Angular deformity in the lower extremities can result in pain, gait disturbance, deformity and joint degeneration. Guided growth modulation uses the tension band principle with the goal of treatment being to normalise the mechanical axis. To assess the success of this procedure we reviewed our results in an attempt to identify patients who may not benefit from this simple and elegant procedure. We reviewed the surgical records and imaging in our tertiary children's hospital to identify all patients who had guided growth surgery since 2007. We noted the patient demographics, diagnosis, peri-operative experience and outcome. All patients were followed until skeletal maturity or until metalwork was removed.Introduction
Materials and Methods
Angular deformity in the lower extremities can result in pain, gait disturbance, cosmetic deformity and joint degeneration. Up until the introduction of guided growth in 2007, which has since become the gold standard, treatment for correcting angular deformities in skeletally immature patients had been either an osteotomy, a hemiepiphysiodesis, or the use of staples. We reviewed the surgical records and diagnostic imaging in our childrens hospital to identify all patients who had guided growth surgery since 2007. All patients were followed until skeletal maturity or until their metalwork was removed.Purpose
Methods
Our aim was to use CT Scanogram to evaluate fibular growth, and thus calculate normal growth velocity, which may aid in determining the timing of epiphysiodesis. Current understanding of normal lower limb growth and growth prediction originates in the work of Anderson et al published in the 1960s. There now exist several clinical and mathematical methods to aid in the treatment of leg length discrepancy, including the timing of epiphysiodesis. Early research in this area provided limited information on the growth of the fibula. It is now well recognized that abnormal growth of paired long bones may evolve into deformity of clinical significance. Existing work examining fibular growth used plain film radiography only. Computed Tomography (CT) scanogram is now the preferred method for evaluating leg length discrepancy in the paediatric population. We calculated fibular growth for 28 children (n = 28, 16 girls and 12 boys) presenting with leg length discrepancy to our unit. Mean age at presentation was 111.1 months (range 33 – 155 months). For inclusion, each child had to have at least five CT scanograms performed, at six monthly intervals. Fibular length was calculated digitally as the distance from the proximal edge of the proximal epiphysis to the most distal edge of the distal epiphysis. For calculation purposes, mean fibular length was determined from two measurements taken of the fibula. A graph for annual fibular growth was plotted and fibular growth velocity calculated. CT Scanogram may be used to calculate normal fibular growth in children presenting with leg length discrepancy.
The purpose of this study was to review the outcomes of four children with genu valgum secondary to Hurler Syndrome treated with circular external fixators (frames) for angular correction. We retrospectively reviewed the medical and radiographic records of four children with Hurler Syndrome and genu valgum treated with frames. Three children had simultaneous bilateral tibial corrections. The fourth child had unilateral femoral correction. The mean age of the children was 14 years at application of frame. Mean duration of frame was 113 days for the tibial frames, and the femoral frame remained in-situ for 150 days. Correction was assessed clinically, and radiologically with x-rays and CT scannograms, with excellent results in all four cases. The complexities of each individual case necessitated specific and individualised treatment for each child. Complications included further deformities arising in treated and un-treated long-bones both during and after application of frame. Prior to the introduction of bone marrow transplantation, the average life expectancy of children with Hurler Syndrome was seven years. With bone marrow transplantation, affected children are now living much longer, and many develop characteristic long bone deformities in their lower limbs. These deformities are progressive and can be multifocal and polyostotic. Managament can be extremely challenging, and prior reports of management with hemiepiphysiodesis with staples and 8-plates have been mixed. We believe that this is the first series of circular frame lower limb reconstruction in children with Hurler Syndrome. The flexibility and adaptability of frames confers a unique advantage in the management of these complex deformities.
