Background

Supination-external rotation (SER) injuries make up 80% of all ankle fractures. SER stage 2 injuries (AITFL and Weber B) are considered stable. SER stage 3 injury includes disruption of the posterior malleolus (or PITFL). In SER stage 4 there is either medial malleolus fracture or deltoid injury too. SER 4 injuries have been considered unstable, requiring surgery. The deltoid ligament is a key component of ankle stability, but clinical tests to assess deltoid injury have low specificity. This study specifically investigates the role of the components of the deep deltoid ligament in SER ankle fractures.

Osteoporosis is a disease when bone mass and tissue is lost, with a consequent increase in bone fragility and increase susceptibility to develop fracture. The osteoporosis prevalence increases markedly with age, from 2% at 50 years to more than 25% at 80 years¹ in women. The vast majority of distal radius fractures (DRFs) can be considered fragility fractures. The DRF is usually the first medical presentation of these fractures. With an aging population, all fracture clinics should have embedded screening for bone health and falls risk. DRF is the commonest type of fracture in perimenopausal women and is associated with an increased risk of later non-wrist fracture of up to one in five in the subsequent decade².

According to the national guidelines in managing the fragility fractures of distal radius with regards the bone health review, we, as orthopedic surgeons, are responsible to detect the risky patients, refer them to the responsible team to perform the required investigations and offer the treatment.

We reviewed our local database (E-trauma) all cases of fracture distal radius retrospectively during the period from 01/08/2019 to 29/09/2019. We included total of 45 patients who have been managed conservatively and followed up in fracture clinic. Our inclusion criteria was: women aged 65 years and over, men aged 75 years and over with risk factors, patients who are more than 50 years old and sustained low energy trauma whatever the sex is or any patient who has major risk factor (current or frequent recent use of oral or systemic glucocorticoids, untreated premature menopause or previous fragility fracture).

We found that 96% of patients were 50 years old or more and 84% of the patients were females. 71% of patients were not referred to Osteoporosis clinic and 11% were already under the orthogeriatric care and 18% only were referred. Out of the 8 referred patients, 3 were referred on 1st appointment, 1 on the 3rd appointment, 1 on discharge from fracture clinic to GP again and 3 were without clear documentation of the time of referral.

We concluded that we as trust are not compliant to the national guidelines with regards the osteoporosis review for the DRF as one of the first common presentations of fragility fractures. We also found that the reason for that is that there is no definitive clear pathway for the referral in our local guidelines.

We recommended that the Osteoporosis clinic referral form needs to be available in the fracture clinic in an accessible place and needs to be filled by the doctor reviewing the patient in the fracture clinic in the 1st appointment. A liaison nurse also needs to ensure these forms have been filled and sent to the orthogeriatric team. Alternatively, we added a portal on our online database (e-trauma), therefore the patient who fulfils the criteria for bone health review should be referred to the orthogeriatric team to review.

Congenital talipes equinovarus (CTEV), also known as club foot or talipes is a common congenital disorder. Parents are using the Internet more and more as a source of information about health care. Unfortunately, the quality of health care information on the Internet varies. This study looked at information available to parents using two instruments for judging the equality of information on the internet. The top five search engines were searched on Google. Three of these were also included in the top 50 sites in Ireland so these 3 sites were used. The phrases CTEV and club foot were searched from all 3 platforms. Websites were then scrutinized using the HON code and the DISCERN tool. 54 organic sites were found for the 3 search engines using the key word club foot. For the key word CTEV 55 matches were returned for the three search engines. 4 websites displayed the HON code. Using the discern tool CTEV websites had a mean score of 60 with a standard deviation of 17. While club foot had a mean score of 56.8 with a standard deviation of 13. Max score 80. Large volumes of information are available to parents on the Internet. Often parents find comfort in sharing experiences and feel empowered by learning about their children's illnesses. However, information provided on the interned can also be ambiguous and disingenuous. Practitioners should be aware of a number of key websites that parents can be directed towards.

Innominate Osteotomy first described by Salter is one of the commonest procedures performed for treatment of Developmental Dysplasia of the Hip (DDH) in children. We recently described a less invasive technique for Innominate Osteotomy, which significantly reduces the operation time without compromising outcome (J Pediatr Orthop B. 2010 Jul;19(4):318–22). As part of the evolution of this procedure we now routinely use bioabsorbable pins (INION OTPS PIN, made from co-polymers of L-lactic acid, D-lactic acid and trimethylene carbonate) instead of K-wires to secure the graft.

We prospectively followed-up 120 consecutive cases done using bioabsorbale pins over a 2 year period. The surgical technique was as described in our less invasive innominate osteotomy paper. Average age at surgery was 24 months (18–52) with mean follow-up period of 15 months (6–24 months). The mean preoperative acetabular index was 36.2^o. Our results show a mean acetabular index of 18.7^o (P< 0.0001) at latest follow-up with no loss of correction. We recorded three superficial wound infections (one MRSA), all resolved uneventfully. There was no foreign body reaction.

The use of bioabsorbable pins eliminates the need for a second anaesthetic to remove the pins with significant cost benefit without compromising outcome.

Introduction

Trauma is the leading cause of death and disability in children. Pelvic fractures although rare, with a reported incidence of one per 100,000 children per year are 2^nd only to skull fractures with respect to morbidity. The objectives of this study were to improve understanding of paediatric pelvic fractures through a concise review of all aspects of these fractures and associated injuries. Understanding the patterns in which paediatric pelvic fractures and their associated injuries occur and the outcome of treatment is vital to the establishment of effective preventative, diagnostic and therapeutic interventions.

Hypothesis

Athletes significantly alter their lumbar spinal motion when performing squat lifting at heavy weights. This altered motion effects a change in pressure in the posterior annulus of lumbar discs.

Purpose: Biomaterial-related infections continue to hamper the success of reconstructive and arthroplasty procedures in orthopaedic surgery. Staphylococci are the most common etiologic agents, with biofilm formation representing a major virulence factor. Environmental stress factors and sub-inhibitory concentration of some antibiotics have been identified to trigger staphylococcal biofilm formation through increased icaADBC expression. In staphylococci, production of polysaccharide intercellular adhesin (PIA) by the enzyme products of the icaADBC operon is the best understood mechanism of biofilm development, making the ica genes a potential target for biofilm inhibitors. Aims of the current study were

Determine the minimum inhibitory concentration (MIC) of Povidone-iodine.

Method: MIC of povidone – iodine for both reference strains and strains isolated from infected orthopaedic implants was determined. Biofilm assay was performed at different Povidone-iodine concentrations using 96-well polystyrene plates. Total RNA for cDNA synthesis was isolated from bacteria at different twofold dilutions of Povidone-iodine concentrations. Real time polymerase chain reaction was used to quantify effects of Povidone-iodine on gene expression pattern of the icaADBC operon using the constitutively expressed gyrB gene as internal control

Results: The MIC of povidone-iodine was 1.4% for all bacterial strains. Clinical in-use doses of povidone-iodine prevented biofilm formation.

A step-wise reduction of biofilm was observed at increasing sub-inhibitory doses of povidone-iodine (p< 0.0001).

IcaA expression correlated with biofilm formation in staphylococcal organisms. Decrease in icaA expression was strongly associated with an increase in expression in the biofilm repressor gene, icaR.

The repressive effect of povidone-iodine on biofilm formation by Staphylococcal bacteria is by a separate mechanism from its bacteriostatic mechanism of action.

Conclusion: This study shows that icaR is a potential therapeutic target through which the ability of Staphylococcal bacterial to form biofilm may be reduced. These data reveal an additional therapeutic benefit of povidone-iodine and suggest that studies to evaluate the suitability of povidone-iodine as biomaterial coating agent to reduce device-related infection rates are merited.

Background: The success of the increasing number of arthroplasty, spinal instrumentation and other implanted orthopaedic devices is hampered by device-related infections. More than half of these infections are caused by staphylococcal biofilm mediated antibiotic resistance. The hope of preventing prosthetic joint infection by antibiotic loaded cement is threatened by emerging resistant organisms. No bacterial resistance to betadine has been reported.

Current intervention strategy is focussed on prevention of initial device colonisation and inhibition of genes encoding biofilm formation.

Aim:

Determine the minimum inhibitory concentration (MIC) of betadine.

Methods: MIC of betadine for both reference strains and strains isolated from infected orthopaedic implants was determined. Biofilm assay was performed at different betadine concentrations using 96-well polystyrene plates.

Total RNA for cDNA synthesis was isolated from bacterial at different twofold dilutions of betadine concentrations.

Real time polymerase chain reaction was used to quantify effects of betadine on gene expression pattern of the icaADBC operon using the constitutively expressed gyrB gene as internal control.

Bacterial was cultivated on polystyrene plates coated with different sub-inhibitory and clinical in-use doses of betadine to assess surface adherence.

Results: The MIC of betadine was 1.4% for all bacterial strains. Clinical in-use doses of betadine prevented biofilm formation.

A step-wise reduction of biofilm was observed at increasing sub-inhibitory doses of betadine (p< 0.0001).

IcaA expression correlated with biofilm formation in staphylococcal organisms. Decrease in icaA expression was strongly associated with an increase in expression in the biofilm repressor gene, icaR.

The repressive effect of betadine on biofilm formation by Staphylococcal bacteria is by a separate mechanism from its bacteriostatic mechanism of action.

Conclusion: This study shows that icaR is a potential therapeutic target through which the ability of Staphylococcal bacterial to form biofilm may be reduced. Sub-inhibitory dose of betadine inhibited biofilm formation.

