Developmental dysplasia of the hip (DDH) is the most common post-natal skeletal abnormality. It is widely acknowledged that conditions which cause or result in reduced movement in utero are contributing factors to the incidence of DDH. However, the hypothesis that prenatal movement plays a role in normal development of the hip joint has not been tested using embryonic model systems. This research investigates the effects of immobilization in chick embryos on hip joint morphogenesis. Embryonic chicks were treated in ovo using a neuromuscular blocking agent from embryonic days 5 to 9. Limbs were stained for cartilage using alcian blue, and were scanned in 3-D. Standardized virtual sections of the femur were taken and a number of virtual sections from age-matched limbs were overlaid in order to compare between control and immobilized limbs. The results show that not all immobilised limbs were equally affected, with some immobilised embryos having almost normal joint shapes, and other immobilised embryos displaying decreased protuberance of the femoral head and decreased indentation at the femoral neck. Our results demonstrate that the mechanobiological response to immobilisation can vary between individuals, but also that preventing movement during embryonic development can lead to abnormal morphogenesis of the developing proximal femur in some individuals, providing evidence that reduced movement during development can lead to features of DDH.

Ontogeny of long bone cross-sectional geometry has lasting effects on adult bone structure. Growth and development of bone is influenced by biological and mechanical factors but the importance of these factors is poorly understood. A study of prenatal, neonatal and infant development in a bone with simple loading patterns, may improve our understanding. Five vertebral columns aged between 6 months prenatal to 2.5 years postnatal, were analysed to quantify the changes in trabecular architecture before and after birth. Several measures were collected including trabecular: thickness, bone volume fraction, connectivity density, number, structure model index and anisotropy. The findings show that in the first year after birth there is a substantial loss of bone volume via decreasing trabecular thickness and number, which tends to increase after 1.2 years. This sequential pattern of development may be a functional response to the initial requirement for calcium mineral homeostasis before birth, followed by the need for trabecular architecture to adapt to mechanical loading after birth. Calcium is essential for growing neonates and therefore osteoclastic resorbtion is up regulated by increasing parathyroid hormone levels. This may account for the loss of bone between 0–1 year. At one year infants begin to walk bipedally, thus weight bearing and ground reaction forces increase. The stable bone volume and increase in organisation of trabecular architecture after one year may reflect increasing weight bearing and ground reaction forces. These findings suggest that nutritional requirements after birth may have a stronger influence on vertebral trabeculae architecture than learning to walk.

We have investigated whether a system of four inertial measurement units (IMUs) attached to the segments of the lower limbs could provide useful information about the kinematics of limb segment movement in gait in a healthy population. Four IMUs were attached to participants over their clothes. Participants then walked at their self-selected speed for 10 metres along a corridor and back. IMUs were removed, data downloaded on to a computer and ranges of motion were calculated for thigh, calf and knee, in addition to stride duration. 128 participants were recruited aged 18–97. There was little variation in most angle parameters up to age of 80. The relationships between angle and age are non-linear. There was a slight increase in stride duration with age of about 0.1% per year. The study concentrated on active subjects, with no specific co-morbidities that might affect gait. Results obtained may represent what is achievable for any given age, and approximate to changes that occur due to primary ageing. We propose that, after the age 80, peak muscle power declines below a threshold, such that muscular activity required to move a limb approaches the peak power available, and that it is the decline in peak muscle power that ultimately limits gait in active older people. Walking ability is important in maintaining independence as people age. It would be more effective to encourage exercises to maintain normal gait at a much earlier age. Deviations from the normal range could be identified early, and appropriate intervention given.

We have studied patients with Joint Hypermobility Syndrome (JHS) admitted to the Royal National Orthopaedic Hospital (RNOH) for a three-week in-patient rehabilitation programme. Ten patients were investigated at the start and end of this programme, and so far eight patients have been followed up at three months review. Postural stability was measured using a force plate, and the path of the centre of force (CoF) was tracked while patients were asked to attempt a series of more challenging tasks: double leg stance with eyes open and then with eyes closed, followed by single leg stance with eyes open and closed. Patients also completed a number of questionnaires at the same time points. We found the results of the double stance eyes closed test of postural stability to be the most informative. The ellipse area (EA) containing 95% of the points of the path of the CoF decreased from 21.5 + 14.8 cm2 to 9.0 + 11.5 cm2 over the course of the in-patient programme. In the eight patients followed up at three months, EA has remained the same (9.6 + 14.6 cm2). We conclude that the effects of the exercise programme and advice on subsequent exercise can be maintained over three months.

Total knee replacement in a commonly performed procedure in the United Kingdom with more than 76000 primary procedures performed in 2010. With so many procedures performed there has to be a robust way of assessing the outcome of the procedure. Gait analysis is a valuable tool in objectively assessing the these patients. Inertial movement units (IMU's) are a fairly new development in gait analysis. The aim of our project is to use IMUs to assess the differences in gait profile between a cohort of healthy controls, a group of pre operative knee replacement patients, a group of 8 week post operative patients and finally a group of post operative knee replacement patients at 1 year. We studied a total of 47 patients. We also had data from a previous study done on healthy controls using the same measurement tool. We measured three parameters: peak swing phase flexion, peak stance phase flexion and stride duration. Our findings indicate that pre-operative patients have a significantly reduced peak flexion in swing and stance with increased stride duration. This shows no improvement at the 8 week mark. At the 1 year mark peak flexion in swing returns to pre operative levels but flexion in stance and stride duration are still poor. These findings may not have been identified without gait analysis. Gait analysis using intertial movement units will add much information to radiographs and clinical examination. This information can also be used to tailor individual patients rehabilitation.

The aim of this study was to perform a comprehensive evaluation of the changes in function from pre- to post-surgery in total and unilateral knee arthroplasty (UKA/TKA) patients. Twenty healthy (age 62.4 ±5.9, 11 male), 14 UKA (age 60.9 ±10.1, 8 male) and 17 TKA (age 67.2 ±8.1, 9 male) patients were studied. KA patients were assessed four weeks pre- and six months post-operation. Measures of perceived pain and function were collected using Oxford Knee Score (OKS) questionnaire. Tests of objective function included joint range of motion (RoM), ultrasound imaging, and 3-D motion analysis/inverse modelling from gait and sit-stand. An optimal set of variables was used to classify KA function using the Cardiff DST method. Pre-KA and healthy individuals were accurately classified (96%). Post-operation questionnaire measures of function improved for both UKA and TKA groups. However, observed measures of RoM, muscle atrophy and gait had only limited gains. This resulted in 57% of UKA and only 27% of TKA patients being classified as healthy post-operation. The results of this study show that 6 months post-surgery UKA patients had higher function than TKA. Using statistical approaches to combine functional assessments has provided an accurate platform to classify function and estimate changes from pre- to post-surgery. The clinical application of this tool requires further investigation and comparison to commonly used clinical techniques.