The management of the dysplastic hip represents a clinical and a technical challenge to the paediatric orthopaedic surgeon. There is a great deal of variation in the degree and direction of acetabular dysplasia. Preoperative planning in the dysplastic hip is still largely based on plain radiographs. However, these plain films are a 2D projection of a 3D structure and measurement is prone to inaccuracy as a result. Hip arthrography is used in an attempt to analyse the 3D morphology of the hip. However, this still employs a 2D projection of a 3D structure and in addition has the risk of general anaesthesia and infection. Geometrical analysis based on multiplanar imaging with CT scans has been shown to reduce analysis variability. We present a system for morphological analysis and preoperative of the paediatric hip using this model. Our system can be used to determine the most appropriate osteotomy based on morphology. This system should increase the accuracy of preoperative planning and reduce the need for arthrography.
Developments in the use of ultrasound during pregnancy for assessment of fetal spine abnormalities indicate a need for accurate information about the antenatal development of the vertebral column. The published work is deficient in this regard, with available data examining only the period of 8–26 weeks. The aims of this study are to establish antenatal spine growth curves with fetal radiographs, to establish growth velocity curves for each anatomical spinal, region and to calculate the multiplier factor during antenatal life. 75 anteroposterior spine radiographs were retrieved from the fetal pathology unit. Cases with spinal anomalies were excluded from analysis. Individual vertebral regions were measured from radiographs with the method of Bagnall and colleagues,1 with use of DICOM software. Polynomial regression analysis was applied to each measurement with PASW statistics 18 (SPSS, Chicago, IL, USA).Introduction
Methods
Congenital Talipes Equinovarus (CTEV) occurs in approximately 1 in 1000 live births. Most cases occur as an isolated birth defect and are considered idiopathic. The widespread adoption of the Ponseti technique of serial casting followed by Achilles tenotomy and long term bracing has revolutionised the outcomes in CTEV. In most cases, plantigrade, flexible, pain-free feet may be produced without the need for extensive surgery. It is estimated that about 10% of cases of CTEV are not idiopathic. These feet are stiffer and more challenging to treat. In particular, there is little evidence in the literature concerning the efficacy of the Ponseti method in these cases. In our institution, a dedicated weekly Ponseti clinic has operated since 2005. To date 140 patients have been treated. We prospectively enter all details regarding their management onto an independent international database. The aim of this study was to audit the non-idiopathic cases of CTEV and to assess the effectiveness of the Ponseti technique in these challenging cases. Outcome measures included the Pirani score and eventual need for surgical intervention. We identified 29 cases (46 feet) with non-idiopathic CTEV. This comprises 21% of our workload. Seventeen were bilateral. The commonest diagnoses were neuromuscular conditions such as spina bifida (5 cases) and cerebral palsy (3 cases). There were 4 cases of Trisomy 21. Other causes included Nail Patella syndrome, Moebius syndrome, Larsen syndrome and Ito syndrome. In approximately 12% of cases, the underlying disorder remained undiagnosed despite thorough medical and genetic testing. In cases of non-idiopathic CTEV, the mean starting Pirani score was 5.5 (out of 6). After serial casting and Achilles tenotomy, the average score was 2.0. Twenty-one of 46 feet (46%) ultimately required further surgical intervention (mostly posteromedial release). We found that certain conditions were more likely to be successfully treated with the Ponseti method – these included conditions characterised by ligamentous laxity such as Trisomy 21 and Ehlers Danlos syndrome. All patients showed some improvement in Pirani score after serial casting. We believe that it is essential to attempt the Ponseti method of serial casting in all cases of CTEV. More than half of all non-idiopathic cases will not require further surgical intervention – and those that do are not as stiff thanks to the effects of serial casting. Thus, the surgery required is not as complex as it might otherwise have been. This is the largest series of its kind in the current medical literature.
