone healing properties of the graft, thus protecting the graft and surrounding tissues from infection. Materials and Methods. Antibiotic was loaded into a graft and subsequently evaluated for drug elution kinetics and the inhibition of bacterial growth. A rat femoral condylar plug model was used to determine the effect of the graft, loaded with antibiotic, on bone healing. Results. We found that tobramycin loaded into a graft composed of bioglass and DBM eluted antibiotic above the minimum inhibitory concentration for three days in vitro. It was also found that the antibiotic loaded into the graft produced no adverse effects on the bone healing properties of the DBM at a lower level of antibiotic. Conclusion. This antibiotic-loaded bone void filler may represent a promising option for the delivery of local antibiotics in orthopaedic surgery. Cite this article: Bone Joint J 2016;98-B:1126–31


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_II | Pages 120 - 120
1 Feb 2003
Hoiness P Andreassen G Skramm I Engebretsen L Granlund O
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Screw stripping in osteoporotic bone and bone of otherwise poor quality represents a common problem. Treatment alternatives, such as using a larger diameter screw or a longer plate, may add time, increase morbidity, be impractical, or simply be ineffective. Alternatively, the stripped screw can be augmented with a bone cement. A new injectable synthetic cortical bone void filler (Cor-toSSTM) is based on a resin system, resulting in a very strong, radiopaque, extensively crosslinked, biocompatible composite that does not resorb. We tested the safety and efficacy of the new bone cement in augmenting stripped screws until bone healing. Of a total of 143 screws implanted in 24 patients with ankle fractures (average age 66. 8 years), 61 became stripped and were augmented. The primary efficacy endpoint was successful intraoperative screw augmentation. The secondary endpoint was whether screw fixation, determined radiologically, remained effective during the 3-month follow-up required for the fracture to heal. All the stripped screws were successfully augmented. During follow-up at 24 hours, 7 days, and 1 month, none showed any movement relative to either the plate or the bone. At 3 months, one augmented screw in a patient with severe osteoporosis showed gross movement above the plate, which did not affect healing. Serial radiographic analysis did not show the development of any lucencies or cracks in the cement. All fractures healed within 3 months following surgery. Screw augmentation allowed successful reduction and fixation of the fractures. No adverse events directly attributable to the device were observed. The new bone void filler represents a safe, simple, and reliable method by which to achieve stable internal fixation constructs in patients in whom bone screws fail to gain purchase due to poor bone quality or overtightening


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_15 | Pages 52 - 52
1 Dec 2015
Sinclair K Ferrell Z Grainger D
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A resorbable, antibiotic-eluting bone void filler (AEBVF) was developed to address device-related infections. The AEBVF provides two functions: osteoconductive matrix for bone restoration, and local antibiotic delivery to treat device-related infections. In vitro evaluations of this AEBVF demonstrated antimicrobial activity to 7 weeks against Staphylococcus aureus (S. aureus).1 Subsequent rabbit studies demonstrated bactericidal capacity2 of the AEBVF against 105 CFU S. aureus and osteoconductivity.1 We hypothesized that the AEBVF would restore bone volume while eliminating 105 CFU S. aureus in a pilot sheep femoral condyle defect model. Four groups (n=2/group) were utilized to assess osteoconductivity (Group A-commercial ProOsteon & B-AEBVF) and antimicrobial activity (Group C-ProOsteon with 105 CFU S. aureus & D-AEBVF with 105 CFU S. aureus). AEBVF devices comprised degradable polymers (PCL, PEG, PLGA), ProOsteon (Biomet, USA), CaCl2, and tobramycin.3 Devices (1.5cc ProOsteon or 6 AEBVF croutons) were implanted into rectangular defects in the medial face of each sheep femoral condyle. Defects were evaluated using backscatter electron microscopy, mineral apposition rate (MAR) analysis, and light microscopy with Sanderson's Rapid Bone Stain (SRBS). All animals in Groups A, B, and D survived to the 12-week endpoint. In contrast, Group C animals were euthanized 11 days post-op. MAR and SRBS demonstrated comparable bone remodeling and defect restoration after 12 weeks in Groups A, B, and D. Notably, implant volumes of Groups A and D were greatly diminished (0.16±0.1%; 0.35%) after 12 weeks, compared to Group A (13.23±3.2%) and Time “0” (16.8%). These data show the AEBVF device's ability to: eliminate 105 CFU S. aureus, promote bone remodeling comparable to known bone void filler, and degrade at rates that do not interfere with bone remodeling


