Introduction

Idiopathic scoliosis is a lateral curvature of the spine >10° as measured on a frontal plane radiograph by the Cobb angle. Important variables in assessing the risk of curve progression include a young age at presentation, female sex, a large amount of growth remaining, the rate of growth, the curve magnitude, and the curve location. Curves >20° have an inherently low risk of progression. Surgery is indicated for curves >50° or rapidly progressing curves. The timing of surgery is paramount in order to intervene in cases where rapid progression is evident to prevent further deterioration. There is a greater likelihood for more complex surgery to be required in major curves. At present, there are severe restrictions on resources to cater for patients with scoliosis. As a result, patients spend excessive periods on waiting lists prior to having their procedure. The aim of this study is to analyse the progression of curves of patients while on the waiting list and assess the cost implications of curve deterioration.

Introduction

Improvements in material properties of total joint prostheses and methods of fixation mean that arthroplasty is the most effective means of restoring mobility in osteoarthritic patients. Aseptic loosening is the major cause of long-term failure of prostheses. Cobalt particles may act directly on osteoblasts, decreasing bone formation and potentially playing a role in osteolysis and aseptic loosening.

Introduction: Definitions of surgical site infections are based on those of CDC, published in 1992. Infections that occur within 30 days of surgery are classified as:

Superficial – involves only the skin or subcutaneous tissue.

Between 2006 and 2008 the infection rates of the National Spinal Surgery Unit have been closely monitored as part of a multidisciplinary team approach led in large part by the Infection Control Team. A surveillance protocol was developed. They prospectively monitored every spinal surgery patient as part of a infection control data base. Biographical and medical history data were collated including diabetic status, prophylactic antibiotic use and surgical procedure. Information was collated and feedback on changes was examined by audit which was conducted regularly.

Methods: As part of the routine audit of the NSSU department a deep infection rate of 3.5% was noted in 2006. The infection control team set up a specific unit to co ordinate surveillance of NSSU. We describe simple and evidence based protocols for prophylactic antibiotic use in conjunction with the Pharmacy, Infection Control and Microbiology department was organised in running with international standards. Furthermore, surgical, nursing and paramedical staff, involved in the NSSU, were swabbed routinely. New rigid guidelines were introduced in theatre for draping patients including the addition of topical alcohol use and 8 minute minimum bethidine drying time.

Results: From 2006, deep infection rate was 3.5%. This was followed by a 2.49% in 2007 and 1.79% in 2008. Of note the deep infection rate in 2004 was 5.5% (2 years prior to implementation of Infection Control protocols).

Conclusions: The National Spinal Surgery Unit was able to decrease the deep infection rate by 51% over 3 years by the implementation of careful prospective surveillance by a multidisciplinary team involving an Infection Control team which monitored the NSSU prospectively as well as co-ordinating changes in the protocol of antibiotic use as well peri-operative sterile techniques. We describe simple protocols which can be easily used in other institutions to aid in the mitigation of deep spinal surgical infection.

Introduction: Despite a resurgence in cobalt-chromium metal-on-metal arthroplasty and hip resurfacing, the potential toxicity of cobalt ions in the periprosthetic area remains a cause for concern. Cytotoxic effects have been demonstrated in macrophages with cobalt ions inducing apoptosis and TNF-α secretion. A similar cytotoxic effect has been demonstrated in osteoblast-like cells. However, these studies assessed the acute cellular response to cobalt ions over 48 hours. To date, the effect on osteoblasts of chronic exposure to cobalt ions is unknown.

Aim: In this study we investigated the effect on osteoblasts of chronic exposure to cobalt ions. Specifically we investigated the chemokine response and effect on osteoblast function. We also investigated for a change in osteoblast phenotype to a less differentiated mesenchymal cell type.