Patients with spinal cord injuries have been seen to have increased healing of attendant fractures. This for the main has been a clinical observation with laboratory work confined to rats. While the benefits in relation to quicker fracture healing are obvious, this excessive bone growth (heterotopic ossification) also causes unwanted side effects, such as decreased movement around joints, joint fusion and renal tract calculi. However, the cause for this phenomenon remains unclear. This paper evaluates two groups with spinal column fractures – those with neurological compromise (n=10) and those without (n=15), and compares them with a control group with isolated long bone fractures (n=12). Serum was taken from these patients at five specific time intervals post injury (1 day, 5 days, 10 days, 42 days (6 weeks) and 84 days (12 weeks)). These samples were then analysed for levels of Transforming Growth Factor-Beta (TGF-β using the ELISA technique. This cytokine has been shown to stimulate bone formation after both topical and systemic administration. Results show TGF-β levels of 142.79+/-29.51 ng/ml in the neurology group at 84 days post injury. This is higher than any of the other time points within this group (p=0.009 vs. all other time points, ANOVA). Furthermore, this level is also higher than the levels recorded in the no neurology (103.51+/-36.81 ng/ml) and long bone (102.28=/-47.58 ng/ml) groups at 84 days post-injury (p=0.009 and p=0.04 respectively, ANOVA). In conclusion, the results of this work, carried out for the first time in humans, offers strong evidence of the causative role of TGF-β in the increased bone turnover and attendant complications seen in patients with acute spinal cord injuries.
There are many established database for estimating fetal femoral length ultrasonagraphically. There is little data however on radiological measurements of fetal femoral lengths. The aim of our study was to introduce radiologically measured fetal femoral lengths in order to improve our understanding of normal fetal femoral growth.
Using the standard growth curve there was a strong correlation between our radiological measurements and previously published ultrasonographic measurements (R2= 0.9492) The femoral growth velocity curve demonstrated a rapid growth acceleration phase peaking at 12 cm/annum at 16 weeks, followed by a rapid deceleration phase reducing to a growth rate of 5 cm/annum at birth. The growth remaining was calculated for each week. At 24 weeks the growth achieved is 10% thus giving a multiplying factor of 10. At birth the growth achieved is 20% giving a multiplying factor of 5.
The five cases of primary ischemia with absent pulse and a white hand were managed by emergency reduction followed by exploratory surgery and vascular repair which restored the radial pulse, excepting one case which required anterior fasciotomy.
Patients with spinal cord injuries have been seen to have increased healing of attendant fractures. While the benefits are obvious, this excessive bone growth also causes unwanted side effects, such as decreased movement around joints, joint fusion and renal tract calculi. However, the cause for this phenomenon remains unclear. This paper evaluates two groups with spinal column fractures – those with neurological compromise (n=10) and those without (n=15), and compares them with a control group with isolated long bone fractures (n=12). Serum was taken from these patients at five specific time intervals post injury (1 day, 5 days, 10 days, 42 days (6 weeks) and 84 days(12 weeks)). These samples were then analysed for levels of Transforming Growth Factor-Beta (TGF-.) using the ELISA technique. This cytokine has been shown to stimulate bone formation after both topical and systemic administration. Results show TGF-.; levels of 142.79±29.51 ng/ml in the neurology group at 84 days post injury. This is higher than any of the other time points within this group (.0.009 vs. all other time points, ANOVA). Furthermore, this level is also higher than the levels recorded in the no neurology (103.51±36.81 ng/ml) and long bone (102.28±47.58 ng/ml) groups at 84 days post injury (p=0.009 and p=0.04 respectively, ANOVA). In conclusion, the results of this work, carried out for the first time in humans, offers strong evidence of the causative role of TGF-.; in the increased bone turnover and attendant complications seen in patients with acute spinal cord injuries.
The Lower Extremity Functional Scale (LEFS) and the AMA Criteria for Impairment Associated with Station and Gait Disorders were used to evaluate their functional levels of impairment. The Short-Form-36 (SF-36) Health Survey was also used as a general survey of their health.
