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Bone & Joint Open
Vol. 2, Issue 6 | Pages 371 - 379
15 Jun 2021
Davies B Kaila R Andritsos L Gray Stephens C Blunn GW Gerrand C Gikas P Johnston A

Aims

Hydroxyapatite (HA)-coated collars have been shown to reduce aseptic loosening of massive endoprostheses following primary surgery. Limited information exists about their effectiveness in revision surgery. The aim of this study was to radiologically assess osteointegration to HA-coated collars of cemented massive endoprostheses following revision surgery.

Methods

Retrospective review of osseointegration frequency, pattern, and timing to a specific HA-coated collar on massive endoprostheses used in revision surgery at our tertiary referral centre between 2010 to 2017 was undertaken. Osseointegration was radiologically classified on cases with a minimum follow-up of six months.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_16 | Pages 9 - 9
1 Oct 2016
Cheong VS Coathup MJ Mumith A Fromme P Blunn GW
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Long-term survival of massive prostheses used to treat bone cancers is associated with extra-cortical bone growth and osteointegration into a grooved hydroxyapatite coated collar positioned adjacent to the transection site on the implant shaft [1]. The survivorship at 10 years reduces from 98% to 75% where osteointegration of the shaft does not occur. Although current finite element (FE) methods successfully model bone adaption, optimisation of adventitious new bone growth and osteointegration is difficult to predict. There is thus a need to improve existing FE models by including biological processes of osteoconduction and osteoinduction.

The principal bone adaptation criteria is based on the standard strain-energy remodeling algorithm, where the rate of remodeling is controlled by the difference in the stimulus against the reference value [3]. The additional concept of bone connectivity was introduced, to limit bone growth to neighbouring elements (cells) adjoining existing bone elements. The algorithm was developed on a cylindrical model before it was used on an ovine model.

The geometry and material properties from two ovine tibiae were obtained from computed tomography (CT) scans and used to develop FE models of the tibiae implanted with a grooved collar. The bones were assigned inhomogeneous material properties based on the CT grey values and typical ovine walking load conditions were applied. The FE results show a region of bone tissue growth below the implanted collar and a small amount of osteointegration with the implant, which is in good agreement to clinical results. Some histological results suggest that further bone growth is possible and potential improvements to the model will be discussed. In summary, by including an algorithm that describes osteoconduction, adventitious bone growth can be predicted.


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_34 | Pages 78 - 78
1 Dec 2013
Hothi H Cro S Bills P Blunt L Racasan R Blunn GW Skinner JA Hart A
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Introduction

Metal-on-metal (MOM) total hip arthroplasty using large diameter femoral heads offer clinical advantages however the failure rates of these hips is unacceptably high. Retrieved hips have a wide range of wear rates of their bearing and taper surfaces and there is no agreement regarding the cause of failure.

Detailed visual inspection is the first step in the forensic examination of failed hip components and may help explain the mechanisms of failure. The aim of this study was to determine if there was a correlation between the results of detailed inspections and the volumetric wear of the bearing and taper surfaces of retrieved hips.

Method

Detailed, non-destructive macroscopic and stereomicroscopic examinations of 89 retrieved MOM hip components were performed by a single experienced examiner using quantitative assessment to document the severity of 10 established damage features:

Light scratches, Moderate scratches, Heavy scratches, Embedded particles, Discolouration, Haziness, Pitting, Visible wear zone, Corrosion, Fretting

Each surface was considered in terms of zones comprising of quadrants (cup, head, and taper) and subquadrants (cup and head), Figure 1. Each zone was scored on a scale of 0 to 3 by determining the percentage of the surface area of the zone that exhibited the feature in question: a score of 0=0%, 1<25%, 25%<2<75%, 3>75%. The sum of the scores of each zone was used for the assessment of each damage feature.

The volume of wear at the surfaces of each hip was measured with a Zeiss Prismo coordinate measuring machine (cup and head) and a Talyrond 365 roundness measurement instrument (taper), using previously reported methods1, 2.