Methods. Primary human osteoblasts were cultured and treated with cobalt (10ppm) over 21 days. Secreted chemokines (IL-8, MCP-1, TNF-α) were assayed using enzyme-linked immunosorbent assays (ELISA). Osteoblast function was assessed via alkaline phosphatase activity and calcium deposition. For a change in osteoblast phenotype, osteoblast gene expression was assessed using real time PCR. Immunoflourescent cell staining of actin filaments was used to examine for a change in osteoblast morphology.

Results: Chemokine (IL-8) secretion by osteoblasts was significantly increased after 7 days of stimulation with cobalt ions. In parallel with this, osteoblast function was also significantly inhibited as demonstrated by reduced alkaline phosphatase activity and calcium deposition. Regarding osteoblast phenotype, FSP-1, CTGF and TGF-β gene expression were upregulated after 7 days exposure indicating a transition in osteoblast phenotype to a less differentiated mesenchymal cell type. Immunoflourescent staining of actin filaments also showed a change in osteoblast morphology. Taken together, these data demonstrate cobalt ions induce a change in the osteoblast phenotype to that of a mesenchymal cell type. This is the first study to investigate osteoblast plasticity in the context of periprosthetic osteolysis.

Conclusion: After prolonged exposure to cobalt ions, IL-8 chemokine secretion is increased which attracts neutrophils to the periprosthetic area. Furthermore, osteoblasts no longer function as osteogenic cells as demonstrated by a decrease in osteoblast alkaline phosphatase activity and calcium deposition. Instead, they undergo transition to a mesenchymal cell type as demonstrated by an increase in the expression of genes associated with a mesenchymal cell lineage. Instead of secreting osteoid matrix the new cell type secretes unmineralized collagen. Cobalt ions are not benign and may play an important role in periprosthetic osteolysis by inducing osteoblasts to undergo transition to a less differentiated mesenchymal cell type.

Introduction: Quadriceps femoris (QF) atrophy has been associated with the development of knee OA and is a major cause of functional limitations in affected individuals. TKA reliably reduces pain but improvements in function are less predictable and deficits may persist for up to 2 years post-operatively. Patients undergoing elective surgery are routinely optimized medically but we hypothesized that pre-operative strength and fitness improvements would also enhance outcome.

Objectives: To determine the effect of a 6 week lower limb strengthening programme on post-operative QF strength and CSA, pain and functional scores.

To determine changes in Myosin Heavy Chain (MHC) isoform, hypertrophy marker IGF-1 and atrophy markers MuRF-1 and MAFbx.

Methods: 20 volunteers currently awaiting TKA were randomly assigned to a control [C] or intervention [I] group. [I] completed a 6 week home based, supervised exercise programme. Post-operatively all patients completed a standard inpatient physiotherapy routine.

Assessments were completed at baseline (T=0), T=6 weeks (just prior to operation) and 3 months post-operatively (T=18 weeks). Assessments included isokinetic dynamometry; MRI QF CSA and American Knee Society scores. A percutaneous muscle biopsy of the vastus lateralis muscle was also performed at T=0 and T=6 under local anaesthesia.

Results: At baseline there were no significant differences in parameters between groups. At T=18, [I] showed an 86% difference in QF peak torque above controls (P=0.003). CSA also improved by 6% versus a drop of 2.5% in [C] (P=0.041). Both groups showed improvements in Knee society function scores but [I] improved by 13 points more than [C] (P=0.044).

MHC IIa mRNA expression increased by 40% whilst IIx decreased by 60% representing a shift to a less fatigable fibre type (P=0.05 and 0.028 respectively). IGF-1, MuRF-1 and MAFbx mRNA levels did not change significantly in either group.

Conclusion: To our knowledge we have documented for the first time post-operative benefits by using a pre-operative training programme in TKA. This was manifest by continued rise in quadriceps peak torque, CSA and improved Knee society functional scores. We have also demonstrated the preservation of muscle plasticity in knee OA and suggest that factors other than known hypertrophy and atrophy pathways may be responsible.

Introduction: Despite a resurgence in cobalt-chromium metal-on-metal arthroplasty, the potential toxicity of metal ions in the periprosthetic area remains a cause for concern. Studies to date have assessed the acute effect of cobalt ions on osteoblasts over 48 hours. The aim of our study was to determine the response of osteoblasts to cobalt ions over a prolonged period of exposure.