Prevention of bacterial surface attachment as demonstrated by this study is suggestive that these compounds could be developed as a surface coating agents for orthopaedic implants.

Hypothesis: Athletes significantly alter their lumbar spinal motion when performing squat lifting at heavy weights. This altered motion effects a change in pressure in the posterior annulus of lumbar discs.

Study Design:

3-D motion analysis of lumbar spinal motion in athletes, during squat weight lifting.

Methods: 48 athletes performed 6 lifts at 40% maximum, 4 lifts at 60% max and 2 lifts at 80% max. 3-D motion analysis system, measured lumbar spine motion. Exercise performed as a ‘free’ squat and repeated with a weight lifting support belt.

4 cadaveric sheep spinal motion segments mounted in purpose built jig, replicating angulation seen in the in vivo motion study. These samples were then fixed to a tension/compression loading frame, replicating the forces seen in the in vivo study. Pressure measurement was achieved using a Flexiforce single element force sensor strip, positioned at the posterior annulus.

Posterior annulus pressure was measured during axial compression and on compression with the specimen fixed at 3° of extension.

Results:

Significant decrease (p< 0.05) in flexion in all groups when lifting at 40% max was compared with lifting at 60% and 80% of max. Flexion from calibrated zero point ranged from 24.7° (40% group), to 6.8° (80% group). A progressively significant increase (p< 0.05) seen in extension in groups studied when lifting at 40% max was compared with lifting at 60% and 80% max lift. Extension from a calibrated zero point ranged from − 1.5° (40% group), to − 20.3° (80% group). No statistically significant difference found between motion seen when performing the exercise as a ‘free’ squat or when lifting using a support belt in any group studied.

Comparing axially loaded specimens with specimens loaded in extension, there was an average increase in pressure of 36.4% in the posterior annulus, when the spine was loaded in 3° of extension at a pressure equivalent to the 80% lift in the in vivo motion study, in comparison to axial loading.

Conclusions: Squat weight lifting at heavier weights, causes athletes to lift at a progressively greater degree of extension. The use of a weight lifting support belt does not significantly alter spinal motion during lifting. The increased extension at heavier weights results in a stress concentration in the posterior annulus of lumbar discs.

Introduction: Duchenne’s Muscular Dystrophy (DMD) is a progresssive sex linked recessive disorder predominantly involving skeletal muscle. Scoliosis is almost universal in patients with DMD. Surgical stabilisation carries significant risks and complications with per-operative mortality of < 6%. Cardiopulmonary complications along with severe intraoperative blood loss requiring massive nlood transfusion are the major cause of morbidity.

Aim: To evaluate the efficacy of single rod fusion technique in reducing the peroperative and post operative complications especially blood loss, duration of surgery and progression of curve.

Materials and Methods: Retrospective review- 32 patients with scoliosis secondary to DMD with an average age of 14 years (range, 11–18) underwent either single rod fusion technique (19 patients) using Isola rod system or Hartshill rectangle/double rod fusion technique (13 patients). Blood loss was measured directly from the peroperative suction and postoperative drainage, indirectly by weighing swabs. Vapour free hypotensive anaesthesia was used in all cases. Progression of curve was followed up in the outpatients.

Results: The mean operative time was 130 minutes (range, 80–180) for the single rod fusion technique in comparison to 250 minutes (range, 170–300) for the Hartshill/Double rod technique. The average blood loss for the single rod fusion technique was reduced, 2.2 L (range 0.4–4) versus 3.1L (0.8–4). The mean follow up was 35 months (range, 5–72). The inpatient stay was 12 days (range, 6–23). Seven patients developed complications: 3 ileus, 2 respiratory tract infections, one patient had loosening and migration of the rod, which required revision under LA, and one patient developed a superficial wound infection, which resolved with intravenous antibiotics.

Conclusion: In our experience, single rod stabilisation is a safe and quick method of correcting the DMD scoliotic spine, with less blood loss and complications compared to traditional methods.

The cervical spine exhibits the greatest range of motion amongst the spinal segments due to its tri-planar components of movement. As a result, measurement of movements has proved difficult. A variety of methods have been used in an attempt to measure these movements but none have provided satisfactory triplanar data.

This paper uses the Zebris ultrasonic 3-D motion analysis system to measure flexion, extension, range of lateral bending and range of axial rotation in five similar male and five similar female subjects with no history of neck injuries. The subjects were tested unrestrained and in soft and hard collars, as well as in Philadelphia, Miami J and Minerva orthoses.

Results show that the Minerva is the most stable construct for restriction of movement in all planes in both groups (p< 0.001 vs. all groups (p=0.01 vs. Philadelphia in female extension), ANOVA). In the male group, the standard hard collar provides the second best resistance to flexion, lateral bending and axial rotation. The female group showed no one orthosis in second place overall. Looking at these results allows ranking of the measured orthoses in order of their three-dimensional stability. Furthermore, they validate the Zebris as a reliable and safe method of measurement of the complex movements of the cervical spine with low intersubject variability.

In conclusion, this paper, for the first time presents reproducible data incorporating the composite triplanar movements of the cervical spine thus allowing comparative analysis of the three-dimensional construct stability of the studied orthoses. In addition, these results validate the use of the Zebris system for measurement of cervical spine motion.

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.

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.

Many pedicle screw instrumentation systems are currently available to the spine surgeon. Each system has its unique characteristics. It is important for the surgeon to understand the differences in these pedicle screw systems¹

Following the introduction of a new spinal instrumentation set to our clinical practice we encountered two cases of pedicle screw breakage. We thus decided to investigate the mechanism of this screw failure (screw A) in these particular cases and to compare the biomechanical properties, through independent analysis, of a variety of pedicle screws from different manufacturers.

Samples of the broken pedicle screws were retrieved at surgery. Surface analysis of the fracture area using the electron microscope, demonstrated features consistent with fatigue fracture.

Pedicle screws of comparable size from a variety of manufacturers were gathered for independent analysis. Shadowgraph analysis was performed of each screw allowing multiple measurements to be taken of the screw’s geometry. Using this data stress concentration factors were determined demonstrating screw A to have larger values than all the other screws ranging from 2 – 3.6 times the nominal stress. The smaller teeth of screw A, spaced further apart than in the other screws, means that the large proportion of the load which would be carried by the threads is distributed over a smaller area resulting in higher stresses in the threads. The sharp corner at the root of the thread, acting as a stress concentrator, would become the focal point of these high stresses, and magnify them by 2 to 3.6 times.

These increased stresses most likely account for an increased susceptibility to fatigue fracture seen in screw A.

In conclusion it is important to be careful with the introduction and use of new pedicle screw materials and designs, that all the standard biomechanical testing has been performed to a satisfactory standard.

Knowing the physical characteristics of the available pedicle screw instrumentation systems may allow the choice of pedicle screw best suited for a given clinical situation.

Slipped upper femoral epiphysis (SUFE) is a condition, which affects the immature hip joint. Many theories have been postulated as to its underlying aetiology however; its exact cause is, as yet unknown. The final common pathway appears to be failure of the of the growth plate to resist shearing forces, giving rise to displacement of the femoral head. We hypothesized that the lubricating ability of the synovial fluid in hip joints of children with SUFE was defective, thereby allowing increasing shear forces on the physis to occur, so that when the joint is loaded it will fail at its weakest point, namely the capital epiphysis.

Aim: The aim of this study was to establish a biomechanical porcine cadaveric model to study SUFE and use this model to determine how defective joint lubrication may increase the probability of SUFE.

Methods: Using immature porcine femurs and a custom-made rig, a torsional load was applied about an axis perpendicular to the growth plate in order to cause the femur to fail along the growth plate. The Hounsefield testing machine applied a tensile load and recorded the associated elongation. From these figures the torque applied to the femoral head and the associated angular rotation could be computed. Using Weibel analysis we were able to determine the probability of SUFE occurring for a range of synovial fluid coefficients of friction, a range of joint reaction forces and neck-shaft angles.

Results: We found that it is possible to induce a SUFE in an immature porcine loaded hip joint and that there was an increased probability of slip with increased coefficient of friction of synovial fluid, increased percentage body weight and increased neck-shaft angle.

Conclusion: Defective lubrication may be a key underlying aetiological factor responsible for SUFE.

Introduction: Total hip arthroplasty for osteoarthritis secondary to developmental dysplasia of the hip (DDH) is technically difficult due to the abnormal anatomy involved. The use of a modular hip replacement system is advantageous in that its versatility allows for intra-operative adjustment to accommodate for final acetabular position and version.

Aim: The aim of this study was to assess our early results with the S-ROM hip (DePuy), a cementless modular femoral implant.

Methods and materials: We performed 22 total hip replacements on 20 patients with DDH over a three and a half year period. Nineteen patients were female and one was male. Ages ranged from 30 to 59 years (average 38.3 years). Ten patients had had previous osteotomies performed, including two of whom had Ganz periace-tabular osteotomies performed in our centre.

Nine patients had additional acetabular bone grafting with autologous femoral head, two patients had subtrochanteric osteotomy, and another patient had an adductor tenotomy performed at the time of their surgery. Follow-up ranged from 6 to 44 (mean 19.6) months.

Results: Harris hip scores improved from an average of 42 points pre-operatively to 90 points post-operatively. No radiographic evidence of osteolysis was seen around the femoral implant. Two patients required revision of their acetabular components. Both had satisfactory outcomes.

Conclusion: Our early results with the S-ROM femoral prosthesis correlate well with those from other studies involving arthroplasty for DDH. There were no complications related to the use of uncemented prostheses. Modularity makes this implant extremely versatile and easy to use in this complex patient population.