Orthopaedic Proceedings
Vol. 84-B, Issue SUPP_I | Pages - 74
1 Mar 2002
Blaha D
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Calcium sulphate is now a proven adjunct to the replenishment of bone stock in joint replacement surgery. Alone and as a composite, it has been used successfully for many years in both dental and orthopaedic applications. OsteoSet (Wright Medical Technology), a processed, purified material, has been used as a bone void filler in 51 revision total hip arthroplasty (THA) procedures. Follow-up of these cases ranges from 3 to 48 months. Radiographs show that the calcium sulphate has disappeared in all cases. In all but three patients, all of whom had failure of the acetabular component or infection, the calcium sulphate has been replaced with what appears to be trabeculated cancellous bone. Clinical results for cases that did not have mechanical failure or infection are indistinguishable from any revision THA in which the acetabular component is well fixed. Implantation of the calcium sulphate pellets calls for preparation of a well vascularised bed. The pellets are placed in such a way that load is not transferred to them from the implanted acetabular component. Rather, the load should be transferred from the acetabular component directly to host bone. Postoperatively, load bearing is limited for at least eight weeks and for longer of the quality of the supporting bone is poor


Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_5 | Pages 51 - 51
1 Apr 2022
To C Robertson A Guryel E
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Introduction

Cerament, a bioresorbable hydroxyapatite and calcium sulfate cement, is known to be used as a bone-graft substitute in traumatic bone defect cases. However, its use in open fractures has not previously been studied.

Materials and Methods

Retrospective, single-centre review of cases between November 2016 and February 2021. Open fractures were categorised according to the Orthopaedic Trauma Society classification (OTS). Cases were assessed for union, time to union, and associated post-operative complications.


The Bone & Joint Journal
Vol. 97-B, Issue 6 | Pages 836 - 841
1 Jun 2015
Jónsson BY Mjöberg B

A total of 20 patients with a depressed fracture of the lateral tibial plateau (Schatzker II or III) who would undergo open reduction and internal fixation were randomised to have the metaphyseal void in the bone filled with either porous titanium granules or autograft bone. Radiographs were undertaken within one week, after six weeks, three months, six months, and after 12 months.

The primary outcome measure was recurrent depression of the joint surface: a secondary outcome was the duration of surgery.

The risk of recurrent depression of the joint surface was lower (p < 0.001) and the operating time less (p < 0.002) when titanium granules were used.

The indication is that it is therefore beneficial to use porous titanium granules than autograft bone to fill the void created by reducing a depressed fracture of the lateral tibial plateau. There is no donor site morbidity, the operating time is shorter and the risk of recurrent depression of the articular surface is less.

Cite this article: Bone Joint J 2015; 97-B:836–41


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_16 | Pages 9 - 9
1 Dec 2015
Dvorzhinskiy A Perino G Chojnowski R Van Der Meulen M Ross F Bostrom M Yang X
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To test the hypothesis that: CERAMENT[™]|G (C-G) would improve new bone growth and decrease infection rate after debridement as compared with 1) CERAMENT|BONE VOID FILLER (CBVF) and 2) no void filler in a rat osteomyelitis model.