Increased bone turnover and fracture healing is associated with acute spinal cord injuries. Experimental work to date has been confined to animal models. While the benefits in relation to quicker fracture healing are obvious, this excessive bone growth (heterotopic ossification) also causes unwanted side effects, such as decreased movement around joints, joint fusion and renal tract calculi. This paper evaluates two groups of patients with spinal column fractures – those with neurological compromise and those without, and compares them with a control group with isolated long bone fractures. Serum was taken from these patients at 10 days post injury and was analysed for the known osteogenic cytokines Insulin-like Growth Factor-1 (IGF-1) and Transforming Growth Factor-b1 (TGF-b1) as well as being added to an osteoblast cell culture line to analyse cell proliferation. The results for the IGF-1 show a higher level in the neurology group compared to the no neurology group (p=0.038). In the TGF-B1 assay, the neurology group has a lower level than the other two groups (p<
0.0001 and p=0.002 respectively). However, when this group is subdivided into patients with complete and incomplete neurology, it can be seen that the levels of the complete group are elevated, although not significantly so (p=0.228). All three groups stimulated markedly increased osteoblast cell proliferation versus a control group (p=0.086, p=0.005 and p=0.002 respectively). However, the neurology group is significantly lower than the other two groups (p=0.007 and p=0.001 respectively). Furthermore the complete group causes a lower proliferation rate than the incomplete group (p=0.539). In conclusion, at 10 days post injury when the acute inflammatory reaction is subsiding and new bone is being laid down, patients with acute spinal cord injuries have increased bone turnover. This increase is being indirectly mediated by IGF-1, and more elevated levels with more severe neurological compromise suggest a contributory role of TGF-b1. Direct stimulation of osteoblasts does not appear to have any role to play in this accelerated bone healing.
Patients with spinal cord injuries have been seen to have increased healing of attendant fractures. This for the main has been a clinical observation with laboratory work confined to rats. While the benefits in relation to quicker fracture healing are obvious, this excessive bone growth (heterotopic ossification) also causes unwanted side effects, such as decreased movement around joints, joint fusion and renal tract calculi. However, the cause for this phenomenon remains unclear. This paper evaluates two groups with spinal column fractures – those with neurological compromise (n=10) and those without (n=11), and compares them with a control group with isolated long bone fractures (n=10). Serum was taken from these patients at five specific time intervals post injury (1 day, 5 days, 10 days, 42 days (6 weeks) and 84 days(12 weeks)). These samples were then analysed for levels of Transforming Growth Factor-Beta (TGF-b) using the ELISA technique. This cytokine has been shown to stimulate bone formation after both topical and systemic administration. Results show TGF-b levels of 142.79+/−29.51 ng/ml in the neurology group at 84 days post injury. This is higher than any of the other time points within this group (p<
0.001 vs. day 1, day 5 and day 10 and p=0.005 vs. 42 days, ANOVA univariate analysis). Furthermore, this level is also higher than the levels recorded in the no neurology (103.51+/−36.81 ng/ml) and long bone (102.28=/−47.58 ng/ml) groups at 84 days post injury (p=0.011 and p=0.021 respectively, ANOVA univariate analysis). There was statistically significant difference in TGF-b levels seen between the clinically more severely injured patients i.e. complete neurological deficit and the less severely injured patients i.e. incomplete neurological deficit. In conclusion, the results of this work, carried out for the first time in humans, offers strong evidence of the causative role of TGF-b in the increased bone turnover and attendant complications seen in patients with acute spinal cord injuries.