Purpose: The use of a bioabsorbable suture anchor across a joint as a means of internal stabilization has not previously been described. This study assesses the iatrogenic damage caused by such a procedure in the normal immature porcine hip.

Materials and Methods: Six twelve week old pigs underwent unilateral transarticular suture anchorage of the hip using a Panalok® RC Quick Anchor® Plus with Panacryl® suture. (Mitek® Products Johnson and Johnson). Anteroposterior pelvic radiographs were taken pre-operatively and six weeks post-operatively. Acetabular index, diameter of the femoral head ossific nucleus of both hips on both occasions were measured and compared. Pigs were sacrificed six weeks post-operatively. Specimens were analysed macroscopically for femoral head diameter, acetabular dimensions, and presence of gross chondrolysis. Histological analysis was performed to assess the presence of articular chondrolysis, and proximal femoral physeal arrest.

Results: In four out of six hips the rate of change of the acetabular index slowed as compared to the unoperated side though none worsened. The diameter of the femoral ossific nucleus on the operated side continued to increase in size at a similar rate as the unoperated side, despite the surgical procedure according to radiographic comparison. Similar findings were made in the macroscopic analysis of the hip geometry. Gross and histological analysis of the articular cartilage show only local areas of chondrolysis related to the drill holes, and in one hip where a second hole was drilled, cartilage regeneration was noted. Metaphyseal growth at the proximal femoral physis was unaffected by the procedure.

Conclusions: The use of a trans-articular suture anchor across the hip appears to cause marginal retardation of acetabular development in the normal hip. The procedure does not appear to affect proximal femoral physeal or epiphyseal growth and the presence of a bioabsorbable suture within the joint did not result in chondrolysis.

Introduction: The use of a trans-physeal, trans-articular suture anchor across a joint as a means of internal stabilisation has not previously been described. This study assesses the damage caused by the procedure to the immature porcine hip.

Methods: Six twelve week old pigs underwent unilateral hip surgery. Anteroposterior pelvic radiographs were taken preoperatively and six weeks post-operatively. The acetabular index and diameter of the femoral head ossific nucleus of both hips were measured and compared. Specimens were analysed macroscopically for femoral head diameter, acetabular dimensions and for evidence of gross chondrolysis. Histological analysis was performed to assess the presence of articular chondrolysis and proximal femoral physeal arrest.

Results: In four out of six specimens the rate of change of the acetabular index slowed as compared to the unoperated side, though none worsened. The diameter of the femoral ossific nucleus continued to increase in size at a similar rate to the unoperated side on radiological examination. Similar findings were seen with the macroscopic analysis. Gross and histological analysis of the articular cartilage showed only local areas of chondrolysis, related to the drilling. Metaphyseal growth at the proximal femoral physis was unaffected by the procedure.

Discussion: The use of a trans-articular suture-anchor across the hip appears to cause marginal retardation of acetabular development in the normal hip. The trans-physeal approach to the hip does not appear to affect proximal femoral physeal or epiphyseal growth in the short-term, and the presence of a bioabsorbable suture within the joint did not result in chondrolysis.

Introduction: Despite early screening, infants continue to present late ( > 4 months) with DDH. The impact of late diagnosis is significant. Established DDH causes significant morbidity and may have major medicolegal implications.

Aim: To review the incidence of late presenting DDH nationally for a single year and assess the patterns of referral. To identify the reasons for the late presentation of DDH in the presence of early clinical screening.

Methods: In a retrospective study all cases of late DDH presenting in 2004 were identified using inpatient database. Patient records were retrieved and data collected.

Results: Fifty nine cases of DDH were diagnosed at greater than 4 months. There was an additional 26 cases of isolated acetabular dysplasia treated at greater than four months.

The mean age of diagnosis was 14.6 months (range 4–72). Many of the late referrals had risk factors for DDH.

Conclusion: Despite routine clinical screening at birth and six weeks, children continue to present with late DDH. This represents a significant workload for our tertiary unit.

Introduction: Duchenne’s Muscular Dystrophy (DMD) is a progressive sex linked recessive disease, predominantly involving skeletal muscle. Scoliosis is almost universal in patients with DMD. Surgical stabilization carries a significant risks and complications with peroperative mortality of < 6%. Cardiopulmonary complications along with severe intraoperative blood loss requiring massive blood transfusion are the major cause of morbidity

Aim: To evaluate the efficacy of single rod fusion technique in reducing the peroperative and post operative complications especially blood loss, duration of surgery and progression of curve

Material & Methods: Retrospective review – 14 patients with scoliosis secondary to DMD with an average age of 14.5 years (range, 11–17) underwent single rod fusion technique using Isola rod system and pelvic was not included in fixation. Blood loss was measured directly from the peroperative suction and post operative drainage, indirectly by weighing the swabs. Vapour free hypotensive anesthesia was used in all case. Progression of curve was monitored over a period of five years.

Results: The mean operative time was 110 min (range, 80 – 180). The average blood loss was 1.6L (range, 0.7 – 5). The mean follow up was 32 months (range, 4 – 60). There was no progression noticed in the curve on follow up. Two patients develop complications, one had loosening & migration of the rod, required revision and superficial wound infection treated with intravenous antibiotics.

Conclusion: In our experience, single rod stabilization is a safe and quick method of stabilizing the spine in DMD with less blood loss and complications compared to traditional methods.

Introduction: Staphylococcal bacteria, especially the coagulase negative Staphylococci, are responsible for the majority of orthopaedic device related infection. These infections are sub acute, and may not present for months or years following surgery. The virulence of these bacteria is related to their ability to form biofilm, a protective slime which allows them to survive the effects of the host immune system and antimicrobial therapy. Treatment of biofilm based infection almost always necessitates removal of the implant.

Recent work has identified environmental stimuli which induce biofilm formation in Staphylococci. These include stressors such as high temperature, high osmolarity, anaerobiosis, nutrient depletion, salt, ethanol and subinhibitory concentrations of certain antimicrobial drugs. Given the ability of these bacteria to survive the “respiratory burst” from the cells of the mononuclear-macrophage system, we hypothesised that oxidative stress may be one such promoter of biofilm formation by Staphylococci.

Methods and Materials: Staphylococcus epidermidis CSF41498 and Staphylococcus aureus RN422O were selected for study as these are known biofilm forming organisms. Hydrogen peroxide (H₂O₂) was used as an oxidizing agent.

Bacteria were incubated for 24 hours at 37°C in Brain-Heart Infusion (BHI, Oxoid) containing progressively weaker concentrations of H₂O₂ to determine a Minimal Inhibitory Concentration (M.I.C.) for the representative strains. Bacterial viability was assessed by measuring the optical density of the incubated culture using a cell density meter (Ultraspec 10, Amersham Biosciences).

The bacteria were then grown as a biofilm on a 96 well microtitre plate (Nunc) in the presence of subinhibitory concentrations of H₂O₂, using pure BHI as a control. Semiquantative determination of biofilm formation was performed by washing the plates, staining the adherent cells with crystal violet, and measuring the light absorbance of the adherent stained cells at 492 nm using a Multiskan plate reader (Flow Laboratories).

Results: The M.I.C. of H₂O₂ was 18 mM for both Staphylococcus epidermidis CSF41498 and Staphylococcus aureus RN422O. Concentrations of H₂O₂ of 16 mM and below had no normal bacterial growth and replication.

There was no difference in biofilm formation by Staphylococcus epidermidis csf41498 in the presence of 15 mM H₂O₂ when compared to that of the control. However, H₂O₂ had a significant inhibitory effect on biofilm formation by Staphylococcus aureus RN422O, even at a concentration well below the M.I.C.

Conclusion: We conclude that oxidative stress may have an antibiofilm action on certain Staphylococcal species, which is independent from its bactericidal effect, and which is manifest at a concentration below the M.I.C. for that species.

The aim of this study is to evaluate the effectiveness of the application of vibration, during the femoral cementation, as a cementing technique.

It has been demonstrated that when vibration of a constant frequency was utilised, flow of low viscosity cement increased with vibration of increasing amplitude up to a particular acceleration. Above this acceleration there was little additional benefit. It has also been shown that when constant amplitude was used the flow increase was uniform over a wide frequency range, eventually falling off over a particular frequency. These results prove that the flow of orthopaedic bone cement is significantly affected by mechanical vibration of the receiving structure. It is our hypothesis that vibration promotes the ingress of bone cement into cancellous bone.

The effect of mechanical vibration in the frequency range 0–500 Hz on the cadaveric human femur has been assessed in the past. It was found that when the bone was fixed at both ends, its resonant frequency was markedly affected by end loading and damping. If the conditions of the experiment were designed to simulate the condition of the femur when prepared for a total hip replacement, it was found that the bone did not resonate but behaved in a mass-like mode. The significance of this observation is that in the event of vibration being applied to enhance the penetration of orthopaedic bone cement, the movement induced in the bone will be proportional to the force applied regardless of frequency.

First described in 1910, Legg Calve Perthes disease is considered to be a complication of osteonecrosis of the femoral head-affecting children between the ages of 2 and 12. Treatment has centred on containment, surgical and non-surgical in the hope that keeping the femoral head covered by acetabulum that it will remodel and maintain congruency with the acetabulum. We know from previous studies that deformities of the femoral head increase the risk of development of arthritis in later life and that the shape of the femoral head is the only alterable parameter in the development of this early onset arthritis.