72 Sprague Dawley rats were injected with 1.5 × 10∧6 CFU of S. aureus into a drill hole in the right tibia. After 3 weeks, the osteomyelitic defect was debrided, and filled with either: 1) C-G (n=32), 2) CBVF (n=20), or 3) nothing (n=20). 6 weeks after the second surgery, 20 rats from each group were sacrificed and the right tibias were harvested. A long-term group (n=12) of C-G treated rats were also sacrificed at 6 months after the second surgery. The tissues were sonicated and the colony forming units in the sonicate were quantified by serial dilutions and culture. MicroCT was used to quantify the new bone growth (BV/TV) in the debrided osteomyelitic void. Histological samples were analyzed for the presence of a neutrophil response by a blinded pathologist.

(*: p<0.05)

Positive cultures in:

○ 30% of animals treated with CBVF

○ 25% of animals treated with no void filler

○ 0% of animals treated with C-G (*)

Neutrophil reaction in:

○ 35% of animals treated with CBVF

○ 50% of animals treated with no void filler

○ 0% of animals treated with C-G (*)

The BV/TV in:

○ C-G treated rats was 24% greater than CBVF treated rats (*)

○ C-G treated rats was 94% greater than rats treated with no void filler (*)

○ CBVF treated rats was 56% greater than rats treated with no void filler (*)

Animals sacrificed at 6 months which were treated with C-G did not have any evidence of infection by culture or histology. The bone mass of the implanted limb was higher than the contralateral (non-operated) side.

CERAMENT|G decreased the rate of infection and increased new bone growth as compared with both CBVF and no void filler in a debrided osteomyelitic environment. Animals treated with C-G at 6 months showed no evidence of infection and retained a higher bone mass relative to the contralateral (non-operated) side.

This study supports the use of CERAMENT|G as a readily available void filler which could be used in osteomyelitic environments after debridement.


The Bone & Joint Journal
Vol. 95-B, Issue 5 | Pages 583 - 597
1 May 2013
Kurien T Pearson RG Scammell BE

We reviewed 59 bone graft substitutes marketed by 17 companies currently available for implantation in the United Kingdom, with the aim of assessing the peer-reviewed literature to facilitate informed decision-making regarding their use in clinical practice. After critical analysis of the literature, only 22 products (37%) had any clinical data. Norian SRS (Synthes), Vitoss (Orthovita), Cortoss (Orthovita) and Alpha-BSM (Etex) had Level I evidence. We question the need for so many different products, especially with limited published clinical evidence for their efficacy, and conclude that there is a considerable need for further prospective randomised trials to facilitate informed decision-making with regard to the use of current and future bone graft substitutes in clinical practice.

Cite this article: Bone Joint J 2013;95-B:583–97.


Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_10 | Pages 62 - 62
1 Oct 2022
Browne K Luney C Riley N
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Aim. There are no definitive criteria for the definition of osteomyelitis in the hand and wrist and published case series are small. It remains a relatively uncommon, but difficult to treat problem. We present a series of 30 cases from 2016 to 2021 from a tertiary referral centre. We propose that the principles of thorough surgical debridement, dead space management, skeletal stabilisation and culture driven antibiotic therapy are the key to management of osteomyelitis in the hand and wrist. In addition, we show how these basic principles can be used for both functional and aesthetic impact for the wrist and digits with illustrated cases. Methods. We conducted a retrospective chart review over a 6 year period and recorded the site of the infection, the soft tissue and bony management, whether antibiotic eluting bone filler was used, the isolated bacterial species, the number of surgical procedures undertaken to treat the infection and the success rate for clearing the infection. Results. 17/30 cases had pre-existing metalwork in-situ. There were 19 phalangeal/metacarpal infections and 11 carpal infections. 24 patients had native joint involvement. A drug eluting bone void filler was used in 23/30 cases in order to manage the dead space. In 7/30 cases had polymicrobial organisms isolated, 15/30 had only one organism cultured. The most common organism cultured was Staphylococcus aureus. Complete resolution of osteomyelitis or joint infection was achieved in 29/30 cases with follow up ranging from six months to six years. 2/30 cases required thorough debridement of the distal phalanx; bone void filler provided an aesthetically optimal result to improve fingertip contour whilst managing the dead space. Conclusion. Osteomyelitis of the hand and wrist is optimally managed with thorough surgical debridement, dead space management with a drug eluting bone void filler, skeletal stabilisation and culture directed antibiotic therapy. In addition, the bone void filler provides pulp support and improves the aesthetic contour of fingertips in which distal phalangeal osteomyelitis was successfully treated