The mechanism of adverse tissue reaction to implant derived cobalt and chromium is unknown. It is possible that only one of these metals, cobalt, plays critical role in the failure of MOM implant. Cobalt ions are known to stabilize hypoxia inducible factor (HIF) 1α, which is involved in inflammatory pathway involving upregulation of BNIP3, GLUT1, HO-1 and COX-2 genes. This study used human monocytic cell line U937 to test the cytotoxic and inflammatory response to cobalt and chromium in form of ions and nanoparticles (NP) at clinically relevant doses. MTT assay was used to assess cytotoxic potential of metals for up to 24 hours. Gene expression was studied using qPCR and protein expression using Western Blot technique. Inflammatory cytokine release was studied using ELISA assay. Cytotoxicity study showed similar toxicity cobalt NP throughout the range of concentration 5–100μg/ml. Stabilization of HIF1α protein was observed after stimulation with cobalt ions and NP. This resulted in upregulation of GLUT1, BNIP3, HO-1 and COX-2 genes. Stimulation caused increased release in TNFα and inhibition of IL-10. No significant release of IL-1β was observed. Stimulation with chromium ions or NP did not cause any changes in cell viability, stabilization of HIF or cytokine release profile. Chromium NP caused upregulation of COX-2 after 6 hours of exposure. These results indicate significant role of cobalt in the inflammatory process and its potential as the cause of failure of MOM implants.

There are several component position and design variables that increase the risk of edge loading and high wear in metal-on-metal hip resurfacing (MOM-HR). In this study we combined all of these variables to calculate the ‘contact patch to rim distance’ (CPRD) in patients undergoing revision of their MOM-HR. We then determined whether CPRD was more strongly correlated with component wear and blood metal ion levels, when compared to any other commonly reported clinical variable. This was a retrospective study of 168 consecutively collected MOM-HR retrieval cases. All relevant clinical data was documented, including pre-revision whole blood cobalt and chromium ion levels. Wear of the bearing surfaces was then measured using a roundness-measuring machine. We found four variables to be significantly (p < 0.05) correlated with component wear and blood metal ion levels: (1) cup inclination angle, (2) cup version angle, (3) arc of cover, and (4) CPRD. The correlations between CPRD and both wear and ion levels were significantly stronger than those seen with any other variable (all p < 0.0001). Our study has shown that CPRD is the best predictor of component wear and blood metal ion levels, and may therefore be a useful parameter to help determine those patients who are at risk of high wear and require more frequent clinical surveillance.

The poor outcome of large head metal on metal total hip replacements (LHMOMTHR) in the absence of abnormal articulating surface wear has focussed attention on the trunnion / taper interface. The RedLux ultra-precision 3D form profiler provides a novel indirect optical method to detect small changes in form and surface finish of the head taper as well as quantitative assessment of wear volume. This study aimed to assess and compare qualitatively tapers from small and large diameter MOMTHR's. Tapers from 3 retrieval groups were analysed. Group 1: 28mm CoCr heads from MOMTHRs (n=5); Group 2: Large diameter CoCr heads from LHMOMTHRs (n=5); Gp 3 (control): 28mm heads from metal on polyethylene (MOP) THRs; n=3). Clinical data on the retrievals was collated. RedLux profiling of tapers produced a taper angle and 3D surface maps. The taper angles were compared to those obtained using CMM measurements. There was no difference between groups in mean 12/14 taper angles or bearing surface volumetric and linear wear. Only LHMOMs showed transfer of pattern from stem trunnion to head taper, with clear demarcation of contact and damaged areas.3D surface mapping demonstrated wear patterns compatible with motion or deformations between taper and trunnion in the LHMOM group. These appearances were not seen in tapers from small diameter MOM and MOP THRs. Differences in appearance of the taper surface between poorly functioning LHMOMTHRs and well functioning MOP or MOM small diameter devices highlight an area of concern and potential contributor to the mode of early failure.

Material loss at the head-stem taper junction may contribute to the high early failure rates of stemmed large head metal-on-metal (LH-MOM) hip replacements. We sought to quantify both wear and corrosion and by doing so determine the main mechanism of material loss at the taper. This was a retrospective study of 78 patients having undergone revision of a LH-MOM hip replacement. All relevant clinical data was recorded. Corrosion was assessed using light microscopy and scanning electron microscopy, and graded according to a well-published classification system. We then measured the volumetric wear of the bearing and taper surfaces. Evidence of at least mild taper corrosion was seen in 90% cases, with 46% severely corroded. SEM confirmed the presence of corrosion debris, pits and fretting damage. However, volumetric wear of the taper surfaces was significantly lower than that of the bearing surfaces (p = 0.015). Our study supports corrosion as the predominant mechanism of material loss at the taper junction of LH-MOM hip replacements. Although the volume of material loss is low, the ionic products may be more biologically active compared to the particulate debris arising from the bearing surfaces.

It has been speculated that high wear at the head-stem taper may contribute to the high failure rates reported for stemmed large head metal-on-metal (LH-MOM) hips. In this study of 53 retrieved LH-MOM hip replacements, we sought to determine the relative contributions of the bearing and taper surfaces to the total wear volume. Prior to revision, we recorded the relevant clinical variables, including whole blood cobalt and chromium levels. Volumetric wear of the bearing surfaces was measured using a coordinate measuring machine and of the taper surfaces using a roundness measuring machine. The mean taper wear volume was lower than the combined bearing surface wear volume (p = 0.015). On average the taper contributed 32.9% of the total wear volume, and in only 28% cases was the taper wear volume greater than the bearing surface wear volume. Despite contributing less to the total material loss than the bearing surfaces, the head-stem taper junction remains an important source of implant-derived wear debris. Furthermore, material loss at the taper is likely to involve corrosion and it is possible that the material released may be more biologically active than that from the bearing surface.

Recent NICE guidance recommends use of a well proven cemented femoral stem for hip hemiarthroplasty in management of fractured neck of femur. The Exeter Trauma Stem (ETS) has been designed based on the well proven Exeter hip stem. It has a double taper polished stem design, proclaimed to share geometry and surface finish with the Exeter hip. This study investigated the surface finish of the two stems in order to investigate the hypothesis that they were different. Two ETS and two Exeter stems were examined using a profilometer with a sensitivity of one nanometer. Macroscopic visual inspection showed that the two Exeter stems had significantly smoother surface finish than the ETS stems. The roughness average (RA) values on the ETS stems were approximately an order of magnitude higher than those of the Exeter stems, mean of 0.235μm compared with 0.025μm (p<0.0001). This difference in surface finish has implications for the biomechanical functioning of the stem. Previous change of the Exeter stem to a matt surface-finish in 1976 resulted in a significant increase in stem failure rates and an understanding of the importance of the polished surface-finish in order to function within a taper-slip philosophy. By changing the surface finish in the ETS stem, longevity of the implant may similarly be affected. Clinical results have yet to be published demonstrating this. We recommend the manufacturer reconsiders the surface finish of the ETS stem to ensure it functions as well as the Exeter primary stem with which it shares a design philosophy.