During the natural history of the disease, once the central part of the femoral head collapses the integrity of the femoral head is reliant on the support of the lateral and medial columns. These columns then collapse altering the shape of the femoral head. We induced LCPD in the femoral heads of twenty skeletally immature rabbits and buttressed the central column of the femoral head in twelve. These treated rabbits had cement, bone graft or bone paste inserted through a drill hole that extended into the centre of the femoral head. The rabbits were then recovered and x-rayed at six weeks. All the rabbits had evidence of varying degrees of head collapse radiologically. Once the rabbits reach skeletal maturity in March, they will be euthanised and their femoral heads examined histologically and radiologically to determine the effects of central column enhancement by each of the three substances.

Introduction: The meniscus plays an important role in protecting the articular surfaces of the tibia and femur from excessive wear due to aberrant forces across the knee joint. While the biochemical changes associated with cartilage and meniscal wear have been well documented, little data exists in the literature describing the ultrastructural events associated with such a degenerative process.

Aim: To develop an in vivo model to evaluate the effects of joint incongruity on meniscal wear.

Materials and Methods: Six New Zealand White rabbits underwent an arthrotomy of the right knee joint. A sagittal osteotomy of the medial femoral condyle was then performed on four of these animals while the remaining two served as controls. Post operatively all animals were allowed to mobilise ad librium and were sacrificed after 20 weeks. The medial meniscus was harvested and processed for electron microscopy by routine methods. Survey light microscopy sections (1um) were examined and adjacent ultra-thin sections (50nm) were assessed in an electron microscope at magnifications from 1,500 to 30,000.

Results: On gross examination of the menisci there was no evidence of any significant wear. Neither was there noticeable damage on light microscopy. There was no significant difference in the numbers of chondrocytes and fibroblasts in the superior and inferior surfaces of both control and test samples, indicating a lack of cellular response in the test specimens. On electron microscopy, the superficial electron dense layer was markedly attenuated in test subjects (control 246 – 305 nm, test 109 – 167nm). The superior surfaces of two test samples were markedly roughened, while chondral fragments were noted in craters on the surface. Numerous cystic lesions were present within the superficial collagen stroma of test subjects. Interestingly cleavage planes were noted in the superior and inferior aspects of one of the four test subjects. No difference in collagen fibril diameter was observed between control and test subjects.

Discussion: These results represent the early stages of meniscal degeneration. The process appears to one of microfibrillation, with degeneration occurring within the bundles of collagen fibrils rather than within the substance of the fibrils themselves. The absence of a healing response suggests that this is an intractable process, a finding which accords well with findings in the clinical setting.

Management of symptomatic residual acetabular dysplasia in adolescence and early adulthood remains a major therapeutic challenge. At our unit the two senior authors review all patients preoperatively and simultaneously perform each procedure. In the four years from 1998 forty-three Bernese osteotomies were performed in 40 patients with residual acetabular dysplasia. The mean average age at surgery was 21 years (range 12 – 43 years) and there were 34 female patients. The indication for surgery was symptomatic hip dysplasia (all idiopathic but for one male with a history of slipped capital femoral epiphysis) presenting with pain and restricted ambulation. 4 patients had previous surgery on the affected hip (2 Salter’s osteotomy, one Shelf procedure and one proximal femoral osteotomy). 27.5% of patients had symptomatic bilateral disease. 42% of patients had Severin class IV or V dysplasia at presentation. 100% of patients had preservation of the hip joint at last follow-up evaluation (mean 2.4 years), with excellent results in 82%, an average post-operative Harris hip score of 96, and an average d’Aubigne hip score of 16.1. The mean post-operative improvements in radiographic measures were as follows: Anterior centre edge angle +19.4°, Lateral centre angle +25.8°, Acetabular Index – 10.7°. Head to Ischial distance – 7.3mm. Surgical operative time decreased from 128 minutes to 43 minutes from the first to the most recent case. Average blood loss has reduced from 1850mls to 420mls over the four years experience. Predonation of 2 units of blood requested from all patients with baseline hemoglobin of > 12g/dl. When combined with intraopera-tive cell salvage the need for transfusion of homologous blood has been eliminated. All complications occurred in the first 9 patients: (one major – iliac vein injury requiring no further treatment; four moderate – lateral cutaneous nerve injuries; four minor – asymptomatic heterotopic ossification). Our experience confirms that the Ganz periacetabular osteotomy is an efficacious procedure for the treatment of the residually dysplastic hip, providing excellent clinical results, where early intervention is the key to improved outcome. It is a technically demanding procedure with a significant early learning curve and we believe that a two

Introduction: This retrospective study examined the clinical characteristics, radiological findings, management, and functional outcome in 34 rehabilitated patients who presented with traumatic central cord syndrome.

Methods: Between 1994 and 2004 a total of 34 patients with central cord syndrome were admitted to the National Spinal Injuries Unit. There were 29 men and 5 women. The mean age was 56.1 years (15 to 88). The mean follow up time was 4.9 years. Patients were divided into three groups by age, < 50 years (10 patients), 50–70 years (16 patients), and > 70 years (8 patients). The American Spinal Injury Association (ASIA) system recorded the motor and sensory scores, of upper and lower limbs, on admission, discharge and during rehabilitation. Patients underwent radiological investigation that included plain film, CT, and MRI of the cervical spine.

Results: The mechanism of injury was a fall in 58.8%, road traffic accident in 35.2% and other in 6%. Alcohol was a contributing factor in 32.4% of cases. Seven patients had a spinal fracture. The cervical spine was involved in 5 cases with the remaining 2 cases involving the thoracic spine. Seventy percent of patients received intravenous steroids. Over half (53%) of the patients had some degree of cervical spondylosis while cord changes were seen in almost all of the patients (79.4%). In the majority of cases (70.4%) the affected level was C3/4. Disc herniation was present in one third of cases (33.2%). The mean upper limb ASIA score on admission was 7.6, on discharge was 12.4 and at follow up was 20.2. A similar pattern was also observed in the lower limb with scores of 12.1, 13.7, and 20.5 respectively. Sensory loss also improved with time. 88.2% of those admitted required urinary catheterization, with 23.5% being discharged to the National Rehabilitation Hospital with a catheter in situ. Surgical decompression was performed in 7 cases. The remainder of patients wore a Miami-J cervical collar.

Conclusion: As was shown in the original paper by Schneider et al (1954), hyperextension of a degenerative cervical spine was the predominant mechanism of injury. The return of lower limb function precedes that of upper limb, with autonomic function recovering in the majority of cases.

Discussion: In this study patients in the younger age groups had better recovery of function and had fewer complications. The original paper by Schneider et al. stated that conservative treatment was most appropriate, however, in this review surgery was performed in specific cases such as those with cord compression secondary to disc herniation. Alcohol was a significant contributing factor.

Introduction: The magnitude of the initial chondral injury and the residual articular step-off are amongst prognostic factors implicated in outcome following intra-articular fractures. The alignment of an intra-articular fracture line may be an as yet unrecognised prognostic variable.

Hypothesis: That fractures in the coronal plane of the medial femoral condyle result in worse outcomes than those in the sagittal plane.

Aim: To compare the effect of displaced intra-articular osteotomies (ie simulating fractures fixed in an incongruent position) of the medial femoral condyle – in one group performed in the sagittal plane, in the other in the coronal plane.

Materials and Methods: The study was conducted in two arms: in vitro and in vivo.

In vitro study: A pneumo-electric rig was designed and built. Ten freshly harvested porcine knee joints underwent osteotomy (test specimens: 5 sagittal, 5 coronal). 5 control specimens underwent no osteotomy. Specimens were mounted on the rig and subjected to cyclical flexion and extension under load (40,000 cycles over 11 hours). Transarticular pressure measurements were performed before and after testing. Surface roughness was measured following testing using laser interferometry.

In vivo study: Three groups (A to C), each comprising 15 New Zealand white rabbits were utilised. Rabbits from each group were consigned to a control (5), coronal osteotomy (5) or sagittal osteotomy (5) group. Rabbits in group A were sacrificed at 3 weeks (early outcome), group B at 10 weeks (immediate) and group C at 20 weeks (long term). The knee was then harvested en bloc and prepared for light microscopy. A further 10 specimens underwent electron microscopy of the medial meniscus.

Results:

In vitro study: A significant difference in loading patterns was noted between the sagittal, coronal and control groups. Specimens from the sagittal group sustained significantly more wear on the apposing medial tibial articular surface (p=0.04), with the meniscus having a protective effect on the underlying articular surface.

In vivo study: Light microscopy confirmed degenerative changes in the apposing tibial articular cartilage, being more marked in sagittal specimens. On the femoral side of the knee, the healing response of the femoral osteotomy was significantly better in sagittal test specimens than coronal (p< 0.05).

Conclusion: In contrast to the hypothesis, sagittal femoral step-offs gave rise to more tibial wear. This can be explained by the short duration of exposure of the coronal incongruity to the apposing joint during the flexion extension cycle. The sagittal step-off was constantly exposed, giving rise to persistently elevated tibial joint loading pressures opposite the high side of the step-off.

In contrast, the coronal femoral osteotomies had a worse healing response. The alignment of the fracture line perpendicular to the plane of motion of the joint exposes the repair tissue within it to increased shear and tensile stresses. This may play a negative role in the repair of these coronal defects when compared to sagittal osteotomies, which are relatively protected from the high transarticular pressures and showed a greater tendency to remodel their articular surface.

Introduction: Recent data from the UK suggests that the incidence of osteomyelitis in the paediatric population is declining. However, the incidence in the Scandic countries has risen in the late eighties and nineties. We undertook to examine the epidemiology of osteomyelitis presenting to a paediatric teaching hospital in an Irish urban setting.

Patients and Methods: We undertook a retrospective review to identify patients admitted over a twenty-five year period with a diagnosis of osteomyelitis. Patients were identified from hospital records, theatre log-books and a departmental database. Demographic data was collected, as were details of the infected bony structure, treatment required and organism cultured.