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_14 | Pages 77 - 77
1 Dec 2019
Jensen LK Blirup SA Aalbæk B Bjarnsholt T Kragh KN Gottlieb H Bue M Jensen HE
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Aim. To study the antimicrobial effect of a gentamicin loaded bio-composite bone void filler in relation to a limited or extensive debridement of osteomyelitis lesions, respectively. Methods. Nine pigs were inoculated into the right proximal tibial bone with a high virulent gentamicin sensitive strain of Staphylococcus aureus (10. 4. CFU). Seven days after inoculation, Group A pigs (n=3) were exposed to a limited debridement of the bone lesion, whereas Group B pigs (n=3) were exposed to an extensive debridement. The bone defects of Groups A and B were filled with (2–5 ml) of an absorbable gentamicin (175 mg/10 mL) loaded bio-composite. The animals of Group A and B were euthanized 12 days after revision surgery. Group C animals did not undergo revision surgery and were euthanized seven (n=1) or nineteen (n=2) days post inoculation in order to follow the development of the untreated infection. None of the animals were treated with systemic antimicrobials. All bones were exposed to a post mortem CT scan and rigours pathological examinations. The surrounding bone tissue and the bio-composite were sampled for microbiology. Results. All animals developed a substantial purulent bone infection in the inoculated leg prior to revision surgery. In the cases of limited debridement, the bone lesions surrounding the bio-composite bone void filler had clearly expanded since revision surgery, and contained extensive amounts of pus, necrotic bone tissue and oedematous fibrotic tissue. In the cases of extensive debridement, the bio-composite bone void filler was surrounded by only a few mm of fibrosis and sclerotic bone tissue i.e. the bone lesions were not expanding. However, in one pig the bio-composite bone void filler was communicating with a small purulent osteolytic lesion without a sclerotic border indicating appearance after revision surgery. In all pigs, S. aureus bacteria were post mortem cultured from the adjacent bone tissue and the bio-composite surface. Conclusions. The gentamicin concentrations within the bio-composite could not eradicate the residual infection after debridement. However, extensive debridement and filling of the bone void with gentamicin loaded bio-composite contained the lesion formed by revision surgery, which are important complementing roles as adjuvant to systemic antimicrobial therapy and the immune system in eradication of the infection. The present study emphasizes that extensive debridement is fundamental for successful treatment of bone infections and that antimicrobial loaded bone void fillers or bone substitutes should not be used as an alternative to extensive debridement


