The current trend in kyphosis correction is for “every level” instrumentation to achieve intraoperative stability, correction, fusion and implant longevity.

We evaluate the medium term follow up of a low implant density (LID) construct.

All patients with adolescent kyphosis (idiopathic or Scheurmann's) on our deformity database were identified. Radiographs and records were analysed for neurological complications, correction and revision.

The constructs included were all pedicle screw anchors with multiple apical chevron osteotomies and a proximal and distal “box” of 6 to 8 screws. A four rod cantilever reduction manoeuvre with side to side connectors completed the construct. Kyphosis for any other cause was excluded. Follow up less than 12 months was excluded.

23 patients were identified with an average follow up 27 months (72 to 12 months) and a mean implant density of 1.1 (53.5% of “available” pedicles instrumented).

There was 1 false positive neurophysiological event without sequelae (4%).

There were no proximal junctional failures (0%).

There were no pseudarthroses or rod breakages (0%).

There was 1 loss of distal rod capture (early set screw failure) (4%). This was revised uneventfully.

There were 4 infections requiring debridement (early series).

Average initial correction was 44% (77.7 degrees to 43.5 degrees) with a 1% loss of correction at final follow up (43.5 to 44.0 degrees). The fulcrum bending correction index was 107% (based on fulcrum extension radiographs). 85% of curves had a fulcrum flexibility of less than 50%.

The average cost saving compared to “every level “instrumentation was £5700 per case.

This paper shows that a LID construct for kyphosis has technical outcomes as good as high density constructs. The obvious limitation of the study is the small number of patients in the cohort.

The infection rates have improved with changes to perioperative process in the later series of patients. We do not believe these are a consequence of the construct itself.

The purpose of this study is to investigate what effect cross links have on scoliosis constructs and whether cross links may be used instead of pedicle screws at the apex of the deformity

The rotational stiffness of six different construct designs was investigated on scoliotic sawbone models with zero, one or two cross links. In three of the constructs the screws at the apex were removed. Testing was performed to an average torque of 3Nm and ration was detected using electromagnetic motion tracking system.

The stiffness in axial rotation of all constructs increased with the number of cross links, however the difference was not statistically significant. In constructs with apical screws the stiffness increased by 3.01% and 12.9% for one and two cross links respectively. In constructs without apical screws the increase was 1.64% and 14.3% for one and two cross links respectively.

The total stiffness of the construct increased with the addition of apical screws by 20%, 21.7% and 18.8% for zero, one and two cross links respectively. This increase was statistically significant using a paired t-test (p= 0.01142).

On the basis of these results we conclude that the use of cross links in scoliosis correction surgery is not necessary. Pedicle screws positioned at the apex of the scoliosis curve statistically increase the stiffness in axial rotation and are therefore necessary to promote an environment suitable for bony fusion.

Introduction:

Shoulder balance after surgery is one main attribute of the cosmetic outcome. It has been difficult to assess on 2D images. The balance results from the interaction of rib cage, shoulder joint and scapular positions, spinal alignment and rotation, muscle size and co-ordination and pain interaction. Attempts have been made to predict shoulder balance from radiograph measurements. There is no consensus on this.

Aim:

To evaluate the effect of intraoperative manoeuvres on the rib hump.

Aim:

To evaluate the effect of a stiffer rod in normalising thoracic hypokyphosis in adolescent idiopathic scoliosis (AIS).

Introduction:

Scheuermann's kyphosis is a fixed round back deformity characterised by wedged vertebrae seen on radiograph. It is known patients presented with a negative sagittal balance before operation. Few studies investigated the outcome after operation, especially the change in the lumbar hyperlordosis.

Pedicle screw constructs (PSC) in scoliosis are a recently established and widely accepted method of managing scoliotic curves posteriorly. There is a perceived improved coronal and rotational correction when compared to other posterior only constructs. With continued use of this method, the authors and deformity surgeons in general have become aware of persistent thoracic hypokyphosis.