Simple linear regression models were used to asses the univariable associations between the inspection scores and wear volumes. Multiple linear regression models were subsequently used to asses the simultaneous contribution of the inspection scores, found significant in univariable analyses, on the wear outcome variables.

All statistical analysis was performed using Stata/IC version 12.1 (StataCorp, USA) and throughout a p value < 0.05 was considered statistically significant.


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_13 | Pages 43 - 43
1 Mar 2013
Dowling RP Pendegrass CJ Blunn GW
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To try and aid the formation of a soft tissue seal to promote dermal and epidermal attachment to Intraosseous Transcutaneous Amputation Prostheses we compared the effect of titanium surfaces functionalised with fibronectin (fn) or YRGD peptide sequences on human dermal cell (HDF) attachment. We hypothesise that YRGD and fn coatings will significantly increase HDF attachment to titanium alloy substrates. Titanium alloy 10mm discs were polished and acted as control substrates, functionalised surfaces had YRGD or fn adsorbed or silanised onto the polished surface. HDFs were seeded at 10,000/disc and cultured for 1, 4, 24 and 96 hours, fixed and fluorescent immnolocalisation for vinculin was performed. Individual vinculin markers were counted and density calculated as a measure of cell attachment. All assays were performed in triplicate and data were analysed in SPSS 19.0 and results were considered significant at the 0.05 level. Results showed an up-regulation of Focal adhesion density (FA) against controls at all time-points (excluding ad-fn at 4 hours, p=0.057), p values < 0.05, the use of functionalised titanium surfaces may lead to long-term clinical success of ITAP. We have shown a significant positive effect on cell attachment when a synthetic peptide sequence is used. Using synthetic peptide sequence may also be more beneficial from a regulatory stand-point compared with using isolated proteins.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_IX | Pages 95 - 95
1 Mar 2012
Wilding CP Maruthainar K Malikian R Stammers J Blunn GW
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Purpose

To determine the effect that Titanium Nitride (TiN) coatings have on wear rates of ultra high molecular weight polyethylene (UHMWPE)

Background

Ceramic coatings have been shown to confer advantageous countersurface scratch resistance in knee arthroplasty. This may reduce UHMWPE wear rates and revision rates. Dermal hypersensitivity is a common problem with metals; TiN, a ceramic surface, has been used to prevent it. There is little data in the literature regarding the effect of TiN on UHMWPE.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_I | Pages 75 - 76
1 Jan 2011
Gokaraju K Miles J Blunn GW Pollock RC Skinner JAM Cannon SR Briggs TWR
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Introduction: Non-invasive expandable prostheses for limb salvage tumour surgery was first used in 2002 and has now been implanted in a series of 40 skeletally immature patients.

Method: Our review of these includes 24 distal femoral replacements, 5 proximal femoral replacements, 3 total femoral replacements and 8 proximal tibial replacements. These were used to treat 31 osteosarcomas, 7 Ewing’s sarcomas, 1 chondrosarcoma and 1 aneurysmal bone cyst. Patients had a mean age of 11.7 years (7–16). Follow-up extended to 88 months with a mean of 26.3 months.

Results: There has been 1 failure of the prosthesis gearbox which required revision surgery. 4 of the prostheses reached their maximum length and were successfully re-operated to exchange components of the prosthesis and resume lengthening. 3 patients had disseminated meta-static disease (1 being present before primary surgery) and another developed infection of the prosthesis that required an above-knee amputation. There have been 233 lengthenings overall with 1 patient requiring reversal on one occasion due to intractable pain; this pain rescinded 30 minutes after lengthening was reduced by 10mm. Otherwise lengthening was well tolerated despite the significant growth of the limbs: mean 21.2mm (0.5–84mm). At latest follow-up the mean Musculoskeletal Tumour Society score was 75% (26–93%).