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_1 | Pages 99 - 99
1 Jan 2016
Cowie R Carbone S Aiken S Cooper J Fisher J Jennings L
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Introduction. When third body particles originating from bone cement or bone void fillers become trapped between articulating surfaces of joint replacements, contact surfaces may be damaged leading to accelerated wear and premature failure of the implant. In this study, the damage to cobalt chrome counterfaces by third body particles from PMMA bone cement (GMV, DePuy) and various bone void fillers was investigated; then wear tests of UHMWPE were carried out against these surfaces. Methods. Third body particles of polymerised GMV bone cement and the bone void fillers; OsteoSet (with tobramycin), Stimulan and Stimulan+ (with vancomycin and tobramycin) (provided by Biocomposites Ltd.) were trapped between an UHMWPE pin and a highly polished cobalt chrome plate. A load of 120N was applied to the pin and using an Instron materials testing machine, the plate was pulled beneath the pin to recreate third body damage [1]. The resulting surface topography of the plate was analysed using white light interferometry (Bruker NPFLEX). Pin on plate wear tests of GUR 1020 UHMWPE pins were carried out against the plates perpendicular to the direction of damage for 500,000 cycles in 25% bovine serum using a 6-station multi-axial reciprocating rig under conditions to replicate the kinematics in total knee replacement. Wear of the pins was determined by gravimetric analysis and results were compared to negative (highly polished) control plates and positive controls scratched with a diamond stylus (lip height 2µm). Statistical analysis was carried out using one-way ANOVA with significance taken at p<0.05. Results. Following damage simulation with Stimulan and Stimulan+, no scratches could be seen on the surface of the cobalt chrome plates using a stereomicroscope under 63× magnification (Figure 1). Table 1 shows that OsteoSet caused surface damage with the highest density of scratches, which had a greater mean lip height than those caused by the other third body materials. Stimulan+ caused significantly (p=0.002) fewer scratches than Osteoset and the surface damage caused by Stimulan was below the resolution of the surface analysis measurement technique used. The pin on plate wear test showed that under the test conditions used, the wear of UHMWPE was similar (p=0.108) for negative control plates and plates scratched with third body particles and a significant (p<0.001) increase in wear was only observed against the positive control plates [2]. Discussion. This study shows that third body particles originating from bone cement and bone void fillers can damage the surface of highly polished cobalt chrome plates and that materials of similar composition can cause varying severity of damage. Wear tests against plates damaged with third body particles did not significantly affect the wear of UHMWPE and to significantly increase wear, scratches needed to have a lip height of 2µm or above


Bone & Joint Research
Vol. 3, Issue 7 | Pages 223 - 229
1 Jul 2014
Fleiter N Walter G Bösebeck H Vogt S Büchner H Hirschberger W Hoffmann R

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. Method . A total of 20 patients with post-traumatic/post-operative bone infections were enrolled in this open-label, prospective study. After radical surgical debridement, the bone cavity was filled with this material. The 21-day hospitalisation phase included determination of gentamicin concentrations in plasma, urine and wound exudate, assessment of wound healing, infection parameters, implant resorption, laboratory parameters, and adverse event monitoring. The follow-up period was six months. . Results . Systemic exposure to gentamicin after implantation was very low as local gentamicin concentrations were measured in wound exudate after six to ten hours. There were no signs of infectious complication throughout the clinical phase. Four patients had recurrent infections several weeks to months after implantation. The outcome was deemed successful by remission of infection in 16 (80%) of these problematic long-term treated patients. Safety laboratory measurements did not indicate nephrotoxic or hepatotoxic effects. . Conclusions . Local application of calcium sulphate/carbonate bone void filler comprising gentamicin revealed sufficient active local levels of the antibiotic by simultaneous significant low systemic exposure in patients with mostly chronic osteomyelitis/osteitis. The material was safe and well tolerated. Cite this article: Bone Joint Res 2014;3:223–9


Orthopaedic Proceedings
Vol. 102-B, Issue SUPP_2 | Pages 83 - 83
1 Feb 2020
Wolff D Newman J Shah N Morrissey P Conway C Gold R Tretiakov M Sedaghatpour D Pivec R Naziri Q Illical E
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Purpose. Infections in orthopaedic surgery are costly, debilitating complications. The search for new treatments and prevention strategies has led to the use of antibiotic-filled calcium sulfate (CaS) as a bone void filler that is both safe and effective. The purpose of this study was to examine the available data on the efficacy of this technology. Methods. A literature search was performed for studies that evaluated the use of antibiotic-loaded CaS cement in orthopaedics published between inception of the databases to 2017. Selected studies included randomized controlled trials (RCTs) and observational studies published in the English language that met the following criteria: 1) patients underwent an orthopaedic procedure; 2) CaS cement with an antibiotic was used; and 3) at least one of our outcomes were mentioned. Outcomes included resolution of infection, complications related to treatment, subsequent surgeries, overall infection rate, fracture union rate, clinical outcomes, and wound complications. A total of 17 studies were included. Results. Ten studies examined the use of antibiotic-eluting CaS cement with surgical debridement to treat osteomyelitis and reported resolution rates ranging from 80–100%. Two studies examined CaS for prophylaxis of infection after open fracture, with subsequent infection rates ranging from 0–22%. Two studies examined infected non-unions with CaS used as an adjunct to surgery with an 87.5% infection clearance rate. Finally, three studies examined the use of local antibiotic release from CaS in the repair of infected TKAs or THAs, with success rates ranging from 52–93.3%. Conclusion. Initial results support the use of CaS with surgical debridement for osteomyelitis and infected non-unions. Results are mixed for CaS use in the prophylaxis of infection after open fractures and for PJIs, thereby necessitating further research. Overall the studies were small, retrospective, and lacked controls. Further research should focus on RCTs to minimize bias and investigate for non-inferiority. For any figures or tables, please contact authors directly