Various authors have linked hypermobility at the trapeziometacarpal joint to future development of arthritis. When examining hypermobility, the anterior oblique ligament (AOL) and ulnar collateral ligament (UCL) are the two most important supporting structures. Literature suggests that reconstructive techniques to correct the hypermobility can prevent subsequent development of osteoarthritis. Eaton and Littler proposed a surgical technique to reconstruct the ligamentous support of this joint in 1973. This cadaveric biomechanical study aimed to evaluate the resultant effect on the mobility of the thumb metacarpal following this reconstructive technique. Seventeen cadaveric hands were prepared and strategically placed on a jig. Movements at the trapeziometacarpal joint were created artificially. Static digital photographs were taken with intact AOL and UCL at trapeziometacarpal joint (controls), for later comparison with those after sectioning of these ligaments and following Eaton-Littler reconstructive technique. The photographic records were analyzed using Scion.Image. Statistical analysis was performed using Minitab. A paired T-test was used to establish statistical relevance. Results confirmed that the AOL and UCL had a major role in limiting excessive motion at the trapeziometacarpal joint, principally in extension. Division of these ligaments produced a significant degree of subluxation of the metacarpal at this joint with thumb in neutral position (p-value = 0.013). Reconstruction of the ligamentous support using the Eaton-Littler technique reduced the degree of extension available (p-value = 0.005). This study confirmed the important role of the AOL and UCL in maintaining trapeziometacarpal joint stability, and that the Eaton-Littler reconstructive technique reduces the degree of hyperextension at this joint.

Interbody fusion aims to treat painful disc disease by demobilising the spinal segment through the use of an interbody fusion device (IFD). Diminished contact area at the endplate interface raises the risk of device subsidence, particularly in osteoporosis patients. The aim of the study was to ascertain whether vertebral body (VB) cement augmentation would reduce IFD subsidence following dynamic loading. Twenty-four human two-vertebra motion segments (T6–T11) were implanted with an IFD and distributed into three groups; a control with no cement augmentation; a second with PMMA augmentation; and a third group with calcium phosphate (CP) cement augmentation. Dynamic cyclic compression was applied at 1Hz for 24 hours in a specimen specific manner. Subsidence magnitude was calculated from pre and post-test micro-CT scans. The inferior VB analysis showed significantly increased subsidence in the control group (5.0±3.7mm) over both PMMA (1.6±1.5mm, p=.034) and CP (1.0±1.1mm, p=.010) cohorts. Subsidence in the superior VB to the index level showed no significant differences (control 1.6±3.0mm, PMMA 2.1±1.5mm, CP 2.2±1.2mm, p=.811). In the control group, the majority of subsidence occurred in the lower VB with the upper VB displaying little or no subsidence, which reflects the weaker nature of the superior endplate. Subsidence was significantly reduced in the lower VB when both levels were reinforced regardless of cement type. Both PMMA and CP cement augmentation significantly affected IFD subsidence by increasing VB strength within the motion segment, indicating that this may be a useful method for widening indications for surgical interventions in osteoporotic patients.

The internal fixation of osteochondral fragments in fractures normally utilizes intra-articular screws inserted through a pilot hole drilled into cartilage/bone. This trauma causes cartilage injury leading to chondrocyte death. We have quantified the cell death following cartilage drilling and identified irrigation conditions that can protect chondrocytes. Articular cartilage of bovine metacarpophalangeal joints of 3yr-old cows was irrigated in the presence/absence of saline of various compositions. Holes were then made using a standard 1.5mm drill (Ortho Solutions Ltd.) at 18,000 rpm through the articular cartilage into bone. Osteochondral explants were then harvested and cultured in Dulbecco's Modified Eagle's Medium containing chloromethylfluorescein-di-acetate and propidium iodide (10uM each), to label living chondrocytes green and dead cells red, respectively. Axial images were taken by confocal microscopy and the width of the zone of cell death (ZCD) around the hole determined. With no irrigation, new drills caused a ZCD of 171±25um, which was increased when drills used 50+ times were tested (279±31um;p=0.03). With saline irrigation, the ZCD was reduced for old drills (150±6um;p=0.016) but not for new drills (124±8um) suggesting the heating effect of the old drills caused additional chondrocyte death. However for new drills, the ZCD was further reduced significantly to 82±7um when the osmolarity of the saline irrigation solution was raised to 480mOsm using sucrose. Data are mean±s.e.m., from at least 5 separate experiments each with a minimum of 3 replicates. The results demonstrate a chondroprotective effect of raising the osmolarity of saline used during drilling of cartilage which could be clinically beneficial.

The potential of cells derived from human umbilical cord(UC) for orthopaedic cell engineering is evaluated by dissecting the UC into four distinct anatomical structures – cord lining (CL), Wharton's Jelly (WJ), umbilical cord artery (UCA) and umbilical cord vein (UCV). Cells from individual anatomical layers were grown by explant culture technique for 21 days. Tri-lineage differentiation and growth kinetics of cells from each layer were compared. Flowcytometry was done according to ISCT criteria to ascertain their surface antigen expressions. Cells from all four layers differentiated into bone, cartilage and fat. Osteogenic and chondrogenic differentiation was variable for each type of cells. All cells expressed surface antigens characteristic of mesenchymal stem cells (MSC). These cells can form a potential cell source in cell engineering to produce bone and cartilage although individual cell type needs to be characterised from each anatomical layer of UC and identify the best cell type for cell engineering.

The Royal National Orthopaedic Hospital has completed an extensive trial of ACI versus MACI in the treatment of symptomatic osteochondral defects of the knee. A new technique has now been proposed which is quicker and easier to perform. This is the Gel-Type Autologous Chondrocyte Transplantation, CHONDRONTM. At Stanmore CHONDRON has been used for the past 17 months. Our aim was to assess the short term functional outcome of patients who have undergone CHONDRONTM using validated outcome scoring questionnaires. We retrospectively reviewed the notes of 43 patients that had undergone CHONDRONTM over one year ago and scored them using the Modified Cincinnati Score, the Visual Analogue Score and the Benltey Stanmore Functional Rating Score.

The aim of this study was to evaluate the role of peripheral blood derived mononucleated cells (PBMC) in osteochondral repair. We compared the healing of a critical size osteochondral defect in the medial femoral condyle and lateral trochlear sulcus in an ovine model.

hMSC cultures were prepared from osteoarthritic patients. Silicone elastomer (PDMS) culture surfaces of varying degrees of stiffness (1:10, 1:30 and 1:50 PDMS, tissue culture plastic and glass) were investigated in isolation and in combination with differentiation media. CD marker expressions of ‘stemness’ were investigated. RNA expression changes in OA-hMSCs and non-OA-hMSCs were also investigated for a panel of genes (inclusive of ‘stemness-’ and osteogenic-linked genes, FKBP5 and osteomodulin).

Most cases of tendinopathy are believed to be overuse injuries rather than the result of a chronic event. The investigation of the fatigue properties of tendon is therefore of critical importance. This work considered the cyclic stress-relaxation and creep behaviour of two contrasting bovine tendon types – the largely postional digital extensor and the more energy storing deep digital flexor tendon. Fascicles were cyclically loaded (1Hz), to 1800 cycles of stress relaxation or to failure in creep, stopping some tests at 300, 900 or 1200 cycles to perform quasi-static failure tests or confocal imaging using a highly concentrated Acridine Orange solution. Creep tests were cycled to 60% of the ultimate tensile strength (UTS), while for stress relaxation, cyclic deformation to the strain associated with 60% UTS was used. Flexor tendon fascicles were found to exhibit reduced stress relaxation at all time points compared to the extensor fascicles and also showed an increase in the mean cycles to failure during creep testing. Evidence of fatigue damage was clear in the confocal images with breakdown of the collagen fibre alignment evident from 300 cycles; however it appears that some damage could occur without effect on the UTS of the fascicle. Despite what appears to be superior fatigue resistance in the flexor tendon fascicles, the matrix damage, certainly at early time points, appeared visually to be as severe as that observed with the extensor tendon fascicles.