Discussion: The results achieved are equivalent to our series of minimally invasive growers which require repeated surgery. Our non-invasive growing prostheses remain reliable and negate the need for recurrent operations, thus resulting in low infection rates. Our results remain encouraging up to 7 years after first use, maintaining leg-length equality and function.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_I | Pages 75 - 75
1 Jan 2011
Parratt MTR Miles J Gokaraju K Spiegelberg BGI Pollock RC Skinner JA Cannon SR Briggs TWR Blunn GW
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Introduction: Intramedullary cementless fixation of massive tumor prostheses was developed to combat the high incidence of aseptic loosening in a young population of tumor patients. Its use has also expanded to include reconstruction of failed major knee arthroplasty. Our system uses a hydroxyapatite coated titanium stem in conjunction with a hydroxyapatite collar to obtain fixation.

Methods: We present a series of 72 patients (34 females, 38 males) with a mean follow-up of six years (2 months – 14 years). The mean age at the time of surgery was 17 (5 – 77). Within this group, 51 patients had osteosarcomas, 10 had giant cell tumors, eight had Ewing’s sarcoma and one each had malignant fibrous histiocytoma, spindle cell sarcoma and failed total knee arthroplasty. Non-invasive and minimally invasive growing prostheses were used in 33 patients.

Results: Nine patients required revision of the prosthesis at a mean of 5.2 years; 5 for aseptic loosening and four for infection. Twelve patients died at a mean of 20 months (1 – 84) post-operatively. Radiological evidence demonstrated remodelling around both the stem and the collar. There was gap closure to the hydroxyapatite coated collar in cases where seating was not complete. Consistent loss of cortical bone around the mid-stem was noted in the first 12 months but remained stable beyond this time frame.

Discussion: This study highlights our experience with cementless distal femoral endosprostheses. We demonstrate good results with regard to revision rate, gap closure and osseointegration.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_I | Pages 80 - 81
1 Jan 2011
Gokaraju K Parratt MTR Spiegelberg BGI Miles J Cannon SR Briggs TWR Blunn GW
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Introduction: Following resection of tumours in the distal femur, reconstruction with joint-sparing prostheses have shown good short-term functional outcomes. There is however limited literature on the affect of knee-sparing prostheses on function of the femoral physes in skeletally immature children.

Method: We discuss two patients, a male (11yrs) and female (10yrs) who had joint-sparing distal femoral prostheses inserted for treatment of Ewing’s sarcoma. The knee joint, along with the distal growth plate, was preserved and fixed to the distal end of the prosthesis using unicortical screws positioned distal to the physis. In the female, these screws were removed 6 months post-op due to prominence of the screws under the skin. In both patients, we assessed radiographs from immediately post-surgery and the most recent follow-up (20 and 28 months respectively). In each set, for the operated limb, we measured the height and width of the distal femoral epiphysis, the total length of the femur and the length of the proximal femoral bone segment from the femoral head to the proximal bone-prosthesis interface. In addition, post-operative assessments of leg lengths, bilaterally, were documented.

Results: In both patients, distal femoral epiphyseal height and width in the operated leg showed no significant change following endoprosthetic replacement. In the female, growth did not resume even after removal of the epiphyseal screws. In both patients, lengths of the femur and the proximal bone segment increased significantly following surgery. The patients demonstrated no clinical leg length discrepancy at the most recent follow-up.

Discussion: This study suggests that the function of the distal femoral growth plate ceases following insertion of joint-sparing distal femoral endoprostheses, probably due to trans-physeal fixation. This does not appear to resume following early removal of distal screws. The proximal growth plate, however, continues to function adequately enough to maintain symmetry in overall leg length.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_I | Pages 80 - 80
1 Jan 2011
Vijayan S Bartlett W Lee R Ostler P Blunn GW Cannon SR Briggs TWR
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Introduction: Massive endoprostheses are widely employed in limb salvage surgery for malignant bone tumours. Whilst joint preservation rather than replacement is usually attempted, cases arise where there is insufficient bone following tumour resection to allow adequate fixation of a joint sparing prosthesis.