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_17 | Pages 85 - 85
1 Dec 2018
Ferguson J Diefenbeck M McNally M
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Aim. Antibiotic-loaded biomaterials are often used in dead space management after excision of infected bone. This study assessed the chronological progression of new bone formation in infected defects, filled only with an absorbable, osteoconductive bone void filler with Gentamicin (1). Method. 163 patients were treated for osteomyelitis or infected fractures with a single-stage excision, implantation of antibiotic carrier, stabilisation and wound closure. All had Cierny & Mader Type III (n=128) or Type IV (n=35) infection. No bone grafting was performed in any patient. Patients were followed up for a minimum of 12 months (mean 21.4 months; 12–56). Bone void filling was assessed on serial digitised, standardized radiographs taken immediately after surgery, at 6 weeks, 3, 6 and 12 months and then yearly. Data on defect size, location, degree of void filling, quality of the bone-biomaterial interface and material leakage were collected. Bone formation was calculated at final follow-up, as a percentage of initial defect volume, by determining the bone area on AP and lateral radiographs to the nearest 5%. Results. 138 patients had adequate radiographs for assessment. Infection was eradicated in 95.7%. 2.5% of patients suffered a fracture during follow-up. Overall, bone formation was good (mean 73.8% defect filling), with one quarter of patients having complete defect filling and 87% having more than 50% of the defect healed. Bone formed better in metaphyseal defects compared to diaphyseal defects (mean 79% filling vs 66%; p<0.02). Good interdigitation of the biomaterial with the host bone, seen on the initial radiograph, was associated with more bone formation (77% vs 69%; p=0.021). Leakage of the biomaterial out of the defect reduced mean bone formation from 77% to 62% (p=0.006). 38 cases had radiographs more than 2 years after implantation. In 24 (63.2%), bone formation continued to increase after the first year radiograph. Conclusion. This biomaterial was effective in allowing significant amounts of bone to form in the defect. This removed the need for bone grafting in this series, with a low risk of fracture or recurrent infection. However, bone formation is affected by the site of the lesion and the adequacy of filling at surgery. It is important to achieve good contact between the bone surface and the biomaterial at operation. Bone formation is slow and progresses for at least 2 years after implantation, in two thirds of patients