Methods. Primary human osteoblasts were cultured and treated with cobalt (10ppm) over 21 days. Osteoblast function was assessed via alkaline phosphatase activity and calcium deposition. ELISA were used to assess chemokine (IL-8, MCP-1 and TNF-α) secretion. Osteoblast gene expression was assessed using microarray analysis and real time PCR. Immunoflourescent cell staining of actin filaments was used to examine osteoblast morphology.

Results: Chemokine (IL-8) secretion by osteoblasts was significantly increased after 10 days of stimulation with cobalt ions. In parallel with this, osteoblast function was also significantly inhibited as demonstrated by reduced alkaline phosphatase activity and calcium deposition. Regarding osteoblast phenotype, FSP-1, CTGF and TGF-β gene expression were upregulated indicating a transition in osteoblast phenotype. Immunoflourescent staining of actin filaments also showed a change in osteoblast morphology. Taken together, these data show cobalt ions induce a change in the osteoblast phenotype to that of a mesenchymal cell type.

Conclusion: After 10 days of treatment with cobalt ions, osteoblasts no longer function as osteogenic cells. they undergo transition to a mesenchymal cell type. Furthermore, IL-8 secretion is increased which attracts neutrophils to the periprosthetic area thereby contributing to the inflammatory response that characterises osteolysis.

Background: The advent of locking plates used in the treatment of fractures of the surgical neck of the humerus has led to an increased use of internal fixation for these injuries. At present there are few large studies which have evaluated their success and potential factors which may contribute to any negative result.

Materials and Methods: We retrospectively reviewed 57 consecutive patients who were treated with internal fixation of 2,3 and 4-part fractures of the proximal humerus over a 3 year period with a minimum follow-up of 6 months. The MacKenzie (antero-superior) approach was used in all cases and fixation was achieved using either the PHILOS or Arthrex locking plates. Patients were assessed by a thorough chart review and at regular post-operative clinics for pain, range of motion, return to work/activity, smoking and alcohol intake and overall compliance with rehabilitation regime. X-rays were graded on the quality of initial reduction and maintenance of position. Primary end-points included union of fracture and need for additional operative procedures.

Results: The average age of patients was 63 years (range 19–91) with a preponderance of women (29:18 female: male). Average follow-up was 8 months. Ten (18%) patients were classified as problem drinkers, and 13 (22%) were smokers. Four patients were initially treated by a trial of conservative management which later failed, necessitating surgical intervention. Fifty three fractures (93%) went on to achieve union within 6 months of injury. Nine patients (15%) required an additional operation: 5 conversions to hemiarthroplasty for pain relief and 4 removals of metal for loss of screw fixation or impingement. There was no increased need for re-operation in alcoholics, but there was a 50% increase in the need for additional operations in smokers.

Discussion: To our knowledge, this study represents the largest cohort of patients treated with a fixed-angle locking plate for a fracture of the surgical neck of humerus. The use of the locking plate has led to improved union rates and good functional outcomes in the treatment of these often problematic fractures. Although these fractures tend to occur more often in alcoholics, union rates and need for re-operation are not affected. Smoking is a significant a risk factor for the need for re-operation and non-union.

Aims: A retrospective review of all periacetabular osteotomies (PAO) performed at a general elective orthopaedic Hospital over a 7-year period. To assess the clinical, functional and radiographic outcome associated with PAO when introduced as a new procedure to a non-super-specialised regional centre.

Methods: A retrospective review of 85 PAOs performed on 79 patients at Cappagh Hospital between 1/4/1998 and 1/4/2005. The medical records and radiographic images of all patients were reviewed. Clinical follow-up evaluations were also performed.