We have demonstrated that toxins produced by Staphylococcus aureus, a common infective agent in septic arthritis (SA), cause rapid in situ chondrocyte death. Here, we have compared the sensitivity of chondrocytes within the superficial and deep zones (SZ, DZ) of cartilage to the same toxins. Culture medium containing the toxins produced by S. aureus strain 8325-4, which include alpha-, beta-, and gamma-toxin, was prepared. Cartilage explants free of subchondral bone were taken from the metacarpophalangeal joints of 3-year-old cows, and incubated (37°C) with the toxins. Explants were stained after 6hrs with chloromethylfluorescein-di-acetate and propidium iodide, labelling living chondrocytes green and dead cells red, respectively. Full-thickness coronal sections were imaged by confocal microscopy and the percentage cell death within the SZ (100μm from articular surface) and DZ (100μm from subchondral bone interface) determined. Both zones were incubated with the same toxin culture medium for the same time period. At 0hrs, chondrocytes within all zones were >98% viable. However, after incubation with toxin-containing culture medium for 6hrs, 71.9+/−11.2% of the SZ cells were dead compared to only 47.4+/−6.7% in the DZ (p=0.03;data are means+/−SEM;N=4). These results suggest that SZ chondrocytes are considerably more sensitive to S. aureus toxins than those within deeper zones. As SZ chondrocytes are close to the synovial fluid harbouring bacterial toxins, these data emphasise the need to remove bacteria and their products aggressively as part of the treatment of SA. IDMS was supported by Orthopaedic Research UK and The Royal College of Surgeons of Edinburgh.

Gathering reliable information about joint movement during activities of daily living is of clinical interest. Here we present pilot data regarding a new wearable knee joint sensing system by comparing the outcomes of this device to a gold standard. Initial results show a complex, but repetitive pattern. These outcomes generate potential for future work.

Demographics changes and the increasing incidence of metastatic bone disease are driving the significant issues of vertebral body (VB) fractures as an important consideration in the quality of life of the elderly. Whilst osteoporotic vertebral fractures have been widely studies both clinically and biomechanically, those fractures arising from metastatic infiltration in the spine are relatively poorly understood. Biomechanical in-vitro assessment of these structurally weaker specimens is an important methodology for gaining an understanding of the mechanics of such fractures in which a key aspect is the development of methodologies for predicting the failure load. Here we report on a method to predict the vertebral strength by combining computed tomography assessment with an engineering beam theory as an alternative to more complex finite element analyses and its verification within a laboratory scenario. Ninety-two human vertebral bodies with 3 different pathologies: osteoporosis, multiple myeloma (MM) and specimens containing cancer metastases were loaded using a define protocol and the failure loads recorded. Analysis of the resulting data demonstrated that the mean difference between predicted and experimental failure loads was 0.25kN, 0.41kN and 0.79 kN, with adjunct correlation coefficients of 0.93, 0.64 and 0.79 for osteoporotic, metastatic and MM VBs, respectively. Issues in predicting vertebral fracture arise from extra-vertebral bony formations which add to vertebral strength in osteoporotic VB but are structurally incompetent in metastatic disease. The methodology is currently used in providing better experimental design/benchmarking within in-vitro investigations together with further exploration of its utility in the clinical arena.

Repair of tendon injuries aims to restore length, mechanical strength and function. We hypothesise that Demineralised Cortical Bone (DCB) present in biological tendon environment will result in remodelling of the DCB into ligament tissue. A cadaveric study was carried out to optimize the technique. The distal 1cm of the patellar tendon was excised and DCB was used to bridge the defect. 4 models were examined, Model-1: one anchor, Model-2: 2 anchors, Model-3: 2 anchors with double looped off-loading thread, Model-4: 2 anchors with 3 threads off-loading loop. 6 mature sheep undergone surgical resection of the distal 1cm of the right patellar tendon. Repair was done using DCB with 2 anchors. Immediate mobilisation was allowed, animals were sacrificed at 12 weeks. Force plate assessments were done at weeks 3, 6, 9 and 12. Radiographs were taken and pQCT scan was done prior to histological analysis. In the cadaveric study, the median failure force for the 4 models; 250N, 290N, 767N and 934N respectively. In the animal study, none of the specimens showed evidence of ossification of the DCB. One animal failed to show satisfactory progress, X-rays showed patella alta, on specimen retrieval there was no damage to the DCB and sutures and no evidence of anchor pullout. Functional weight bearing was 79% at week12. Histological analysis proved remodelling of the collagen leading to ligamentisation of the DCB. Results prove that DCB can be used as biological tendon substitute, combined with the use of suture bone anchor early mobilisation can be achieved.

Treatment of tendon and ligament injuries remains challenging; the aim is to find a biocompatible substance with mechanical and structural properties that replicate those of normal tendon and ligament. We examined the mechanical properties of Demineralised Cortical Bone (DCB) after gamma irradiation (GI) and freeze drying (FD). We also used different techniques for repairing bone-tendon-bone with DCB in order to measure the mechanical performance of the construct. DCB specimens were allocated into 4 groups; FD, GI, combination of both or none. The maximum tensile forces and stresses were measured. 4 cadaveric models of repair of 1cm patellar tendon defect using DCB were designed; model-1 using one bone anchor, Model-2 using 2 bone anchors, Model-3 off-loading by continuous thread looped twice through bony tunnels, Model-4 off-loading with 3 hand braided threads. Force to failure and mode were recorded for each sample. FD groups results were statistically higher (p=<0.05) compared to non-FD groups, while there was no statistical difference between GI and non-GI groups. The median failure force for model-1: 250N, model-2: 290N, model-3: 767N and model-4: 934N. There was no statistical significance between model-1 and model-2 (p=0.249), however statistical significance was found between other models (p=<0.006). GI has no significant effect on mechanical strength of the CDB while FD may have positive effect on its mechanical strength. Our study shows that a tendon rupture can be successfully augmented with CDB giving initial appropriate mechanical strength suitable for in vivo use providing the biological reactions to the graft are favourable.

Staphylococcus aureus is a highly virulent pathogen and implicated in approximately 50% of cases of septic arthritis. Studies investigating other S. aureus-related infections suggest that alpha-(Hla), beta-(Hlb) and gamma-(Hlg) toxins are key virulence factors, with the ‘pore-forming’ alpha-toxin considered the most potent. Here, we have assessed the influence of alpha-toxin alone on in situ chondrocyte viability. Osteochondral explants were harvested from the metacarpophalangeal joints of 3-year-old cows and cultured in Dulbecco's Modified Eagle's Medium. The flasks were then inoculated with isogenic ‘knockout’ strains of S. aureus: DU5946 (Hla+Hlb-Hlg-: alpha-toxin only strain) or DU1090 (Hla-Hlb+Hlg+: beta- and gamma-toxin only strain). Explants were incubated (37°C) and stained after 18, 24 and 40hrs with chloromethylfluorescein-di-acetate and propidium iodide, labelling living chondrocytes green and dead cells red, respectively. Axial sections were imaged by confocal microscopy and the percentage cell death determined. Alpha-toxin-producing S. aureus caused 24.8+/−3.7% chondrocyte death at 18hrs and 44.6+/−7.2% death at 24hrs. At 40hrs, there was significantly more chondrocyte death (87.4+/−3.6%;p<0.001) compared to the alpha-toxin knockout strain, which was negligible (4.1+/−1.7%; means+/−SEM; N=4 independent experiments). In this in vitro bovine cartilage explant model, whereby the effects of defined toxins were determined in isolation of a complex host immune response, in situ chondrocyte viability was dramatically and exclusively reduced by alpha-toxin. This work forms the basis for developing a rational treatment to reduce the extent of cartilage destruction during an episode of septic arthritis. IDMS was supported by Orthopaedic Research UK and The Royal College of Surgeons of Edinburgh.