Method: We report a series of four patients (aged 4–12), in which irradiated autologous bone was combined with distal femoral replacement in order to preserve the native hip joint.

Results: There were three cases of Osteosarcoma and one Ewing’s sarcoma. After a mean follow-up of 53.5 months (range 9–168), all four patients are alive without evidence of local recurrence or metastases. One implant was revised after 14 years following fracture of the extending component of the growing endoprosthesis. There were no cases of loosening or peri-prosthetic fracture.

Discussion: This is the first report of a new technique utilising irradiated autologous proximal femoral bone combined with distal femoral replacement in skeletally immature patients.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 262 - 262
1 May 2009
Sundar S Pendegrass CJ Blunn GW
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Research in to tendon-bone healing techniques focus on increasing bone growth at the interface such as cell or growth factor (e.g. BMP-2) augmentation. Demineralised bone matrix (DBM) is osseoinductive and is in use clinically.

Hypothesis: DBM augmentation of a healing tendon-bone interface will result in improved function at 3, 6, 9 and 12 weeks, and a morphology that more closely resembles that of a normal enthesis at 12 weeks.

Materials and methods: An ovine patellar tendon model was used. 19 skeletally mature ewes were allocated to the control group or DBM group. In both groups the patellar tendon was detached, and following tibial tubercle osteotomy, was re-attached using 3 suture anchors. In the DBM group a piece of DBM was placed between the tendon and bone. 2 animals were sacrificed at 6 weeks and 6 animals at 12 weeks. Animals underwent force plate analysis at 3, 6, 9 and 12 weeks. The tendon-bone interface length which was fibrous or fibrocartilaginous, and the area of fibrocartilage, mineralised fibrocartilage and new bone was quantified.

Results: 3 control group animals (33%) failed within 6 weeks. None failed in the DBM group. The DBM group was significantly better than the control at all time points (p< 0.05). DBM produced a significantly more fibrocartilaginous enthesis than the control group (p< 0.05). Controls were significantly more fibrous than the DBM group (p< 0.05). DBM produced significantly more fibrocartilage (p< 0.05), and mineralised fibrocartilage (p< 0.05).

Discussion: 33% of the control group failed within 6 weeks, whilst no failures were observed in the DBM group. DBM animals mobilised earlier and had significantly better function at all time points. Histologically, the DBM group showed a more mature direct type enthesis at earlier time points.

Conclusion: DBM augmentation of a healing tendon-bone interface enhances functional and morphological recovery at earlier time points.


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_III | Pages 416 - 417
1 Oct 2006
Coathup MJ Smith N Kingsley C Collins L Dattani R Blunn GW
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Introduction Bone graft supply for impaction grafting can be problematic due to the supply of graft, sterilisation, which alters the biological properties of the graft, and the immunogencity of the graft which may lead to graft rejection. Reducing the amount of graft can be accomplished by using increased amounts of synthetic materials such as hydroxyapatite (HA). This study evaluated the effect of using mixtures of porous HA (Apapore™) with allograft for cemented impaction allografting of the femoral stem in an ovine model. The aim was to test the hypothesis that increased quantities of Apapore™ will be stable and induce similar bone remodelling to that where a 50:50 mixture with allograft was used.