Results: A total of 291 patients were admitted over a twenty-four year period, from 1977 to 2000.

A marked reduction in osteomyelitis was noted over the twenty-four year incidence of the study. In addition, a shift in the causative organism was noted from an incidence of H Influenzae in the 70’s of up to 30%, to less than 5% in the 90’s. The treatment regime changed markedly over the course of the study period, with a significantly reduced duration of hospital stay reflecting the move away from protracted periods of hospitalisation.

Conclusion: A marked fall in osteomyelitis has occurred in the paediatric population. This may be due to improved living conditions and the introduction of H Influenzae vaccinations. The duration of hospital stay has declined markedly and the introduction of newer imaging modalities has aided diagnosis, allowing early aggressive intervention. However, as osteomyelitis is becoming increasingly rare, a higher index of suspicion is required, particularly from non-specialists who are more likely to be the first to encounter these patients.

Study Design: The effects of heat on porcine intertvertebral disc were studied experimentally.

Objective: To assess the effects of in-vitro heating of porcine nucleus pulposus on expression of inducible heat shock protein 70 and subsequent modification of biochemical responses to an inflammatory insult in the heated intervertebral disc tissue.

Subjects: Lumbar spines were harvested from six pigs. The nucleus pulposus was dissected from each intervertebral disc, divided into control (37°C) and heat shocked (42°C) groups then cultured in medium for one hour. All samples were then cultured at 37 C for a further two hours. After three hours tissue and supernatant were harvested from one third of the samples and the expression of inducible heat shock protein 70 (HSP70) was quantified via Western immunoblotting and enzyme linked immuno-sorbent assay (ELISA). The remaining samples were cultured either in normal medium or altered (pro-inflammatory) medium containing 5ug/ml bacterial lipopolysaccharide (LPS). At 24 hours the supernatant from these samples was analysed for both interleukin-8 (IL-8) and prostaglandin E2 (PGE2) secretion using ELISA.

Outcome Measures: Western immunoblotting and enzyme linked immuno-sorbent assay (ELISA) for heat shock protein 70. ELISA for interleukin-8 (IL-8) and prostaglandin E2 (PGE2).

Results: HSP70 expression was significantly increased in the heat shocked specimens. IL-8 and PGE2 secretion were significantly increased in nucleus pulposus exposed to LPS at both temperatures. The concentrations of IL-8 and PGE2 secreted in the heat shocked samples were significantly less than controls, particularly after exposure to LPS (p< 0.05, paired students t test).

Conclusions: In vitro heating of porcine nucleus pulposus causes overexpression of HSP70. This heat shock effect can alter aspects of the biochemical response of the intervertebral disc tissue to an inflammatory insult. Intradiscal electrothermal therapy (IDET) may, in theory, reduce discogenic pain at temperatures as low as 42°C by generating similar heat-induced changes in the nuclear biochemistry of degenerate intervertebral discs.

Aims: Developmental dysplasia of the hip (DDH) is a common paediatric orthopaedic problem. Open reduction and debridement of the hip joint in neonates is necessary to ensure a congruent reduction in some patients. Despite advances in the treatment of DDH, the various surgical approaches are not without limitations and risks. The purpose of this study was: (a) to design a suitable animal model of DDH for the purpose of designing and evaluating hip arthroscopy, (b) to document the pathoanatomy of the dysplastic hip arthroscopically and (c) to deþne the methodology of performing hip arthroscopy in neonates with DDH. Methods: A novel model of producing hip dysplasia in large white cross piglets has been created. 4-week-old piglets undergo surgical þxation of the knee by retrograde passage of a 3.5mm diameter steinmann pin. After free ambulation, progressive hip dysplasia is produced. We have monitored the development of hip dysplasia at 4 and 6 weeks post þxation by plain radiographs, MRI and Hip Arthroscopy using a 2.7mm diameter arthroscope. Results: We have successfully produced hip dysplasia in an animal model of comparable size and anatomy to that seen in infants. Hip arthroscopy was performed in 20 animals. Documentation of a lax capsule, elongated ligamentum teres and pulvinar has been made. In addition arthroscopic debridement of the joint has been performed. We believe that arthroscopic debridement of the impediments to reduction in DDH is possible using the techniques learned from this model.

Aims: The aim of this study was to investigate the ability of control and degenerate human nucleus pulposis to respond to an exogenous proinßammatory stimulus. Methods: Disc material from patients undergoing surgery for scoliosis, sciatica and low back pain was cultured under basal and lipopolysaccharride (LPS) stimulated conditions using a serumless technique. Levels of IL-1β, TNFα, LTB4, GM-CSF, IL-6, IL-8, MCP-1, PGE2, bFGF and TGFβ-1 in the media were estimated using commercially available enzyme linked immunoabsorbent assay kits. Results: Neither basal nor LPS stimulated control nucleus pulposis (NP) produced detectable levels of IL-1β, TNFα, LTB4 or GM-CSF. LPS induced a significant increase in scoliotic disc IL-8 production, p< .02. LPS induced signiþcant increases in degenerate disc IL-6, IL-8 and PGE2 production, p< .01, p< .001 and p< .005 respectively. LPS signiþcantly increased degenerate disc IL-6, IL-8 and PGE2 production compared to LPS stimulated scoliotic disc, p< .05, p< .02 and p< .003 respectively. Conclusions: Human nucleus pulposus can react to a pro-inßammatory stimulus by secreting IL-6, IL-8 and PGE2, suggesting that the NP may actively participate in the genesis of chemical radiculitis and dis-cogenic back pain.

Management of symptomatic residual acetabular dysplasia in adolescence and early adulthood remains a major therapeutic challenge. At our unit the two senior authors review all patients preoperatively and simultaneously perform each procedure. In the four years from 1998 forty-three Bernese osteotomies were performed in 40 patients with residual acetabular dysplasia. The mean average age at surgery was 21 years (range 12 – 43 years) and there were 34 female patients. The indication for surgery was symptomatic hip dysplasia (all idiopathic but for one male with a history of slipped capital femoral epiphysis) presenting with pain and restricted ambulation. 4 patients had previous surgery on the affected hip (2 Salter’s osteotomy, one Shelf procedure and one proximal femoral osteotomy). 27.5% of patients had symptomatic bilateral disease. 42% of patients had Severin class IV or V dysplasia at presentation. 100% of patients had preservation of the hip joint at last follow-up evaluation (mean 2.4 years), with excellent results in 82%, an average post-operative Harris hip score of 96, and an average d’Aubigne hip score of 16.1. The mean post-operative improvements in radiographic measures were as follows: Anterior centre edge angle +19.4°, Lateral centre angle +25.8°, Acetabular Index – 10.7°. Head to Ischial distance – 7.3mm. Surgical operative time decreased from 128 minutes to 43 minutes from the first to the most recent case. Average blood loss has reduced from 1850mls to 420mls over the four years experience. Predonation of 2 units of blood requested from all patients with baseline hemoglobin of > 12g/dl. When combined with intraoperative cell salvage the need for transfusion of homologous blood has been eliminated. All complications occurred in the first 9 patients: (one major – iliac vein injury requiring no further treatment; four moderate – lateral cutaneous nerve injuries; four minor – asymptomatic heterotopic ossification). Our experience confirms that the Ganz peri-acetabular osteotomy is an efficacious procedure for the treatment of the residually dysplastic hip, providing excellent clinical results, where early intervention is the key to improved outcome. It is a technically demanding procedure with a significant early learning curve and we believe that a two-surgeon approach is invaluable to the management of these difficult cases.

Introduction: Outcome following intra-articular fractures is dependent on a myriad of variables, including the extent of the initial osteochondral and soft tissue injury. In the clinical setting it is impossible to control such variables, and studies are largely confined to radiographic and outcome based assessments. Therefore the effect of fracture line orientation has not been widely examined. Theoretically an incongruent intra-articular fracture results in a “low” side that is relatively unloaded, at the expense of a “high” side exposed to increased loads. Furthermore the orientation of the fracture may give rise to a narrow or broad swathe of wear on the opposing articular surface.

Aim: To evaluate the effect of an incongruent intra-articular fracture of the medial femoral condyle on subsequent loading and wear patterns, using an in vitro model.

Materials and Methods: 15 porcine stifle (knee) joints were harvested within three hours of death. Three groups of five joints were evaluated. Group S underwent a sagittal osteotomy of the medical femoral condyle that was then fixed in an incongruent position. In Group C the osteotomy was performed in the coronal plane. The third group acted as a control group and had no oseotomy performed. In all cases great care was taken to prevent injury to the menisci, articular surfaces and Ligamentous structures. The size of the step-off was documented using a contour-mapping machine (CMN). In addition the surface roughness of the femoral condyles was documented using a laser interferometry device (UBM, Germany). The specimen was mounted on a custom-made electro-pneumatic rig, and pressure mapping of the articular surfaces performed with pressure sensitive film (SPI, New Jersey, USA). Following mapping, each specimen underwent 10,000 cycles of flexion and extension over a three-hour period. When testing was complete, pressure mapping was again performed, the size of the step-off re-measured using the CNM, and surface roughness of the menisci, femoral condyles and tibial plateau assessed. Data was restored on a laptop for subsequent statistical analysis.