Late infection is the most frequent complications after hemiarthroplasty. Urinary tract infections are the only distant septic focus considered to be a risk factor in the literature. We retrospectively reviewed 460 patients with hip fracture treated by hemiarthroplasy over a period of one year. Preoperative positive urine dipsticks and urine analysis have been looked at as causes for delay of surgery in absence of clinical manifestations of urinary tract infection. 367 patients were operated within 24 hours. 78 patients were delayed more than 78 hours. Urinary tract infection had the least contribution as a cause of delay. 99 patients had preoperative urinary tract infection and 57 patients had postoperative wound infection. Of these with postoperative surgical site infection, 31 patients did not show any evidence of preoperative urinary tract infection, 23 patients had preoperative urinary tract infection, two had leg ulcer and one had chest infection. 13 patients had chronic urinary tract infection and five patients had the same causative organism in urine & wound. The most common organisms of urinary infection are E. Coli, mixed growth, Enteroccocus Faecalis, Pseudomonas and others. The most causative organism of the postoperative surgical site infection are Staph aureus including MRSA, mixed growth including Staph. Epidermidis, Enteroccocus Faecalis and others There is no direct significant correlation between preoperative urinary tract infection and surgical site infection. We recommend that preoperative urinary tract infection should be treated as a matter of urgency but it should not delay hip fracture surgery unless it is causing symptoms.

Human mesenchymal stem cells (hMSCs) have the capacity to differentiate into adipocytes, chondrocytes, or osteoblasts, and are an exciting tool to be used in regenerative medicine and surgery. By manipulating the surface structure and physical properties of a biomaterial on which hMSCs can be incorporated, the biological response of these cells at the implant site can be controlled. Whilst both topography and surface stiffness are known to influence differentiation of hMSC's, little is understood of the molecular mechanisms that underpin these responses. In this study we use immunofluorescence and confocal microscopy techniques to assess the change in both the abundance and the distribution of H3K9me2 or H3K9ac patterns in hMSCs cultured on materials with controlled topography and stiffness, under basal and osteogenic conditions. These data demonstrate that levels and localisation of both H3K9me2 and H3K9ac alter in hMSCs cultured on the different substrates and that these surfaces dictate the response to osteogenic stimuli, suggesting that the control of cytoskeletal structure can be linked to chromatin activity. This regulation of histone modification by MSC interaction with the surrounding scaffold provides not only a mechanistic link to the control of cell fate but also the opportunity to design biomaterials that better influence cell activity.

There is little doubt that serotonin influences bone biology. Bone loss in elderly patients on long-term selective serotonin receptor inhibitor (SSRI) or tricyclic (TCA) anti-depressant (AD) medication is considered to be secondary to a more sedentary lifestyle. However, a recent report suggested that in mice treated with SSRIs or TCAs the disturbances in normal bone mass was unrelated to the activity levels of the animal (Warden 2010). This could imply that psychoactive agents have a direct effect on normal bone cell metabolism. We have tested this hypothesis in vitro. Two SSRIs (fluoxetine hydrochloride (FLU) and citalopram hydrobromide (CIT)) and two TCAs (amitriptyline hydrochloride (AMI) and clomipramine hydrochloride (CLO)) in various doses at, above and below serum levels in treated patients (0.06μM–10μM) were added to rat osteoblast-like UMR106 cells and the effect on cell proliferation (DNA content per well) and alkaline phosphatase (AlkP) activity (soluble reaction product) assessed. After 72 hours treatment with SSRI or TCA (0.6μM), there was significant reduction in AlkP activity. DNA content was significantly reduced in all cases, except FLU. These data demonstrate a direct effect of ADs on bone cell behaviour.

TGF-beta signaling has a well established role not only in adult organ homeostasis but also in skeletal development. Follistatin-like 3 (FSTL3), related to follistatin, is an inhibitor of TGF-beta ligands, with an established role in glucose and fat metabolism. However it has not previously been studied in skeletal development. Using a FSTL3 knock-out (KO) mouse model we have studied both embryonic skeletal development and adult bone phenotypes. Staining for skeletal and cartilage markers during development shows acceleration of skeletal tissue differentiation, with an eventual normalization at E18.5 (which is just prior to birth). Acceleration of bone mineralization occurs during both endochondral and intramembranous ossification. Use of micro-CT imaging highlighted the development of a scoliosis in the KO animals, along with abnormal shape of cranium and cranial sutures. Further investigation of the cranial phenotype in adult KO mice reveals craniosynastosis, with atypical fusion of the frontal suture. These mice have a change in overall cranial shape with shortening of the anterior head and a compensatory expansion of the posterior cranial bones, in a similar fashion to brachyencephaly. Our study therefore highlights a significant role of FSTL3 in skeletal tissue development and mineralization, as well as the development of clinically significant skeletal developmental disorders such as scoliosis, craniosynastosis and brachyencephaly.

Degree of early integration of titanium alloy implants into bone is an important predictor of long term implant success in arthroplasty. The correlation between observations on early cell adhesion and the ability of modified surfaces to affect osseointegration of implants in in vivo models is unclear. We hypothesised that observation of increased focal adhesion complexes in early cultures of osteoblasts would correlate with increased osseointegration of treated implants in an animal model. Longer term culture of rat osteoblasts for alkaline phosphatase activity indicated that cells cultured on the 9V treated surfaces were displaying greater alkaline phosphatase activity at 14 days. Bone nodule formation at 28 days demonstrated a trend towards smaller area of bone nodules on the surfaces treated at 9V then those treated at 3V and 5V. A rat model was employed for testing mechanical push-out strength of experimental implants and demonstrated a trend towards increased yield strength of the bone-implant interface for implants treated at 3V180s and 5V180s. Histomorphometry was performed and no statistically significant differences in percentage area of contact with mineralised bone matrix were seen, although there was a trend for greater mineralised matrix contact on the polished and 9V180s treated implants. Previous experiments demonstrated cells on the 9V treated surfaces were well spread and had significantly increased size and number of focal adhesions. This was regarded as indicating more successful cell adhesion. The above results demonstrate that this early trend disappeared in longer term culture did not persist in experiments in an animal model.

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.