This review of 3 years of scoliosis cases using PSC looks at four different implant strategies utilised to manage this problem and our current practice. These strategies were:

All titanium 5.5 mm rod diameter (Expedium, Depuy spine)

All titanium 5.5 mm rod diameter with periapical washers (Expedium, Depuy spine)

All titanium 6.0 mm rod diameter (Pangea, Synthes)

Titanium pedicle screws with 5.5 mm diameter cobalt chrome rods (Expedium Depuy spine)

We have reviewed our outcomes with these strategies with respect to thoracic hypokyphosis. Strategy 1 had the highest rate of hypokyphosis on postoperative radiographs. Strategy 4 seems to have the best correction of coronal and sagittal plane abnormality post operatively. As a consequence, our current practice is the use of titanium pedicle screws and 5.5 mm diameter cobalt chrome rods when managing scoliosis with a pedicle screw construct.

Introduction

We propose that Total Hip Replacement with correction of fixed flexion deformity of the hip and exaggerated lumbar lordosis will result in relief of symptoms from spinal stenosis, possibly avoiding a spinal surgery. A sequence of patients with this dual pathology has been assessed to examine this and suggest a possible management algorithm.

To describe the prevalence and incidence of Methicillin-resistant Staphylococcus aureus (MRSA) colonisation during the patient journey for patients admitted to orthopaedic and trauma wards, we carried out a prospective audit at the University Hospital of North Staffordshire NHS Trust, England.

The Study Population comprised patients admitted to the trauma and elective orthopaedic wards, with an expected stay of 48 hours or more between March and May 2003.

Patients were swabbed for MRSA colonisation on ward admission, transfer to another ward and discharge from hospital. Elective patients undergoing major joint surgery were also swabbed at a pre-operative assessment clinic. Colonised patients were treated depending on individual risk assessment.

Five hundred and fifty-nine eligible patients were admitted to hospital. Of these, 323 (101 elective, 192 trauma and 30 non-orthopaedic) patients were included in the study, of whom 28 elective patients (28%), 43 trauma patients (22%), and seven non-orthopaedic patients (23%) were colonised with MRSA at any time during the audit period. Of the 80 patients identified as negative for MRSA colonisation at pre-assessment screening and included in the audit, ten (9.5%) were found to be colonised on admission.

There is a high prevalence of MRSA colonisation in patients admitted to the orthopaedic and trauma wards in our setting. A policy of pre-admission screening, though able to identify MRSA carriage does not guarantee that patients are not colonised in the period between screening and admission. Consideration should be given to screening all patients for MRSA who are admitted to an orthopaedic ward.

Purpose of Study: To observe the efficiency of the combined motor-somatosensory monitoring and somatosensory-alone monitoring to identify the intra-operative neurologic changes.

Methods and Results: We retrospectively assessed 123 cases in our centre, who had complete neurophysiological report while undergoing corrective spinal deformity surgery with spinal monitoring, from 2004 to 2008. Combined motor-somatosensory, somatosensory-alone and motor-alone monitoring were applied in sixty five, fifty and eight operations, respectively. We also looked at the factors that could potentially affect the neuro-physiologic monitoring, such as preoperative neurological status, anaesthetic method, blood loss, competency level of the monitoring team and the reaction of the surgical team to a significant monitoring event. In total, there were only two cases of true positive event, defined as a significant intraoperative event and postoperative neurological deficit. Both of these cases had combined monitoring during their procedures. No case of false negative was observed. There were also five cases with a significant intraoperative event without post operative neurologic sequel (false positive). Four of these had combined monitoring, with complete normal sensory monitoring and abnormal motor monitoring, which prompted the operating team to the appropriate action.

Conclusion: Based on this observation, it is felt that the combined monitoring during spinal deformity correction procedures is superior to the sensory-alone monitoring for identifying the impending neurologic deficits. This is in accordance with the previous reports and recommendations.