Results: Pressure mapping documented an unloaded area on the low side of the step-off in both Group C and S. This extended up to 8mm, and was mirrored by an area of increased load on the high side. Following testing, the area exposed to altered loads on both the high and low side of the osteotomy had diminished. On ANOVA testing the uncovered tibial articular surfaces in test subjects were significantly rougher than control specimens, though no difference was noted between Groups C and S (Mean Ra value GC: 101.83+22.78, GS: 93.52+17.89, ns. vs. Con 53.45+25.8,p< 0.05). Meniscal surface roughness was greater in the test groups, though this did not reach statistical significance. No significant difference in femoral condyle surface roughness was noted following testing. Nor was any difference noted in surface roughness in the submeniscal areas of the tibial articular surface.

Discussion: The displaced femoral osteotomy resulted in an area of increased wear on the opposing tibial articular surface. However no significant difference was noted between the coronal and sagittal group. It is probable that the menisci negated the effect of fracture line orientation. We suggest that they minimized secondary articular damage by decreasing the area of direct tibiofemoral contact. Furthermore the elasticity of the menisci, in addition to their ability to move in the anteroposterior plane further decreased stress transmission between joint surfaces. Further studies will be performed on the hip joint to determine the effect of articular incongruity in the absence of such a fibrocartilage buffer.

Introduction: Subject to recent literature citing a reduction in ankle range of motion predisposing to ankle fractures in children, we decided prospectively to analyse the passive range of motion in children presenting to our fracture clinic with simple distal radial metaphyseal fractures treated conservatively in cast.

The range of motion was assessed by two observers, and measured using a goniometer in 80 patients. (42 radial fractures and 38 controls) The controls were recruited from children presenting with lower limb injuries and with no prior history of an upper limb injury or neuromuscular condition. The fractures were as a result of simple falls onto the outstretched hand with definite radiological and clinical findings. The range of motion in the contralateral limb was assessed. Both groups showed an equal distribution of dominant and non-dominant limbs.

Results: Both groups were well matched with an average age of 10 and 10.3 years fracture group and control group respectively, and gender 55% male fracture group and 52.5% control group. The m injured group showed a passive range of motion of 1680, whereas the control group showed a higher range of motion of 1820, a difference of 140 (p< . 005 student t-test). A third blinded independent observer of 20 children assessed Intra and interobserver error, and no observer was noted to have higher or lower readings.

Conclusion: Children with radial fractures have a lower passive range of motion of their wrists than Controls. This may contribute to the aetiology of wrist fractures in a paediatric population. An possible explanation may be as cited in original work that children who sustain fractures have less mobility around their joints due to reduced elasticity in their musculoskeletal framework. Simple passive stretching of fracture prone joints should therefore be advised.

Background: Developmental dysplasia of the hip (DDH) is a common paediatric orthopaedic problem. Open reduction and debridement of the hip joint in neonates is necessary to ensure a congruent reduction in some patients. Despite advances in the treatment of DDH, the various surgical approaches are not without limitations and risks. The development of hip arthroscopy is a new science, which we believe could be applied to the treatment of DDH.

Aims: To date there have been no reports in the literature of the use of hip arthroscopy in either the neonatal hip or in infantile hips with DDH. The purpose of this study was: (a) to design a suitable animal model of DDH for the purpose of designing and evaluating hip arthroscopy, (b) to document the pathoanatomy of the dysplastic hip arthroscopically and (c) to define the methodology of performing hip arthroscopy in neonates with DDH.

Method: A novel model of producing hip dysplasia in large white cross piglets has been created. 4-week-old piglets undergo surgical fixation of the knee by retrograde passage of a 3.5mm diameter steinmann pin. After free ambulation, progressive hip dysplasia is produced. We have monitored the development of hip dysplasia at 4 and 6 weeks post fixation by plain radiographs, MRI and Hip Arthroscopy using a 2.7mm diameter arthro-scope.

Results: We have successfully produced hip dysplasia in an animal model of comparable size and anatomy to that seen in infants. Hip arthroscopy was performed in 20 animals. Documentation of a lax capsule, elongated ligamentum teres and pulvinar has been made. In addition arthroscopic debridement of the joint has been performed. We believe that arthroscopic debridement of the impediments to reduction in DDH is possible using the techniques learned from this model.

Introduction: Elucidation of the exact cause of adolescent idiopathic scoliosis (AIS) remains an elusive goal. The intervertebral disc is one of the many areas that have been investigated in an effort to find a cause for this condition. We hypothesize that a qualitative change in the orientation of collagen fibers in the annular layers of the disc could cause the deformity seen in AIS. This paper presents a mathematical model of such a change and how it could produce appropriate deforming forces. Hypothesis: In the normal disc the collagen fibers are obliquely orientated. Fibers in adjacent lamellae are orientated in opposing directions. This means that as forces are transmitted from a compressed nucleus to the annular fibers there is no net force tending to rotate one vertebra with respect to its neighbour. If there is a preponderance of fibers running in one direction as the nucleus is compressed there will be a net resultant force perpendicular to the long axis of the spine tending to produce an intervertebral rotation. This intervertebral rotation, applied to successive spinal segments will cause a scoliotic deformity.

Model: The highly oriented structure of the AF suggests the utility of an explicit representation of the collagen fibres and their mechanical contribution to disc function. In our study we have considered two groups of fibres, representing the clockwise and counter clockwise fibres in the disc. The AF is considered as a continuum containing two populations of fibres assumes to be of equal density and uniform distribution within an isotropic material as originally described by Spencer. Nuclear compression as a result of growth was modelled as a tendency to produce increased intervertebral separation of spinal segments and examined whether the resultant transformation that leads to a scoliotic pattern of deformity. Based on anatomical data from literature the positions of the 12 nodes that represent the thoracic vertebrae are applied to the model. The three-dimensional location of each vertebral body is defined. We store the coordinates of thoracic vertebrae in a three-dimensional matrix. In the present study in order to involve the translation operation in our transformation, we have used the homogeneous transformation matrix or Denavit & Hartenberg matrix.

In the present model for the initial set of transformations the reference axis is chosen to be the lowest vertebral axis (T-12) and remains unchanged throughout the transformation. All elements of the spine above the reference axis are transformed (translated and rotated). After completion of this iteration and storing the values for the origin coordinate and vector values in the next level of the matrix, the next reference axis is chosen. For the second axis everything above the axis will be transformed in the same way with the current axis and the one preceding it remaining unchanged. Therefore for each transformation a new reference axis is taken and the transformations are applied to all vectors and origins above it leaving all elements preceding it unchanged by the transformation.

Results: The first part of the model shows that rotational displacement increases linearly with changes in the fibre ratio. Rotational displacement on the other hand occurs independently of distraction of the vertebral bodies. When the rotational displacement is applied to a series of segments it produces alterations of curvature in the three planes. Specifically it produces a lateral curvature in the coronal plane and a hypokyphotic curvature in the saggital plane. The magnitude of these displacements varies with the imbalance in fibre ratio. Discussion: The proposed changes in annular fiber orientation have been modeled using accepted mathematical methods. These changes will produce an intervertebral rotation whose magnitude depends on the degree of fiber imbalance akin to that seen in AIS. When the displacements produced by this rotation being applied to a series of segments is modeled, it will produce a three dimensional deformity similar to that seen in AIS. Ongoing histological studies are being performed to see if the proposed imbalance can be identified in patients with AIS. Such a fiber orientation anomaly may be genetically determined by some fashion of directional sense gene and may be the aetiological basis for AIS.

Recently there has been considerable interest in the role of inflammatory mediator production by herniated degenerate discs. Modic has described MR endplate changes which have an inflammatory appearance and have been linked with discogenic back pain. To date there has been no biomechanical investigation of discs with associated Modic changes.

The aim of this study is to determine if degenerate discs with associated Modic changes have higher levels of pro-inflammatory mediator production than those without Modic changes.

Intervertebral disc tissue was obtained from 52 patients undergoing spinal surgery for sciatica [40] and discogram proven discogenic low back pain [12]. The tissue was cultured and the medium analysed for interleukin-6, interleukin-8 and prostaglandin E2 using an enzyme linked immunoabsorbetn assay method. Preoperative MR images of the patients were examined by a double blinded radiologist to determine the Modic status of the cultured disc level.

Forty percent of patients undergoing surgery for discogenic low back pain had a Modic 1 change compared to only 12.5% of patients undergoing surgery for sciatica [p< .05] There was a statistically significant difference between levels of IL-6, IL-8 and PGE2 production by both the Modic1 [M1] and Modic2 [M2] groups compared to the Modic negative [NEG] group. IL-6:NEGvM1 p< .001, NEG v M2 p< .05, IL-8: NEG v M1 p< .01, NEG v M2 p> .05, PGE2: NEG v M1 p< 01, NEG v M2 p< .05.

Modic changes have been associated with positive provocative discography by a number of authors. Pain generation requires the presence of nerves and hyperalgsia inducing mediators. Both IL-8 and PGE2 are known to induce hyperalgesia. The fact that Modic changes are associated with high levels of production of these mediators supports their role as an objective marker of discogenic low back pain.

Cement is still in common usage in primary and revision arthroplasty surgery. Infection rates in cemented arthroplasties ranges from 1–4% and poses a huge problem for the revision arthroplasty surgeon. Infection in septic implants is biofilm based and almost completely resistant to conventional anti-microbial therapy. Recent papers have questioned the efficacy of using gentamicin-loaded cement in arthroplasty as staphylococcus aureus biofilms will develop on same. The focus of this study was to investigate the efficacy of antibiotic loaded cement in preventing initial bacterial adhesion and subsequent development of a bacterial biofilm in vitro.