Osteoarthritis is associated with changes to the matrix composition of subchondral bone. Raman spectroscopy has the potential to detect in vivo the molecular changes in osteoarthritic subchondral bone. The objectives were to determine the levels of mineralisation, carbonate accumulation and bone remodelling in osteoarthritic subchondral bone, which we defined as within 3mm of articular cartilage. This was compared to the proximal-compartment (10mm distal to articular cartilage) and the head-neck junction. Five osteoarthritic (average age: 76 years) and five normal cadaveric femoral heads (average age: 72 years) were scanned using peripheral quantitative computed tomography and then sectioned coronally. Raman spectroscopy was then used to scan the femoral heads. All scans were done in the plane of the longitudinal axis of the diaphysis. Cores were subsequently extracted and sodium dodecyl sulphate polyacrylamide gel electrophoresis performed to determine the levels of homotrimeric collagen. The phosphate-to-amide I ratio, from the Raman spectra, in osteoarthritic subchondral bone was significantly greater than controls (p=0.023). Within osteoarthritic specimens, the phosphate-to-amide I ratio increased proximally. The density in osteoarthritic subchondral bone was 89mg/cm3 higher than controls (p=0.022), and 494mg/cm3 higher than the osteoarthritic proximal-compartment (p<0.001). Moreover, carbonate substitution into the apatite crystals decreased in osteoarthritic specimens. The carbonate-to-amide I ratio was highest in osteoarthritic subchondral bone. Furthermore, the median α1-to-α2-chain ratio in osteoarthritic specimens was 2:1. The changes found in subchondral bone are important in the pathogenesis of osteoarthritis. This study shows that Raman spectroscopy can detect differences between osteoarthritic specimens and controls, further supporting its potential use in diagnosing bone disorders.

Osteoarthritis (OA) is a common, debilitating joint disease involving degeneration of cartilage and bone. It has been suggested that subtle changes in the molecular structure of subchondral bone may precede cartilaginous changes in the osteoarthritic joint. To explore these changes Raman spectroscopy was employed as a diagnostic tool. Raman spectroscopy measures inelastic scattered laser light produced when photons interact with chemical materials. Resultant changes in wavelength form spectra relative to the chemical composition of the given sample: with bone this includes the mineral and matrix components, unlike conventional X-rays. The aim of our study is to explore the hypothesis: Changes in matrix composition of osteoarthritic subchondral bone can be detected with Raman spectroscopy. pQCT and Raman spectroscopy were employed to determine the bone mineral density (BMD) and bone quality, respectively. Ten medial compartment OA and five control (non-OA) tibial plateaus were interrogated and analysis performed to compare OA to control, and medial to lateral compartments. The subchondral bone of the medial OA compartments had higher BMD (p=0.05) and thickness compared to lateral and control samples. Spectral analysis revealed there is no difference between the medial and lateral compartments within either cohort. However, there is a statistically significant (p=0.02) spectral difference between the OA and control specimens. The detection of bone matrix changes in osteoarthritis using Raman spectroscopy contributes to the understanding of the biochemical signature of subchondral bone across diseased and control tibial plateaus. This technique has potential to shed light on the role of bone in osteoarthritis.

In macroscopically-normal and early degenerate human articular cartilage, chondrocytes often exhibit increased volume and abnormal morphology with cytoplasmic processes. With further degeneration, chondrocyte clusters are a characteristic feature. These changes can influence matrix metabolism leading to matrix loss and predisposition to osteoarthritis (OA). Here, we report that articular chondrocytes cultured in a weak 3D agarose gel develop some of the morphological changes observed in degenerate cartilage. Cells were isolated from bovine metacarpal-phalangeal joints using collagenase. Gels were prepared with agarose (2% or 0.2% (v/v)) and cultured for 7 days (Dulbecco's modified Eagle's medium;37superscriptC;pH7.4;fetal calf serum (FCS; 1–10%)). Cells were fluorescently-labelled and volume/morphology examined by confocal microscopy. After one week of culture, chondrocytes in 2% gels (10% FCS) were mostly spheroidal; only 18.5±1% cells exhibited fine processes and 42.5±0.1% formed small clusters. However, in weak (0.2%) gels 66.9±1.3% (P=0.011) of chondrocytes had processes with lengths 7–63μm and 80.8±0.2% (P<.005) formed large clusters. In the weak gel after seven days, increasing FCS concentration markedly elevated the %age of chondrocytes in clusters from 31.1±0.2% in 1% FCS, to 87.3±0.27% in 10% FCS (P⊖.05). (Data from a minimum of three separate experiments at each condition with at least three replicates). These results suggest some similarities between the morphological changes to chondrocytes with OA development and those observed in weak agarose gels. The increased prevalence of abnormal chondrocytes with raised FCS concentration suggests that action of e.g. growth factors on chondrocytes is a more potent controller of cell shape than the strength of agarose.

Controlled differentiation of Human mesenchymal stem cells (hMSCs) is required for timely induction of bone growth in implantable biomaterials. Differentiation of hMSCs towards a particular lineage depends upon their microenvironment, which is a complex mixture of various physical, chemical and biological parameters. The role of Bone morphogenic protein (BMP2) in early induction of bone formation is well established. Clinical experience and in vitro study has shown that presentation of this protein in small quantities by surface immobilisation significantly induces osteogenic differentiation compared to large quantities provided in solution. This project focuses on developing and understanding responsive micro/nano porous interfaces which deliver BMP2 in a dose dependent fashion to control osteogenic diffentiation of hMSCs. We hypothesise that use of porous membranes primed with LbL deposition of biomacromolecules such as COL and HA will help in induction of cell attachment and growth whilst controlled and localised delivery of BMP2 released from the layers of these porous constructs will induce sustained differentiation of hMSCs. By controlling pore size of membranes, rate of release of BMP2 can be controlled. We use fluorescently labelled Dextran (Flu-DEX) as model protein to study control release mechanism, which is of similar size to BMP2. Polycarbonate (PC) track etched membranes with various pore sizes were used for LbL assembly of COL/HA/Flu-DEX along with hydrolytically degradable polymer Poly-Beta amino ester (Poly2). Six bilayers were constructed into porous membranes with (COL-Flu-DEX)6 and (Poly2-Flu-DEX)6. Use of hydrolytically degradable polymer significantly enhances release of Flu-DEX compared to control (COL-Flu-DEX)6 assembly. Compared to flat (non porous) surface, release from porous samples maintained a relatively slow and steady release. We are currently investigating release of BMP2 using this approach and their influence on the differentiation of hMSCs in vitro

The cartilage diseases such as osteoarthritis and chondral injuries are considered irreversible and the result of recent treatments remains not optimal. One of the reasons is due to the poor understanding of chondrocyte behaviours. To understand more about cartilage, we designed a series of novel experiments. First, a total joint of bovine metatarsophalanges was isolated as our novel model. We chose it because the configuration and the healing potential were similar to human, and many variables of large animal studies could be controlled in laboratory. The model not only provided a good ex vivo platform for cartilage researches but also connected in vitro cellular studies and in vivo animal studies. To mimic joint movement a special driving machine was designed. To characterise the novel model viabilities of chondrocytes and contents of sulphated glycosaminoglycan (GAGs) in extracellular matrixes were measured every seven days. The preliminary results revealed the viabilities of chondrocytes remained above 80% alive in the middle zone after four-weeks culture. The GAGs contents decreased after this culturing period. The experiments still carry on going to compare the static and dynamic models which joint movement could be a determinative factor to the viability of chondrocytes. Cellular treatment is the recent mainstream for cartilage diseases. If advanced knowledge in chondrocyte behaviours could be obtained from this model, development of optimal treatment will be possible in the future.