Method Twelve hemi-arthroplasty femoral components were inserted into the right hip of skeletally mature female commercially cross-bred sheep weighing between 65 and 80kg. Femoral components were manufactured from Cobalt Chromium alloy and cemented in place following impaction of the femoral canal. Animals were randomly placed into one of two groups according to the allograft-apapore mixture used. Group 1: Apapore:allograft mixed 50:50. Group 2: Apapore: allograft mixed 90:10. Six animals were investigated in each group. Implants remained in vivo for 6 months. In order to quantify bone formation rates, oxytetracycline injections were given 2 months post-surgery and 3 weeks later, followed by a third administration in the fifth month post-surgery and 3 weeks later. Animals were walked over a force plate pre-operatively and at 8, 16 and 24 weeks post-operatively. Twelve readings of maximum force (Fmax, N/m2) were taken and average values of right over left were calculated as a percentage (%AR/AL) and represented how well the animal used its operated leg where 100% represents full weight-bearing. Thin sections (~70μm thick) were prepared through four regions of the femur. The proximal, mid and tip of the femoral component region and one distal to the implant tip were analysed where bone area, Apapore™ area, Apapore™-bone contact and cement mantle thickness were quantified and compared using image analysis techniques.

Results In both groups, the use of graft resulted in the formation of a cancellous network of bone on the endosteal surface which incorporated the Apapore™ granules. When all regions were compared, femoral bone turnover results demonstrated significantly increased rates in group 1 (0.0021mm day-1) when compared with group 2 (0.0015mm day-1) (p< 0.05). No significant differences were identified when the proximal, mid and tip regions in the two groups were compared however, significantly increased turnover was identified in the distal region in group 1 (0.0027 mm day-1) when compared with group 2 (0.0013mm day-1) (p< 0.05). In both groups increased turnover was observed in the proximal, tip and distal regions with least in the mid region of the stem. Ground Reaction Force (GRF) results demonstrated no significant differences between the two experimental groups at 8, 16 and 24 weeks postoperatively. In both groups, a significant decline in function was demonstrated 8 weeks post-op when compared with pre-operative values and in both groups function gradually increased over time. Results for new bone area demonstrated significantly increased new bone in the proximal and distal regions in both groups (proximal =7.94mm2 and 7.13mm2; distal =7.03mm2 and 8.17mm2, group 1 and 2 respectively) with least new bone in the mid region of the stem (4.53mm2 and 4.79mm2). No significant differences in any of the regions were demonstrated when group 1 and 2 were compared. In both groups, significantly increased amounts of Apapore™ was observed in the proximal and distal regions of the femoral stem with least in the mid and tip region. No significant difference in cement mantle thickness was identified between the two groups.

Discussion Results demonstrated that hips maintained functional stability when a higher amount of Apapore™ mixture was used. Results for bone turnover rates and the amount of new bone formation in the 90:10 mixture demonstrated Apapore™ to be a comparable and suitable alternative to replace allograft in impaction grafting of a femoral component.


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_II | Pages 257 - 257
1 May 2006
Wardle NS Lee JKL Haddad FS Blunn GW
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Background And Aims: Total knee replacements provide a cost effective treatment for painful joint conditions such as osteoarthritis. Their long term performance is governed by ultra-high molecular weight polyethylene (UHMWPE) wear which produces wear debris and leads to osteolysis and aseptic loosening of the implant. Using a new material which is more scratch resistant than cobalt chrome it is hoped to reduce wear of UHMWPE and its subsequent complications.

Methods: Two total knee replacements made from cobalt chrome and two of oxidised zirconium were wear tested in a knee simulator. Surface roughness data from the femoral components was collected. Gravimetric and volumetric wear of the polyethylene inserts was measured. SEM analysis of the surfaces was also performed.

Results: Oxidised zirconium is significantly more scratch resistant than CoCr; Ra (mean average roughness) of 0.7μm compared to 0.43μm (p< < 0.01) at end of test, and confirmed by SEM analysis. This was accompanied by a 4 fold reduction in wear of UHMWPE 49.60mg to 12.48mg (p=0.02). Barium sulphate particles were found to be embedded in the surface of the CoCr implants.

Summary And Conclusions: Oxidised zirconium leads to a reduction in wear of UHMWPE due to its increased resistance to third body wear. It has the potential to increase the longevity of total knee replacements by reducing UHMWPE related complications.