Three cements Simplex unloaded, Simplex with erythromycin and Simplex with tobramycin were mixed in a conventional manner, ie vacuum hand mixing in sterile conditions and then injected into pre-moulded PTFE coated cylinder moulds yielding 8 cylinders in each group. The cement cylinders were then removed and exposed to a known pathogenic strain of staphylococcus aureus ATCC—29213-NCTC 12973 in solution 3x10⁶ Colony forming units CFH/ml) for 15 minutes. The cylinders were then removed and cultured for 24 hours at 37°C in RPMI with Glutamine. Cylinders were then removed and subjected to rinsing in PBS to remove any non-adherent bacteria. Cylinders were then sonicated at 50 Hz in Ringer’s solution and adherent biofilms were serially log diluted and plated on Columbia blood agar. Colonies were counted manually. Control cylinders of unloaded cement showed 120,000 CFU/cm² of adherent bacteria whereas loaded cement erythromycin and tobramycin showed 500 and 80 CFU/cm² respectively (p< .0005 Student t-test).

This study shows that loaded cement does not prevent biofilm adhesion in its initial reversible stages whereas unloaded cement does not. This is important since most infected implants are infected at time of primary operation and cements anti-bacterial role beyond the first 48 hours remains questionable, when inflammatory encapsulation of the implant begins. We would therefore question the usage of unloaded cement in primary arthroplasty surgery.

Metallic implants are used frequently in the operative repair of joints and fractures in orthopaedic surgery. Orthopaedic implant infection is chronic and biofilm based. Present treatment focuses on removing the infective substratum and implant surgically as well as prolonged anti-microbial therapy. Biofilms are up to 500 times more resistant than planktonic strains of bacterial flora to antibiotics. Silver coatings on polymers and nylon (catheters, heart valve cuffs, burn dressings) have shown inhibition of this biofilm formation in its adhesion stage. Our aim was to deposit effective, minute, antibacterial layers of silver on orthopaedic stainless steel and titanium K-wires and to investigate the effect of these coatings when exposed to Staphylococcus Aureus biofilms in an in vitro and in vivo environment.

Combining magnetron sputtering with a neutral atom beam (Saddle Field) plasma source at 10⁻⁴ mbar in argon gas at temperatures of 60°C, a silver coating of 99.9% purity was deposited onto stainless steel and titanium orthopaedic K-wires. Coating thickness measurements were obtained using glancing angle x-ray diffraction of glass slides coated adjacent to wires. Magnetron parameters were modified to produce varying thickness of silver. Adhesiveness was examined using Rockwell punch tests. Silver leaching experiments were carried out in phosphate buffered saline at 37°C for 48 hours and using inductive coupled plasma spectrometry to assess leached silver ions. Surface microscopy visualised physical changes in the coatings.

Biofilm adhesion was determined by exposing wires to Staphylococcus Aureus ATCC 29213 – NCTC 12973 for 15 minutes to allow biofilm initiation and adhesion. Wires were then culturing for 24 hours at 37°C in RPMI. Subsequently, wires were sonicated at 50Hz in ringer’s solution and gently vortexed to dislodge biofilm. Sonicate was plated out by log dilution method on Columbia blood agar plates. Bacterial colonies were then counted and changes expressed in log factors.

K-wires were coated with 1 to 50 nm of silver by running the magnetron sputtering at low currents. These coatings showed excellent adhesive properties within the 48 hours exposed with only 3.7% of silver leaching in buffered saline. The silver coated stainless steel wires showed a log 2.31 fold reduction in biofilm formation as compared to control wires (p< .001), Student t-test), the silver coated titanium wires showed a log reduction of 2.06, (p< .001, Student t-test). Animal studies demonstrated enormous difficulty in reproducing biofilm formation and showed a 0.49 log fold reduction in the titanium group when exposed to Staph Aureus (p< .01, Student t-test), the other groups showed no statistically significant reduction.

We have perfected a method of depositing tiny layers of anti-bacterial silver onto stainless steel and titanium, which is anti-infective in vitro but not in vivo. Further studies involving other metal coatings such as platinum and copper are warranted.

Introduction: While the incidence of infection associated with hip and knee prosthesis is low, with the increasing number of arthroplasties being carried out, the total number of such cases is increasing. Also increasing is the number of multi-resistant organisms. These factors have raised questions regarding the optimal antibiotic impregnated cement for use in both spacers and in cemented revisions.

While gentamycin, erythromycin, cefotaxime and vanomycin have a proven record as effective thermostatic antibiotics, newer antibiotics teicoplanin (although used in clinical practice) are as yet untested.

Aim: To investigate the effectiveness of teicoplanin impregnated cement against a Staph Aureus.

Method: A pure culture of Staphlococcus Aureus with known antibiotic sensitivities was obtained. Six batches of Palacos cement were mixed without under sterile conditions. One batch contained cement alone. The other 5 batches were mixed with one of gentamycin, vancomycin, erythromycin, cefotaxime and teicoplanin.

Group 1: A pure culture of over 60 colonies was grown on 5 Columbian blood agar plates. A 1cm spherical sample of each batch of the cement was placed on each plate at regular intervals and allowed to heat and harden.

Group 2: A further 1cm spherical ball of cement from each batch were placed on a further 5 blood agar plates which were then inoculated with the Staph Aureus and the cement was allowed to heat and harden.

Group 3: 24 hours later, the cement was placed on a further 5 blood agar plates which were then inoculated with the Staph Aureus.

Results: Group 1: None of the cement groups had any effect on the established colonies of Staph Aureus.

Groups 2 & 3: The cement without antibiotic had no effect on the growth of the antibiotic even when allowed to heat on the plate. All the other groups including the teicoplanin impregnated cement both initially and after 24 hours, caused a zone of inhibition, ie prevented bacterial growth.

Conclusion:

Heat alone did not affect the growth of the bacteria.

The role of nucleus pulposus (NP) biology in the genesis of sciatica is being increasingly investigated.

The aim of this study was to examine the ability of control and degenerate human nucleus pulposus to respond to an exogenous pro-inflammatory stimulus.

Control disc material was obtained from surgical procedures for scoliosis and degenerate disc tissue from surgical procedures for sciatica and low back pain. Disc specimens were cultured using a serumless technique under basal and lipopolysaccharride (LPS) stimulated conditions and the media harvested, aliquoted and stored at –80°C for subsequent analysis. Levels of IL-1β,TNFα, LTB4, GM-CSF, IL-6, IL-8, MCP-1, PGE2, bFGF and TGFβ-1 in the media were estimated using commercially available enzyme linked immunoabsorbent assay kits.

Neither basal nor LPS stimulated control or degenerate NP produced detectable levels of IL-1β, TNFα, LTB4 or GM-CSF. Control disc IL-8 secretion increased significantly with LPS stimulation, p< .018. Degenerate disc IL-6, IL-8 and PGE2 production increased significantly with LPS stimulation, p< .01, p< .001 and p< .005 respectively. LPS stimulated degenerate NP secreted significantly more IL-6, IL-8 and PGE2 than LPS stimulated control NP, p < 0.05, 0.02 and 0.003 respectively.

LPS induces an increase in both control and degenerate NP mediator production demonstrating the ability of human NP to react to a noxious stimulus by producing pro-inflammatory mediators. The difference in levels of basal and LPS stimulated mediator production between control and degenerate discs show that as a disc degenerates it increases both its level of inflammatory mediator production and its ability to react to a pro-inflammatory stimulus. The increased sensitivity of degenerating human NP to noxious stimuli and increased ability to respond with inflammatory mediator production support the role of NP as an active participant in the genesis of lumbar radiculopathy and discogenic back pain.

Aim: To investigate the effect of manipulation of the electrochemical environment around metallic implants on bacterial biofilm formation.

Background: The inability to prevent and treat prosthetic bacterial infection is a significant orthopaedic problem. Current antimicrobials are ineffective against bacterial biofilm communities. It is hypothesised that the alteration of the micro-environment could inhibit bacterial adhesion sufficiently to prevent biofilm formation allowing normal tissue integration to occur. Previous work by this group using zinc caused increased bacterial biofilm formation. Platinum being at the opposite end of the galvanic spectrum should cause the opposite effect.

Materials and Methods: Titanium 2mm Kirschner (K) wires (N=14) and Stainless Steel K wires (N=14) were cut into 50mm segments and sterilised. These were inoculated with either Staphylococcus Epidermitis (NC011047) or Staphylococcus Aureus (NC012973) suspensions. Superficial, non-adherent bacteria were removed by serial rinsing in phosphate buffered solution (PBS).

The K wires were added to either the culture media alone or the culture media containing platinum and incubated at 37 degrees for 24 hours. The wires were then removed from the media and rinsed in PBS. Samples were subjected to sonication, to fragment biofilms thereby releasing the bacteria, which were then quantified by serial log dilution technique and manual counting.

The presence of platinum reduced the adhesion of both Staph Aureus and Staph Epidermidis to stainless steel. This reduction was statistically significant using paired t-test (SPSS version 6.0). There was a significant reduction of adhesion with platinum in the Staph Aureus and titanium group while the reduction in the Staph Epidermidis and titanium group did not reach statistical significance.

Conclusion: The use of platinum to manipulate the microcurrent around metallic implants reduces bacterial biofilm formation in vitro. This has obvious clinical implications in prevention of implant infections.

Metallic implants are used frequently in the operative repair of joints and fractures in orthopaedic surgery. Metal infection is a catastrophic complication of the surgery with patients loosing their newfound mobility and independence, associated morbidity and mortality is high. Orthopaedic implant infection is chronic and biofilm based. Present treatment focuses on removing the infective substratum and implant surgically as well as prolonged anti-microbial therapy. Biofilms are 500 times more resistant than planktonic strains of bacterial flora to antibiotics, and with evolving resistant strains this form of therapy is loosing ground. Silver coatings on polymers and nylon (catheters, heart valve cuffs, burn dressings) have shown inhibition of this biofilm formation in its adhesion stage. Our aim was to deposit effective, minute, biocompatible, anti-bacterial layers of silver on orthopaedic stainless steel K-wires.