Wear of polymeric glenoid components has been identified as a cause of loosening and failure of shoulder implants1,2 in vivo. A small number of shoulder joint simulators have been built for in vitro wear testing, however none have been capable of testing with physiological motion patterns in three axes and with physiological loading. The Newcastle Shoulder Wear Simulator was designed with three axes of motion, which are programmable so that different activities of daily living might be replicated. The simulator uses three pneumatic cylinders with integral position encoders to move five shoulder prostheses simultaneously in the flexion-extension, abduction-adduction, and internal-external rotation axes. Axial loading is applied with pneumatic cylinders supplied from a pneumatic proportional valve via a manifold, which also supplies a sixth static control station. In order to establish if that the machine can actually perform as intended, commissioning trials were conducted replicating lifting a 0.5 Kg weight to head height as a daily living activity. During the commissioning trials JRI Orthopaedics Reverse VAIOS shoulder prostheses were tested in 50% bovine serum at ambient temperature. The results show that the shoulder joint wear simulator can satisfactorily reproduce a daily living activity deliberately selected for having a large range of motion and loading. Other daily activities, such as drinking from a mug, are less demanding in the ranges of motion and loading and represent no difficulty in being reproduced on the simulator. Now successfully commissioned, this new multi-station shoulder wear simulator can wear test current and new designs of shoulder prosthesis in vitro

Bone cutting produces heat which macroscopically leads to charring and the formation of bone dust. As part of a project to design a novel bone-cutting device, we studied the extent of histological thermal damage from different cutting blades. Three blades were used: a nineteenth century bone hacksaw, and modern sagittal saw blades manufactured by Ortho Solutions and Stryker. Sheep femurs were harvested from recently euthanised animals and cuts were made with these blades. Specimens were immediately stored in formaldehyde, decalcified, and stained with hematoxylin and eosin. The edge of the specimens was then photographed microscopically, and the images examined with Axiovision software (Carl Zeiss AG, Oberkochen, Germany). Visual examination allowed identification of live and dead osteocytes, and also to measure their depth from the surface. A minimal of 7 images was obtained per blade. The hacksaw specimens had the highest percentage of live osteocytes (n=214, 59.8%), and the shortest average depth where live osteocytes were located (169 μm, SD 78.15). In comparison, the percentage of live osteocytes for the Ortho Solutions (n=156, 17.4%) and Stryker (n=168, 29.5%) blades were much lower. The difference in average depths where live osteocytes were located was statistically significant between the three groups (p<0.001). In conclusion the hacksaw appeared to produce the least thermal damage histologically during cutting. The results reflect a relationship between certain features in cutting blade designs and the extent of thermal damage. Future experiments to monitor heat produced during cutting are planned.

The shape of the vertebral bodies from L1 to L4 was assessed from lateral dual-energy x-ray absorptiometry (DXA) images using an active shape model. The output from the model was compared to measurements of areal bone mineral density in L1 to L4 (aBMD) using a stepwise linear regression model. A significant relationship was found between aBMD and vertebral shape that suggests that the method may be useful for correcting artefacts such as osteophytes.

People with severe degenerative conditions, such as osteoarthritis (OA), have been shown to have altered movement patterns during sit-to-stand. However it remains unclear whether such alterations exist in people with early OA, in the absence of pain. This study aimed to determine if a novel seat could be used to discriminate people with early OA compared with controls. The sit-to-stand task was performed by 20 people with early medial knee OA and 20 age and gender-matched control subjects, using an instrumented seat. OA subjects showed altered weight distribution in the transition phase from sit to stand, in that they placed more load through their unaffected side. Task duration was also significantly longer for OA subjects. This study has demonstrated that a novel instrumented seat can be used to discriminate people with early medial knee OA during the sit-to-stand activity. These results may be relevant for early interventions to delay or prevent changes in muscle function of the affected limb as well as contralateral knee or hip osteoarthritis in these patients.

The light handle can be a major source of contamination in operation theatres where surgeries are prolonged and light handles need to be manipulated multiple times. The light handle by sheer size can obstruct laminar flow and cause eddy currents and can cause bacterial deposition on light handle which in turn can contaminate light handles. A study of light handle contamination was done from November 2010 to December 2010 at Blackpool Victoria hospital from swabs taken from light handles during preoperative, intra operative and post operative period from a single laminar flow operating theatre. A total of 40 cases were selected for study. Most of our cases were primary hip and knee replacement. The swabs were cultured into blood agar /mcconkey medium and incubated for 48 hours at 37 degree Celsius. None of the swabs showed any bacterial contamination which shows light handle is not a source of intraoperative contamination. Our trial gives a point estimate of 0% contamination rate, upper limit of the 95% confidence interval of the probability of contamination as 7.5%. we conclude that light handle is not a source of contamination in operation theatres and hence no need to change gloves every time we manipulate light handle.

In recent years, there has been an increase in using self- admistrated questionnaires to accurately assess intervention outcomes in hand surgery to determine the quality of healthcare. This study aims to evaluate whether the Manchester Modified Disabilities of the Arm, Shoulder and Hand (M2DASH) questionnaire is a valid, reliable, responsive, and unbiased outcome measure for Carpal Tunnel syndrome compared to the Disability of Arm, Shoulder, and Hand (DASH) questionnaire, Boston questionnaire (BQ), and Nerve Conduction Studies (NCS).

Tightrope fixation is known method for reconstructing acromioclavicular joint and the presence of good bone stock around the two drillholes is the most important determining factor for preventing failure.

We undertook a retrospective cohort study to determine if body mass index (BMI) is an independent factor in determining patient outcome following total hip replacement (THR). Outcomes were determined using the Oxford Hip Score, a questionnaire designed to evaluate self-reported function and pain levels in people with hip pain. We looked at all THRs carried out on patients with a BMI of ≥30 over a 38 month period (220 operations) and compared these with 220 randomly selected THRs carried out on patients with a BMI of <30 within the same 38 month period. For each case we recorded patient BMI, P score and Oxford scores. We calculated the difference between pre-operative and one-year post-operative Oxford hip scores. We used Kendall's rank correlation to assess any potential correlation between BMI and functional change, and the Mann-Whitney U test to establish if functional change between the groups was statistically significant. Our study indicates that BMI is not an independent factor in determining relative subjective functional change following THR. Although it showed that patients with a BMI of ≥30 have worse function both before and after THR, there was no statistically significant difference between the two groups in terms of functional change. We therefore suggest that patients with a higher BMI be considered candidates for THR as they can expect the same degree of functional improvement. Given the trend for increasing numbers of obese patients in the population these findings could have a significant impact on the future of THR operations.