Introduction: Scheuermann’s disease is defined as thoracic kyphosis greater than 45° with greater than 5° of anterior wedging in 3 consecutive vertebrae. We describe a new technique for the surgical treatment of thoracic kyphosis due to Scheuermann’s disease. Eleven patients were treated in our series.

Results: The average preoperative kyphotic angle was 83.3 degrees (58 – 94 degrees). Multiple posterior closing wedge osteotomy was performed and four rods (two proximal and two distal) were contoured and fixed to pedicle screws and the deformity reduced by the cantilever technique.

The average postoperative kyphotic angle was 41.1 degrees (range 25–54 degrees) giving an average correction of 42.2 degrees per patient. The average postop lumbar angle was 51.8 degrees (range 20–70 degrees). The average follow up time was 25.3 months (range 6–60 months). At follow up the kyphotic angle was found to be 42.8 degrees average (range 24–55 degrees) and the lumbar angle was 57.6 degrees average (range 42–70 degrees). This technique is superior as it avoids sudden stretching of the anterior vasculature and possible rupture of the anterior longitudinal ligament (ALL) and provides correction at multiple levels, avoiding build-up of stress at any single level.

Conclusion: We find this technique simple and effective in reducing curves of high magnitude and the reduction was maintained in the long term. Our complication rate was comparable to that quoted in literature.

Ossification of the posterior longitudinal ligament (OPLL) is a condition found predominantly in the oriental population and is rarely seen in non orientals. OPLL can present with cervical canal stenosis and myelopathy (including central cord syndrome), often following minor trauma. Co-existence of OPLL with diffuse idiopathic skeletal hyperostosis (DISH) is a rare condition and very few reports of such patients exist in literature. Here we report the case of a Caucasian with co-existing DISH and OPLL, presenting with acute central cord syndrome associated with fracture of the ossification. A 64 year old Caucasian farmer was transferred to our spinal unit with weakness in the right upper limb following a road traffic accident. On examination he had hyperaesthesia in both upper limbs and motor power of grade 4 in the right upper limb with a distal motor power of grade 3 in the hand. There was no motor deficit in the left upper limb or lower limbs. Radiographs revealed an ossification of the posterior longitudinal ligament with a break at C2 and C3 levels. He also had exuberant soft tissue ossification in the cervical and thoracic spines, suggestive of diffuse idiopathic skeletal hyperostosis (DISH). He recovered completely in 6 weeks with non operative treatment. Fracture of the posterior longitudinal ligament has not been widely reported, although it is possibly more prevalent than is recognised. We report this case in order to highlight the importance of recognising this condition in non oriental populations and to demonstrate that non operative treatment has a good prognosis.

While previous studies have highlighted possible aetiological factors for adolescent idiopathic scoliosis (AIS), research employing gait measurements have demonstrated asymmetries in the ground reaction forces, suggesting a relationship between these asymmetries, neurological dysfunction and spinal deformity. Furthermore, investigations have indicated that the kinematic differences in various body segments may be a major contributing factor. This investigation, which formed part of a wider comprehensive study, was aimed at identifying asymmetries in lower limb kinematics and pelvic and back movements during level walking in scoliotic subjects that could be related to the spinal deformity. Additionally, the study examined the time domain parameters of the various components of ground reaction force together with the centre of pressure (CoP) pattern, assessed during level walking, which could be related to the spinal deformity. Although previous studies indicate that force platforms provide good estimation of the static balance of individuals, there remains a paucity of information on dynamic balance during walking. In addition, while research has documented the use of CoP and net joint moments in gait assessment and have assessed centre of mass (CoM)–CoP distance relationships in clinical conditions, there is little information relating to the moments about CoM. Hence, one of the objectives of the present study was to assess and establish the asymmetry in the CoP pattern and moments about CoM during level walking and its relationship to spinal deformity.