Combining magnetron sputtering with a neutral atom beam (Saddle Field) plasma source at 10⁻⁴ mbar in argon gas at temperatures of 60°C, a silver coating of 99.9% purity was deposited onto stainless steel orthopaedic K-wires. Coating thickness measurements were obtained using glancing angle x-ray diffraction of glass slides coated adjacent to wires. Magnetron parameters were modified to produce varying thickness of silver. Adhesiveness was examined using Rockwell punch tests and tape tests. Silver leaching experiments were carried out in phosphate buffered saline at 37°C for 48hrs and using inductive coupled plasma spectrometry to assess leached silver ions. Surface microscopy visualised physical changes in the coatings. Biofilm adhesion was determined by exposing wires to Staphylococcus aureus ATCC 29213 -NCTC 12973 for 15 min to allow biofilm adhesion and initiation. Wires were then cultured for 24h at 37°C in RPMI. Subsequently wires were sonicated at 50Hz in ringer’s solution and gently vortexed to dislodge biofilm. Sonicate was plated by the log dilution method on blood agar plates. Bacterial colonies were then counted and changes expressed in log factors. Surface biofilms were visualised using scanning electron microscopy. Cytotoxicity was assessed using fibroblast cell cultures lines.

K-wires were coated with 5 to 50 nm of silver by running the magnetron sputtering at low currents. These coatings showed excellent adhesive properties within the 48hr exposed with only 5% of silver leaching in buffered saline. The silver coated wires showed a log 3–4 fold reduction in biofilm formation as compared to control wires. The coatings showed no cytotoxic effects.

Silver coating of medical implants has been shown in urological catheters to reduce biofilm infection. We have perfected a method of depositing thin layers of anti-bacterial silver onto stainless steel, which is both anti-infective and biocompatible. This coating could potentially add to the armourary of anti-infective agents in the elimination of infection related orthopaedic implant failure.

Dupuytren’s contracture is characterised by abnormal fibroblast proliferation and extracellular matrix deposition in the palmar fascia. Fibroblast proliferation and matrix deposition in connective tissues are regulated by cytokines. A number of cytokines including transforming growth factor beta (TGFβ), basic fibroblast growth factor (bFGF), platelet derived growth factor (PDGF) and epidermal growth factor (EGF) are known to have potent anabolic effects on connective tissue. The aim of this study was to investigate the role played by anabolic cytokines in the pathogenesis of Dupuytren’s disease.

Twelve specimens of Dupuytren’s contracture and six control specimens of palmar fascia obtained from patients undergoing carpal tunnel release were cultured using a serumless method under standard conditions for 72 h. Levels of TGFβ-1, bFGF, PDGF and EGF in the medium were estimated using an enzyme linked immunoabsorbent assay technique.

Neither Dupuytren’s tissue nor control palmar fascia produced any EGF. The mean (±S.D.)levels of bFGF, PDGF and TGFβ-1 produced by cultured palmar fascia were: 1270 ± 832, 74 ± 24, < 7, and for Dupuytren’s tissue were 722 ± 237, 139 ± 76.6, 645 ± 332, respectively. The levels of PDGF and TGFβ-1 were significantly higher in Dupuytren’s tissue.

PDGF is produced in increased amounts by Dupuytren’s tissue. This may contribute to the fibroblast proliferation and increased ECM deposition observed in this condition. TGFβ-1 is not produced by normal palmar fascia but is produced in large amounts by Dupuytren’s tissue. The major physiologic role of TGFβ-1 is to stimulate formation of fibrous tissue. It plays a major role in wound healing and also in pathological conditions where fibrosis is a prominent feature. Inappropriate production of TGFβ-1 in the palmar fascia in Dupuytren’s disease may play a central role in initiating and stimulating the abnormal fibroblast proliferation and collagen synthesis seen in this condition.

The pathophysiology of discogenic low back pain is poorly understood. The morphological changes occurring in disc degeneration are well documented but unhelpful in determining if a particular degenerate disc will be painful or not.

Herniated intervertebral disc tisssue has been shown to produce a number of pro-inflammatory mediators and cytokines. No similar studies have to date been done utilising disc material from patients with discogenic low back pain.

The aim of this study was to compare levels of production of interleukin-6 (IL-6), interleukin-8 (IL-8) and Prostaglandin E2 (PGE2) in disc tissue from patients undergoing discectomy for sciatica with that from patients undergoing fusion for discogenic low back pain.

Tissue from 50 patients undergoing discectomy for sciatica and 20 patients undergoing fusion for discogenic low back pain was cultured and the medium harvested for subsequent analysis using an enzyme linked immunoabsorbent assay method. Statistical analysis of the results was performed using the Mann-Whitney test.

Disc specimens from both experimental groups produced measurable levels of all three mediators. Mean production of IL-6, IL-8 and PGE2 in the sciatica group was 26.2±75.7, 247±573 and 2255±3974 respectively. Mean production of IL-6, IL-8 and PGE2 in the low back pain group was 92±154, 776±987 and 3221±3350 respectively (data = mean production pg/ml ± 1 standard deviation).

There was a statistically significant difference between the levels of IL-6 and IL-8 production in the sciatica and low back pain groups (p< 0.006 and p< 0.003 respectively).

The high levels of pro-inflammatory mediator production found in disc tissue from patients undergoing fusion for discogenic LBP may indicate that nucleus pulposis pro-inflammatory mediator production is a major factor in the genesis of a painful lumbar disc. This could explain why some degenerate discs cause LBP while other morphologically similar discs do not.

Infection around implanted biomaterials in humans is a major healthcare issue and current ability to effectively prevent and treat such infections using antibiotics is limited. The hypothesis of the study was that surface charge could be manipulated to a positive state and thus moderate bacterial adhesion to the implant. The surface charge was manipulated by creating a galvanic cell using a zinc strip in a standard suction drain.

Adhesion of Staph. aureus and Staph. Epidermidis to stainless steel and titanium implants in vitro and in vivo was quantified by sonication and log dilution technique. The response to this surface manipulation of charge varied for both the bacterial species and the type of metallic implant. In vitro studies produced an 88% reduction in Staph. aureus adhesion to stainless steel and a 36% reduction in adhesion to titanium. However Staph. epidermidis showed an increased adhesion to stainless steel (Log 1.81 ± 1.12 in vitro) and to titanium (log 1.80 ± 0.12). Staph aureus demonstrated a log increase of 1.56± 0.09 in adhesion to titanium in vivo while Staph. epidermidis generated a log increase of 3.97± 0.10 in adherent bacteria.

In this experiment we have shown that alteration of the electrochemical environment around an implant influences bacterial adhesion. While our technique is not therapeutically viable, further manipulation of surface charge of an implant is possible using other electroactive materials. This may be explored in the prophylactic treatment of implant infection

Cervical orthoses are currently used in the pre-hospital stabilization of trauma patients and also as part of the definitive non-operative treatment of injuries of the cervical spine. The construct stability of orthoses is compromised by virtue of the fact that the cervical spine exhibits the greatest range of movement amongst the spinal segments and also because of the complex composite nature of neck movements.

To date, data has been difficult to attain comparing the various orthoses, in the various planes of movement of the cervical spine. Various methods including the use of inclinometers, goniometers, radiography, computerized tomography and cineroentgenography have been used in an attempt to measure these movements but none have provided satisfactory triplanar data.

This paper uses the Zebris ultrasonic 3-D motion analysis system to measure flexion, extension, range of lateral bending and range of axial rotation in five similar male and five similar female subjects with no history of neck injuries. The subjects were tested in a soft and hard collar, Philadelphia, Miami J and Minerva.

Results show that the Minerva is significantly the most stable construct for restriction of movement in all planes in both groups (p< 0.002 vs. all groups, Student’s t-test), but more impressively in the female group. In the male group, the standard hard collar performs second best in flexion, lateral bending and axial rotation. In the female group, the second most stable orthosis is the Philadelphia in flexion/extension and the hard collar in lateral bending and axial rotation (p< 0.05 vs. next most stable in all cases, Student’s t-test). The soft collar in both groups offered only minimal resistance to movement in any plane, e. g. 45.07° vs. 46.45° extension vs. normal in males and 40.15° vs. 41.8° extension vs. normal in females.

Looking at these results together allows the ranking of the measured orthoses in order of the three-dimensional stability they offer. Furthermore, they validate the Zebris as a reliable and safe method of measurement of the complex movements of the cervical spine with low intersubject variability.

In conclusion, this paper, for the first time presents reproducible data incorporating the composite triplanar movements of the cervical spine thus allowing comparative analysis of the three-dimensional construct stability of the studied orthoses.

Herniated intervertebral disc tissue has been shown to produce a number of proinflammatory mediators and cytokines, but there have been no similar studies using discs from patients with discogenic low back pain.

We have compared the levels of production of interleukin-6 (IL-6), interleukin-8 (IL-8) and prostaglandin E₂ (PGE₂) in disc tissue from patients undergoing discectomy for sciatica (63) with that from patients undergoing fusion for discogenic low back pain (20) using an enzyme-linked immunoabsorbent assay.

There was a statistically significant difference between levels of production of IL-6 and IL-8 in the sciatica and low back pain groups (p < 0.006 and p < 0.003, respectively).

The high levels of proinflammatory mediator found in disc tissue from patients undergoing fusion suggest that production of proinflammatory mediators within the nucleus pulposus may be a major factor in the genesis of a painful lumbar disc.