Spinal injuries are among the most devastating injuries related to recreational sport. There are few studies specifically on spinal injuries in horseback riding. The purpose of our study was to determine the factors contributing to horse-riding accidents and to assess the usefulness of wearing protectors while horse riding. All patients with spinal injuries admitted to our unit over a six-year period (1993–1998) were reviewed. Of 957 patients admitted to the National Spinal Injuries Unit from 1993–1998, 25 patients incurred spinal injury while horse riding. Age, sex, occupation and injury details were collected for all patients. All 25 patients were also contacted retrospectively to collect further details in relation to the specifics of the horse-riding event. There were 16 male and 9 female patients with a mean age of 35 years (range 17–61). There were nine cervical fractures/dislocations, eleven thoracic fractures, and eight lumbar fractures. Four patient sustained injuries at more than one level. In relation to spinal cord injury, two patients had complete neurological deficit, a further ten had incomplete lesions. Thirteen patients had no neurological deficit. Surgical intervention was required in eleven patients. Only six riders, all of who were either jockeys or horse trainers, wore back protectors. Of the 19 patients without a back protector there were 5 cervical, 10 thoracic and 6 lumbar injuries. Two patients sustained injuries at more than one level. However, of the six riders wearing a protective jacket there was a completely different fracture pattern level with 4 cervical injuries, only one thoracic injury and on e lumber injury. The variation in injury level between the group wearing protective back supports and those without is noteworthy. While the numbers are too small to draw a significant conclusion it would appear that there is a trend for riders wearing a back protector to suffer less thoracic and lumbar injuries relative to cervical injuries.
Clinical and radiographic data on 47 hips in 45 patients with Developmental Hip Dysplasia who underwent either a Salters Innominate Osteotomy or a Femoral Derotation Varus Osteotomy by a single operator were reviewed. The average age of patients at the time of osteotomy was 21 months (range 12–108 months). Clinical evaluation was performed with use of the lowa hip rating score and the Harris hip score. Radiographs were evaluated pre=operatively, post-operatively and at final review. The mean duration of follow-up was 15 years 9 months (range 10–21 years). Thirty-five patients had a Salter innominate osteotomy, 11 a derotation varus osteotomies and one a Klisic. Al last follow-up examination the Iowa hip rating averaged 96.6 (range 62 to 100) and the modified Harris Hip Score averaged 96.8 (range 48 to 100). Forty seven percent of patients reported abductor fatigue after sport. Forty-one patients had excellent result with a Severin class I hip on radiographic evaluation. All of these patients had an Iowa index >
95 and a mean Centre-Edge angle of 35.5 (range 25–40). Six patients had a poor radiological outcome with 5 Severin class IV hips and one class V. Clinical outcome scores did not correlate with poor radiological outcome; Iowa hip score 92 (range 62–100). One patient required a Ganz periactabular osteotomy. The age at which primary osteotomy was performed was significantly higher in the poor outcome group with a mean of 50.8 months. When the anatomy of the hip is restored to normality at an early age with out the development of avascular necrosis excellent long-term results can be expected.
Apert’s syndrome (or acrocephalosyndactyly type 1) is a rare condition characterized by anomalies of the skull (craniosynostosis) in conjunction with complex syndactyly of the hands and feet. There are many studies involving the description and management of hand deformities in Apert’s syndrome. The study of foot anomalies however in children with Apert’s syndrome has been limited to individual case reports and small series. Plain radiographic studies have shown that during childhood, progressive fusion of the bones of the feet occurs. The management of these children’s feet has never been addressed in the literature. Seven patients with Apert’s syndrome were included in our study. The study group consisted of 2 girls and 5 boys, age range 4–16 years. We performed plain radiography, 3-D computed tomography and paedobarographic studies on all seven children based on our observation that some children with Apert’s had prominent metatarsal heads with symptomatic callosities under the first and second metatarsal heads. Five of the seven children studied demonstrated a specific pattern both on paedobarographic studies and 3D computed tomography of an excessively plantar flexed, fused first and second rays. A corrective extension osteotomy of the fused first and second rays were then carried out in one patient with an excellent post-operative result. We propose that by early recognition and correction of the pattern of an excessively plantar flexed first and second ray would improve both function and footwear.