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_3 | Pages 83 - 83
1 Feb 2017
Cowie R Aiken S Cooper J Jennings L
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Introduction. Calcium sulfate bone void fillers (CS-BVF) are increasingly being used for dead space management in infected arthroplasty revision surgery. The use of loose beads of CS-BVF close to the articulating surfaces of an implant means there is potential for them to migrate between the articulating surfaces acting as a third body particle. The aim of this study was to investigate the influence of CS-BVF on the third body wear of total knee replacements. Methods. The influence of CS-BVF on wear was investigated using the commercially available CS-BVF ‘Stimulan’ (Biocomposites Ltd., UK) and posterior stabilised U2 total knee replacement system implants (United Orthopaedic Corp., Taiwan). The experimental wear simulation was performed using a six station ProSim electropneumatic knee simulator (Simulation Solutions, UK) running the Leeds intermediate kinematics input profile [1]. To investigate the damage that could be caused by the third body particles, 5cc of CS-BVF beads (excess) were placed on the tibial component of the implant, the simulator was run dry for 60 cycles before adding lubricant (25% bovine serum supplemented with 0.03% sodium azide) and running for an additional 115,000 cycles representative of the 6–8 weeks the CS-BVF are present in the body prior to their resorption. The surface topography of the cobalt chrome femorals was analysed using contacting profilometry to ascertain whether the third body particles of CS-BVF had damaged the surfaces. To investigate the influence of CS-BVF on the third body wear of the UHMWPE tibials, 3 million cycles (MC) of wear simulation was subsequently carried out. The wear of the UHMWPE tibials was assessed gravimetrically and the wear of implants tested with CS-BVF was compared to the wear against negative controls (initial Ra∼0.02µm) and positive controls (initial Ra ∼0.4µm) damaged with a diamond stylus. N=6 was completed for each condition, statistical analysis was carried out using ANOVA with significance taken at p<0.05. Results. Light scratching was visible on the surface of the cobalt chrome femorals after the implants were challenged with the CS-BVF, however, there was no significant difference (p>0.05) between the surface roughness of the negative controls and those challenged with CS-BVF for any of the roughness parameters of interest (Table 1 & Figure 1). 3MC of wear simulation showed no significant difference (p>0.05) between implants subjected to the third body wear protocol and the negative controls (Figure 2). To significantly increase the wear of the UHMWPE tibials, the damage to the cobalt chrome femorals had to be above a threshold as in the positive controls scratched with a diamond stylus. Conclusions. This study showed that the CS-BVF ‘Stimulan’ had no influence on the third body wear or surface topography of total knee replacements compared to negative controls. Therefore, when used close to articulating surfaces of a metal-on-polyethylene joint replacement, CS-BVF may not influence the wear of an implant or be detrimental to its longevity


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_10 | Pages 17 - 17
1 Jul 2014
Thompson E Matisko A McFadden T Gleeson J Duffy G Kelly D O'Brien F
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Autogenous bone grafting limitations have motivated the development of Tissue-Engineered (TE) biomaterials that offer an alternative as bone void fillers. However, the lack of a blood supply within implanted constructs may result in avascular necrosis and construct failure. 1. The aim of this project was to investigate the potential of novel TE constructs to promote vascularisation and bone defect repair using two distinct approaches. In Study 1, we investigated the potential of a mesenchymal stem cell (MSC) and endothelial cell (EC) co-culture to stimulate pre-vascularisation of biomaterials prior to in vivo implantation. 2. In Study 2, we investigated the potential of TE hypertrophic cartilage to promote the release of angiogenic factors such as VEGF, vascular invasion and subsequent endochondral bone formation in an in vivo model. Collagen-only (Coll), collagen-glycosaminoglycan (CG) and collagen-hydroxyapatite (CHA) scaffolds were fabricated by freeze-drying. 3. , seeded with cells and implanted into critical-sized calvarial and femoral defects in immunocompetent rats. In Study 1, Coll and CG scaffolds were initially seeded with ECs, allowed to form capillary-like networks before the delayed addition of MSCs and continued culture prior to calvarial implantation. In Study 2, CG and CHA scaffolds were seeded with MSCs and cultured under chondrogenic and subsequent hypertrophic conditions to form a cartilage pre-cursor prior to calvarial and femoral implantation in vivo. MicroCT and histomorphometry quantification demonstrated the ability of both systems to support increased bone formation compared to controls. Moreover, the greatest levels of bone formation were observed in the CG groups, notably in those containing cartilage tissue (Study 2). Assessment of the immune response suggests the addition of MSCs promotes the polarisation of macrophages away from inflammation (M1) towards a pro-remodelling phenotype (M2). We have developed distinct collagen-based systems that promote vascularisation and ultimately enhance bone formation, confirming their potential as advanced strategies for bone repair applications