The investigation employed a six camera movement analysis system and a strain gauge force platform in order to estimate time domain kinetic parameters and other kinematic parameters in the lower extremities, pelvis and back. 16 patients with varying degrees of deformity, scheduled for surgery within a week took part in the study. The data for the right and left foot was collected from separate trials of normal walking. CoP was then estimated using the force and moment components from the force platform.

Results indicate differences across the subjects depending on the laterality of the major curve. There is an evidence of a relationship between the medio-lateral direction CoP and the laterality of both the main and compensation curves. This is not evident in the anterior-posterior direction. Similar results were recorded for moments about CoM. Subjects with a higher left compensation curve had greater deviation to the left. Furthermore, the results show that the variables identified in this study can be applied to initial screening and surgical evaluation of spinal deformities such as scoliosis. Further studies are being undertaken to validate these findings.

Scheuermann’s disease is defined as thoracic kyphosis greater than 45° with greater than 5° of anterior wedging in 3 consecutive vertebrae. We describe a new technique for the surgical treatment of thoracic kyphosis. Eleven patients were treated in our series. The average preoperative kyphotic angle was 83.3 degrees (58–94 degrees). Multiple posterior closing wedge osteotomy was performed and four rods (two proximal and two distal) were contoured and fixed to pedicle screws and the deformity reduced by the cantilever technique. The average postoperative kyphotic angle was 41.1 degrees (range 25–54 degrees) giving an average correction of 42.2 degrees per patient. The average postop lumbar angle was 51.8 degrees (range 20–70 degrees). The average follow up time was 25.3 months (range 6–60 months). At follow up the kyphotic angle was found to be 42.8 degrees average (range 24–55 degrees) and the lumbar angle was 57.6 degrees average (range 42–70 degrees). We find this technique simple and effective in reducing curves of high magnitude and the curve was maintained in the long term. Our complication rate was comparable to that quoted in literature. This technique is superior as it avoids sudden stretching of the anterior vasculature and possible rupture of the anterior longitudinal ligament (ALL) and provides correction at multiple levels, avoiding build-up of stress at any single level.

Objective: To establish a relationship between the scoliotic curve and the centre of gravity during level walking in patients diagnosed with adolescent idiopathic scoliosis.

Background data: There is no established aetiology for adolescent idiopathic scoliosis and the reasons for the progression of the curve are still unknown. But there is an agreement regarding multifactorial nature of the aetiology among many authors. One of the interesting factors suggested is asymmetry in the ground reaction forces during walking and their relation to the deformity, indicated by gait analysis studies. Studies have also indicated that the cause and progression of the deformity in idiopathic scoliosis may be due to kinematic differences in the spine, pelvis and lower limb. If a relation could be established between the scoliotic curve and the centre of gravity, it is possible to draw some conclusions regarding the aetiology. There is no method or study till date which looked at the relation of scoliotic curve with the centre of gravity.

Materials and Methods: Patients who were diagnosed with adolescent idiopathic scoliosis were selected. Informed consent was taken for gait analysis. 16 Markers were placed over the lower limb and force plate, using modified Helen Hays set. 5 markers were placed over the surface landmarks of selected spinous processes (C7, T6, T12, L3 and S2). Ground reaction forces and motion data were analysed, using APAS gait system and the lines of vectors were developed and correlated with the marker over the second sacral spinous process.

Results: With the help of this method we were able to establish a relationship between the scoliotic curve and centre of gravity line. These in turn were expressed in terms of changes in the moment in relation to the midline of the coronal plane. The results indicated that the changes were proportional to the severity of the scoliotic curve.

Conclusion: We present a new method of establishing the relation of scoliotic curve with the ground reaction force and the centre of gravity. Initial results obtained from this method indicate the asymmetries in the deviation of the centre of gravity line in relation to the curve, during walking. Ongoing studies based on this method, will help to understand the pathogenesis and aetiology of scoliosis on a biomechanical basis which can help in developing new treatment modalities and efficient management of these patients.