The Extensor Digitorum Brevis is an easily visualised superficial muscle present on the dorsolateral aspect of the foot. It is innervated by the terminal branches of L5. Wasting of this muscle has been described as a sign of L5 radiculopathy, however its specificity and sensitivity as a clinical sign in patients with disc disease has never been assessed to the best of our knowledge. The purpose of our study was to determine the effectiveness of this sign in patients with a know L5 radiculopathy. We included three groups of patients, which were prospectively assessed by a blinded single examiner. Group A were patients with a clinical L5 radiculopathy confirmed on MRI, Group B were patients with a clinical a S1 radiculopathy confirmed on MRI and Group C were a control group. There were 20 patients in each group, 10 male and 10 female, mean age 38 years (range 19 – 57 years). Our inclusion criteria were leg pain greater than 6 weeks, we excluded and patient with a history of previous disc disease or foot surgery. A positive sign was defined as a gross clinical wasting of the extensor digitorum brevis compared to the opposite foot. The sign was negative in all 20 patients in the control group. The sign was positive in 12 patients (60%) with L5 radiculopathy and only one patient (5%) with S1 radiculopathy. Fishers exact test confirmed statistical significance between the two groups with a p value of <
0.05. We conclude that this easily performed objective clinical sign, when used inpatients with leg pain, is highly specific in determining the pressure of an L5 root involvement.
The Mater Hospital is Ireland’s primary referral centre for spinal injuries receiving 80–90% of all spinal cases annually. In today’s society the number of people competing at more competitive and professional levels is also increasing. Over the years, a lot of work has gone into safety precautions in sport. However despite those improvements our impression was that the incidence of both minor and serious sporting injuries is increasing. The purpose of this study was to determine the incidence, pattern and mechanism of sports-related spinal injuries in Ireland over the last decade. Data was collected by performing an audit of the National Spinal Injuries Database from 1994–2001. This database is a prospective computerized database. Data entered relates to the initial presentation, mechanism, level of injury and their acute in-hospital management. On average 200–220 patients are admitted annually to the National Injuries Spinal Unit. 173 of these were related to sport, which represented 13% of total spinal injuries. 80% are male under 40 years. 29% sustained neurological deficit. The sports responsible for most spinal injuries in Ireland were equestrian (43.8%), followed by rugby (16.4%), diving (15%), GAA (13.6%) and skiing (3%). Rugby injuries were most likely to cause neurological damage. Equestrian accidents commonly caused thoracolumbar fractures while injuries sustained in diving, rugby and GAA were mostly to the cervical spine. Sport is an important cause of spinal injuries in Ire-land. Coaches and team doctors must be educated about safe practices and emergency management of these terrible injuries and for those unfortunately affected in the prime of their lives adequate rehabilitation resources need to be implemented so as to lessen their economic burden.
We have devised a new operative technique which has proved so far to be very successful and reliable. The procedure can be recommended only for children who have no major intra-articular injury, no epiphyseal damage and only mild adaptive changes of the radial head. It is also contraindicated if there is significant overgrowth of the radius as well as secondary changes in the proximal and distal radioulnar joints. The parents are warned of possible complications and residual loss of some movements. Under general anaesthesia, a curved longitudinal incision is made centred over the ulnar deformity extending proximally to the lateral epicondyle. The essence of the operation is the oblique ulnar metaphyseal osteotomy. The cut is made starting proximal medial to distal lateral. The osteotomy recreates the instability allowing open reduction of the radial head. It also allows for ulnar lengthening by the sliding of the osteotomised surfaces with graft interposition if necessary. The radial head is approached between the anconeus and wrist extensors, through the same exposure. The annular ligament is dividend and radial head reduced into its anatomical position. The ulna is securely fixed in the angulated position using a one third tubular plate. Finally, after checking the stability of the radial head in all forearm movements, the annular ligament is repaired. An above elbow cast is applied with forearm in supination and elbow in 90 degrees of flexion. The cast is worn for six weeks, with weekly check radiographs. Active use of the arms is encouraged after this with follow up at increasing intervals. The follow up of our cases has shown that the ulnar angulation completely remodels, with normal development of the radial head. A functional range of forearm rotation and full flexion/extension at the elbow are regained with time. We have not noted any residual subluxation/dislocations in our cases.