Movement dysfunction resulting in a knee valgus position during weight bearing activity is associated with increased risk of Anterior Cruciate Ligament injury and Patellofemoral Pain Syndrome especially in young active females. In clinical practice determining the critical knee flexion angle (CKFA) during a single leg squat (SLS) test is used to assess this dysfunction, yet its reliability is unknown. This study aimed to determine rater agreement in determining the presence of knee valgus movement (yes/no) during a SLS test in recreational females (n = 16, age 24.3 ±7.9 yrs, height 165.7±4.8m, mass 62.5±6.4kg) and the intra and inter-rater reliability of measuring CKFA using SiliconCoach™. Three experienced physiotherapists viewed 48 randomised SLS test videos. One physiotherapist repeated the viewing for test-retest analysis. Test-retest agreement for rating SLS test was acceptable (weighted kappa (k) = 0.667). Inter-rater agreement was moderate to substantial (weighted k = 0.284–0.613). Intra-rater reliability of CKFA was acceptable for all three raters (ICC>0.6). Inter-rater absolute reliability was below 5% of the mean CKFA (SEM 4.26 degrees). As previous research reports intra-rater agreement is better than inter-rater agreement when assessing movement dysfunction during functional activity via visual rating. Intra-rater within session and between session reliability for measuring the CKFA using SiliconCoach™ was acceptable and better than inter-rater reliability. Further research is needed to assess the concurrent and construct validity of the protocols used in this study. It is recommended that qualitative research be performed to identify factors that affect physiotherapist's rating of functional activities.

The type, duration and intensity of exercise required to induce mechanical hypoalgesia is poorly defined. We are interested in identifying the exercise parameters required to induce raised pressure pain thresholds. This pilot study investigates the effect of indoor rowing on pressure pain threshold (PPT) in high performance rowers. Our ultimate aim is to investigate the potential of utilising exercise in the treatment of chronic pain and specifically in relation to the management of knee osteoarthritis. 20 high performance rowers (13M:7F; Mean Age 20.8 years; SD 1.74) were recruited from the University of Nottingham and Nottingham Boat Club high performance rowing teams under a research protocol approved by the University of Nottingham Ethics Committee. PPT measurements were made in triplicate using an algometer (SOMEDIC, Sweden) at the medial knee joint line, anterior tibia and sternum, pre- and post-exercise. Anthropomorphic and rowing ergometer power output data were also recorded. There was significant increase in PPT values at all sites following exercise (Medial joint line: 127.6Nm-2, 26%, p=0.001; Tibia: 110.8Nm-2, 24.7%, p<0.001; Sternum: 48.9Nm-2, 11.7%, p=0.005 – Wilcoxon Signed Rank) statistical power was 97.1%, 100% and 88.1%, respectively. PPT was greater at baseline at the medial joint line compared to other sites, reaching highly significant relative to the sternum (p<0.001). We determined that ten minutes of high intensity indoor rowing induced hypoalgesia in high performance rowers. Further research is required to investigate the detailed interplay between exercise and hypoalgesia, including its duration post exercise, to identify suitability for use in pain management strategies.

Axial musculoskeletal control (AMC) is a widely used concept and has been shown to be an important factor in physical performance, the pathophysiology of back pain and other MSK conditions. However, there is no agreement on a definition of AMC, nor a validated test for AMC and its application in clinical practice. Our aim was to develop a test for AMC using the Delphi method from a panel of experts with video and analysis of the footage. We found that the most commonly used tests were the maintenance of neutral pelvic position in single leg stance, single leg stance with eyes closed and single leg squat. We aim to further validate our findings by comparing this to surface EMG recordings and centre of gravity measurements in stress situations.

Failure of conservative treatment for tennis elbow is an indication for surgical decompression. The Topaz® technique utilises radiofrequency to decompress(detension) the tendon and in addition, it is thought to stimulate angiogenesis thereby facilitating healing. Initially we reviewed the three month follow up of 25 tennis elbow decompressions performed using the Topaz® technique. The case notes were reviewed and findings recorded on a structured proforma. After a minimum of 1 year we re-reviewed the case notes to identify recurrences or patients requiring revision surgery. The majority of patients were aged between 35–50 years. 87% of patients had symptoms for more than 12 months and symptoms experienced were mainly pain (100%). All patients had a full trial of physiotherapy and had minimum of two steroid injections. At three month follow up symptoms were completely relieved or improved in 88%. All patients were given an open appointment to review if symptoms recurred. On review of the notes after a minimum of one year, 84% had no further clinic attendances. Four elbows re-attended with symptom recurrence, two underwent traditional open release and two declined revision surgery. In the two patients who declined further surgery, symptoms had resolved at one year. The results of the Topaz® technique are comparable to that of the results of the traditional release from the literature both in terms of success and problems. It would be important to compare it to the traditional release to gauge its benefits against the standard practice.

Football player's performance during competitive matches greatly depends on fitness and training. The use of GPS (Global Positioning System) has been revolutionary in the monitoring of player intensity during training. The aim of the study was to investigate the difference in training intensity between defenders, midfielders and forwards and if injury sustained was directly related to the intensity of training. GPS (Catapult Minimax GPS 10Hz) was used to collect training data for a professional British football club playing in the Championship, for the year August 2011/April 2012. Each player wore a GPS unit during each training session and the raw data was logged. The GPS calculates the player load which is a measure of intensity of training. It is a summation of instantaneous change of forward, sideway and upward accelerations. Adjustments are made for match days and injuries according to a defined set of rules. A total player load was obtained for each month and at the end of the season. The different injuries sustained throughout the year were logged for each player. This study shows that there is a difference between the intensity of training in different groups of players. The midfielders trained at the highest intensity and, in this group of professional football players, defenders sustained the most injuries GPS technology allows monitoring of player intensity during training. The data obtained will guide training and fitness coaches model training for the individual group of players. This will prepare players for official matches and eventually may help predict and prevent injuries.

Hip arthroscopy is performed in a number of specialist centres throughout the UK with good results, no work has been published on the outcomes of hip arthroscopy in the District General Hospital setting. The early results from our prospective observational study show good outcomes in patients with femoro-acetabular impingement (FAI) and labral pathologies. To date we have follow-up data on 46 patients who have undergone hip arthroscopy with a mean follow-up period of 23 weeks. Of these patients 14 were male (30%) and 32 were female (70%) with a mean age of 36 years (16 to 62). Analysis of the data has shown a mean improvement in the Modified Harris Hip Score from 46.89 pre-operatively to 59.50 post-operatively (p<0.01) and a mean improvement in the Non-arthritic Hip Score from 47.38 pre-operatively to 66.74 post operatively (p<0.01). One of the patients has since undergone a total hip arthroplasty. There was one episode of minor wound infection treated successfully with oral antibiotics. There are been no cases of nerve injury or venous-thromboembolism. Our results demonstrate that hip arthroscopy can be provided safely in the DGH setting with good early functional outcomes.

250 words max Long polished cemented femoral stems, such as the Exeter Hip Revision stem, are one option available to the revision hip arthroplasty surgeon. When proximal bone stock is compromised, distal fixation is often relied upon for stability of the femoral component. In such circumstances, torsional forces can result in debonding and loosening. This study compared the torsional behaviour of a cemented polished and featureless (plain) stem with cemented, polished stems featuring fins or flutes. Nine torsional tests were carried out on each of these three different stem designs. The finned stem construct was significantly stiffer than the fluted stem (mean 24.5 Nm/deg v 17.5 Nm/deg). The plain stem mean stiffness was less than the featured stems (13 Nm/deg), but wide variability lead to no statistically significant difference. The maximum torque of the finned (30.5 Nm) and fluted stems (29 Nm) was significantly higher than the plain stem (10.5 Nm); with no significance to the difference between the finned and fluted stems. Distal stem features may provide a more reliable and greater resistance to torque in polished, cemented revision hip stems. Finned stem features may also increase the stiffness of the construct. Consideration should thus be given to the incorporation of distal stem features in the design of revision hip stems.