Objective: To report a case of non-obstructive urinary retention secondary to cord compression due to metastases from undiagnosed carcinoma of prostate in a middle aged patient. This is the first case to be reported of its kind.

Case Report: A 58-year old brick layer, presented with urinary retention with overflow incontinence was referred by GP to A& E. No obstruction was felt during catheterisation and residual urine of 1.2 litres was drained. He also had dull low back pain since 5–6 weeks that was relieved by simple analgesia and he was able to work normally. He had no other symptoms or significant past medical history. Clinical examination including digital rectal examination (DRE) was normal. Laboratory investigations were normal except a rise in Alkaline phosphatase(194U/L) and ESR (43 mm/hr). X-rays of his spine were normal. MRI scan of the spine showed multiple metastatic lesions, bilateral end plate fractures and loss of vertebral body height of D12 with bulging of posterior vertebral body wall causing extradural compression of the conus.

An urgent D12 decompression and biopsy of D12 was done with D10-L2 instrumentation. PSA levels were > 500ng/ml.Histopathology showed moderately to poorly differentiated adenocarcinoma with a cribriform pattern. Immunohistochemistry showed a strong staining for PSA consistent with metastatic adenocarcinoma of the prostate. Post-operatively, he regained bladder control and was referred to oncologists for further management.

Conclusion: Urinary retention may be the only presenting symptom of spinal cord compression due to metastasis from prostate cancer. High index of suspicion of prostate cancer in middle-aged and elderly male patients with urinary retention, especially when associated with back pain of any severity, even though prostate is normal on DRE is needed. PSA in patients complaining of low back pain who are at high risk for prostate cancer is recommended, even though DRE is normal.

Objective: To describe the prevalence and incidence of methicillin resistant Staphylococcus aureus (MRSA) colonisation in patients in the Trauma and Orthopaedic wards of the University Hospital of North Staffordshire.

Design Prospective audit.

Patients and methods: Over a three month period from 1st March to 31st May 2003 359 patients attending the elective orthopaedic outpatient department for major joint surgery were screened at the pre-operative assessment clinic; 105 of these patients were screened again on the elective orthopaedic wards. 197 patients were screened on the trauma wards. 31 patients of other/outlying specialities were screened. Patients whose stay was expected to be for 48 hours or more were included in the audit. Patients were screened for MRSA colonization on admission, transfer and discharge. Colonised patients were treated according to the local infection control policy.

Results: 31 elective orthopaedic patients (29%); 46 trauma patients (23%) and 8 other/outlying patients (26%) were colonized with MRSA. On admission, 23 elective orthopaedic patients (22%), 32 trauma patients (16%), and 7 patients (23%) which were of other/outlying specialties were colonized with MRSA. 22 patients (6.6%) positive on admission, treated with eradication therapy, became negative on discharge. An additional 22 patients (6.6%) positive on admission became negative on discharge without receiving any treatment. During the audit period, 23 patients (6.9%) were negative for MRSA on admission and positive on discharge. 9 patients (39%) and 20 patients (62.5%) colonised in elective and trauma wards respectively, developed an MRSA infection, which required treatment.

Conclusion: There is a relatively high prevalence of MRSA colonisation in patients admitted to orthopaedic and trauma wards. A proportion (22%) of patients are colonised with MRSA in the short time between testing and admission. Not all patients positive for MRSA following admission to hospital will have been colonised within the nosocomial environment.

Study Design: An analysis of patients admitted with cervical trauma, comparing: those managed with rigid collars until definitive management; rigid collar usage overnight; and no rigid collar usage from outset.

Objectives: To determine the safety of omitting a rigid collar following cervical trauma, whilst awaiting definitive management.

Summary of Background Data: The use of a rigid collar can result in pain, occipital sores, as well as raised intracranial pressure in head injured patients.