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_2 | Pages 36 - 36
1 Jan 2017
Ajaxon I Acciaioli A Lionello G Ginebra M Öhman C Persson C Baleani M
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Calcium phosphate cements (CPC) are used as biocompatible and bioactive bone void fillers. Ideally, the mechanical properties of these cements should match those of the surrounding bone. The knowledge of the real mechanical properties of the material is important in the decision-making process regarding possible use of the CPCs in different anatomical sites. Although it is generally recognized that these cements are stiffer and more brittle than desired, there is a limited amount of data about the possible deformation of this class of material before failure. The focus of this study was to determine these properties of injectable CPCs. Two different types of self-setting CPCs were investigated in this study: i) hydroxyapatite (HA), that historically has been the most widely studied CPC; ii) brushite, that recently has attracted attention due to its faster resorption than that of HA in vivo. Specimens of both cement types were prepared by mixing a powder phase with a liquid phase that were left to harden in phosphate buffered saline at 37°C. Once set, the specimens underwent a quasi-static compressive test to determine the compressive strength, the elastic modulus and the maximum deformation of the two materials. The material testing machine was equipped with a digital image correlation system, which allows accurate measurement of material deformation directly on the specimen surface. Brushite was found to be significantly more stiff (+80%) and resistant (+84%) than HA. Similar findings were found for the energy needed to create a first crack on the specimen surface. However, the first crack appeared on the specimen surface at the same low deformation level (∼0.15%) independently of the type of material tested. Complete failure of both materials occurred, on average, before reaching 0.25%. It has been demonstrated that the compressive behaviour of CPCs depends on their composition and porosity [1]. One of the main reasons for the high strength and stiffness of the brushite studied here was its low porosity (∼12%). However, the maximum deformation is not positively affected by this decrease in porosity. In fact, both materials show the same brittle behaviour, i.e. they undergo comparably little deformation before they break. Under these conditions, increasing the compressive strength may not always be beneficial clinically, e.g. in the treatment of vertebral compression fractures, where the high stiffness of the bone cements used has been identified as a risk factor for adjacent-level fractures [2]. However, it is not clear whether a 20-fold higher stiffness than the trabecular bone would give a different clinical outcome than a 10-fold higher stiffness. These high-strength, high-stiffness cements may also be used as a basis for further biomaterial development, e.g. in the creation of macro-porous scaffolds, which is usually challenging due to the commonly low mechanical properties of the base CPC material


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_15 | Pages 229 - 229
1 Mar 2013
Kohan L Chou J Valenzuela S Santos J Milthorpe B Green D Otsuka M
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Gentamicin sulphate is a potent antibiotic, widely used by clinicians to treat Staphylococcus aureus bacterial complications in orthopaedic surgery and osteomyelitis. Antibiotics as administered are poorly localised and can accumulate with toxic effects. Achieving a better targeted release and controlled dosage has been an ongoing unmet microengineering challenge. In this study we evaluated the antibiotic release potential of beta tricalcium phosphate (β-TCP) micro and macrospheres to eradicate Staphylococcus aureus and maintain osteoblast biocompatibility. Gentamicin was absorbed onto and within the spheres at an average amount of 4.2 mg per sample. Human osteoblast cell studies at five days incubation showed attachment and growth on the spheres surface with no detrimental effect on the cell viability. A time delayed antibacterial efficacy test was designed with the bacteria introduced at predetermined time intervals from 0–60 minutes. We demonstrated that hydroxyapatite covered Foraminifera nano-, micro- macrospheres facilitated the slow release of the encapsulated pharmaceutical agent. Principally, this arises owing to their unique architecture of pores, struts and channels, which amplifies physiological degradation and calcium phosphate dissolution to release attached pharmaceuticals in a controlled manner. The Staphylococcus aureus growth response following exposure to the gentamicin incorporated microspheres at various time intervals showed the complete elimination of the bacteria within 30 minutes. Gentamicin release continued with no re-emergence of bacteria. β-TCP nano to macro size spheres show promise as potential bone void filler particles with, in this case, supplementary delivery of antibiotic agent. Owing to their unique structure, excellent drug retention and slow release properties, they could be used in reconstructive orthopaedics to treat osteomyelitis caused by Staphylococcus aureus and possibly other sensitive organisms