Results: 85 PAOs were performed on 79 patients. Mean age at time of surgery was 22.9 years (range, 14–41 years) with an increased preponderance of females (F:M=10:1) and right sided hip involvement (R:L=1.1:1). The mean Merle D’Aubigne and Postel hip score increased from 12.4 (range 9–14) preoperatively to 16 (range 11–18) postoperatively (P< 0.0001). The average lateral center edge angle increased from 5° preoperatively to 26° postoperatively (P< 0.0001). The anterior center edge angle averaged 6.6° preoperatively and improved to 34.4° postoperatively (P < 0.0001). The acetabular index angle decreased from an average of 24.8° preoperatively to 8.4° postoperatively (P< 0.0001). At clinical follow-up, 77% of patients had no/mild pain, 30% of patients had a limp and 64% of patients were unlimited in physical activity.

Conclusions: The short term results in this group of patients treated with PAO show reliable radiographic correction of deformity and improved clinical scores. We suggest that PAO may safely be carried out at a non-super-specialized institution provided the surgeons have sufficient experience and patients are selected appropriately.

Wear debris is a key factor in the pathophysiology of aseptic loosening of orthopaedic endoprostheses. Cobalt-chromium-molybdenum (Co-CrMo) alloys are used for metal-metal hip implants due to their enhanced wear resistance profiles. Whilst these alloys have widespread clinical application, little is known about their direct effect on osteoblast biology. To address this issue, in this study we have investigated particle-mediated inflammation, as a putative mechanism of aseptic loosening. The effects of Co2+ ions on the bone cellular milieu were assessed in vitro by profiling of classical inflammatory mediators. The inflammatory driver PGE2 was quantified and found to be increased, following osteoblast stimulation with metal ions, suggesting the initiation of a local inflammatory response to metal particle exposure. To determine the biological import of this molecular event, the role of metal ions in recruiting inflammatory cells by chemokine production was assessed. These data demonstrated significant induction of the chemokines, IL-8 and MCP-1 following both 12 and 24 hour exposure to 10ppm of Co2+. In this study, we demonstrate that Co2+ particles can rapidly induce chemotactic cytokines, IL-8 and MCP-1 early stress-responsive chemokines that function in activation and chemotaxis of monocytes, and PGE2, which stimulates bone resorption. We have shown that this induction occurs at a transcriptional level with significantly increased mRNA levels. These data lend further weight to the hypothesis that wear mediated osteolysis, is due, at least in part, to underlying chronic inflammation.

The purpose of this study was to review the early results of a consecutive series of patients undergoing periac-etabular osteotomy (PAO) at Cappagh National Orthopaedic Hospital. The procedure was first carried out in 1998, and a total of 85 PAOs have been performed in 79 patients. The mean follow-up was 42 months (range 6-84 months). There were 72 females and 7 males with a mean age at the time of the operation of 22.9 years (range, 14-41 years). The preoperative diagnosis was developmental hip dysplasia in 80 hips, Legg-Calve-Perthes disease in one hip, congenital coxa vara in three hips, and slipped capital femoral epiphysis in one hip. The average Merle d’Aubigne score increased from 12.4 points preoperatively to 16 points at latest followup. The lateral center edge angle of Wiberg was between – 20 and +28 before surgery and was improved from 12 to 48 (average 30 degrees) following PAO. While, the anterior center edge angle of Lequesne and de Seze was between – 22 and +35 preoperatively and was improved by an average of 28 degrees (range, 17 – 40) postoperatively. The acetabular index angle decreased from an average of 24.8 preoperatively to 8.4 postoperatively. Clinical follow-up revealed that 77% of patients had no or mild pain, 33% of patients had a limp and 64% of patients were unlimited in physical activity, representing a markedly improved clinical outcome. Four patients underwent subsequent total hip arthroplasty. The short term results in this group of patients treated with PAO show reliable radiographic correction of deformity and improved clinical scores. The study reflects the learning curve associated with performing this procedure and the results that can be expected with a smaller clinical case-load than described in previous studies. We suggest that PAO may safely be carried out at a non-super-specialized institution provided the surgeons have sufficient experience and patients are selected appropriately.