Subjects: Fifty one patients with proven cervical fractures were analysed. Three groups of patients were identified with respect to their initial management after admission to the ward until definitive management: 1) Hard collar, sandbags and bed rest 2) Hard collar in situ overnight and then sandbags and bed rest. 3) Sandbags and bed rest. All patients had full spinal care and precautions, with rigid collars used for any transfers. The spectrum of injury severity was similar throughout all 3 groups.

Outcome measures: Loss of alignment, neurological compromise and complications related to the rigid collar.

Results: There was no loss of reduction or progression of neurological deficit in any group. There were compliance issues in the rigid collar group. Two patients developed occipital skin problems following rigid collar use. All groups proceeded to definitive management successfully.

Conclusion: No significant adverse events were noted in any group. Management without a rigid collar depends on good nursing care. It is more comfortable for the patient and avoids the potential problems encountered with rigid collar use. In compliant patients not requiring immediate definitive management the omission of the rigid collar did not result in loss of reduction or neurological compromise. We feel such collars should be for transport and extrication only.

Introduction and Objective: Although the causation and progression of adolescent idiopathic scoliosis (AIS) remains unclear, a recent review has highlighted a series of possible aetiological factors. Additionally, research investigations have indicated that the kinematic differences in various body segments may be a major contributing factor. The value of gait analysis systems employed to measure dynamic back movements in furthering understanding of spinal deformity has also been demonstrated by various studies. Research employing gait measurements have indicated asymmetries in the ground reaction forces and have suggested relationship between these asymmetries, neurological dysfunction and spinal deformity. This investigation, which formed part of a wider comprehensive study, was aimed at identifying asymmetries in lower limb kinematics and pelvic and back movements during level walking in scoliotic subjects that could be related to the spinal deformity.

Design and Methodology: The research employed a movement analysis system and a strain gauge force platform to estimate time domain kinetic parameters and other kinematic parameters in the lower extremities, pelvis and back. 16 patients with varying degrees of deformity, scheduled for surgery within a week took part in the study.

Results and conclusions: The findings have demonstrated the presence of asymmetries in kinetic parameters in the scoliotic subject and have also served to highlight the value of using kinetic and kinematic parameters in developing the understanding of the pathogenesis and aetiology of scoliosis. In addition, the results have also indicated that the variables identified in the study can be applied to initial screening and surgical evaluation of spinal deformities such as scoliosis. Further studies are being undertaken to validate these findings.

Objective The hypothesis of this study is that the flexibility of idiopathic scoliosis curves as measured by traction radiography performed under general anaesthetic (TUA) will be superior to supine bending radiography. Subsequently, this may aid in determining the surgical approach, sparing patients anterior release surgery, and show greater correlation with the postoperative result. This is a new technique, not previously reported in the literature.

Design A prospective comparison between TUA and supine bending radiography to determine curve flexibility, and examine their relationship with anterior release surgery and postoperative correction.

Subjects This study was based on 21 patients with a diagnosis of idiopathic scoliosis, admitted for corrective surgery at our unit.

Outcome measures The amount of correction achieved by each of the two methods on the preoperative curve was examined using a paired t-test. The influence of the TUA on the decision for anterior release surgery was noted, along with the correlation of each method with postoperative correction.

Results On statistical analysis with a paired t-test, TUA showed significantly greater curve flexibility than that shown by supine bending radiographs (p< 0.001) irrespective of curve classification or magnitude. Of the 11 patients planned for anterior release surgery with posterior fusion, the use of TUA obviated this in 9 (82%) by demonstrating greater preoperative curve flexibility. Excluding thoracolumbar curves, TUA showed significantly greater postoperative correlation than supine bending radiography (R=0.79, R=0.61 respectively).

Conclusion In our unit, traction radiography performed under general anaesthetic is superior to supine bending radiography in assessing curve mobility prior to surgery. Performing TUA has significant benefits to patients in avoiding unnecessary anterior release surgery, and has greater correlation with postoperative correction. In studying fulcrum bending radiographs, Cheung1 showed similar benefits in avoiding anterior release and we therefore recommend the use of these methods by other institutions.