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Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_14 | Pages 37 - 37
1 Mar 2013
Hardcastle P Dunn R
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Purpose of study. The aim is to assess the use of non-fusion instrumentation “growth rods” in early onset scoliosis (EOS). Methods. A retrospective review of 12 consecutive patients who had undergone a growth rod procedure for EOS was performed. Six patients had neuromuscular scoliosis, 5 had juvenile idiopathic scoliosis while one had a congenital aetiology. Growth constructs were predominately constructed from modular commercially available sets using hooks, screws and connection blocks. One VEPTR was used in a severe kyphoscoliosis. Patients returned to theatre at 6 monthly intervals for a lengthening procedure. Patients were assessed with regards to age at presentation, age at surgery, indications for surgery, initial Cobb angle, post- operative Cobb angle, number of lengthening's done, instrumentation used, amount of spine growth achieved and complications. Results. The average age at presentation was 3 yrs 8 months (birth – 7 years 5 months). The average Cobb angle was 55 (38–90). Age at index surgery ranged from 2yrs 9 months to 8 years 2 months. The Cobb angle after the first procedure averaged 37 (range 20–90). The average lengthening over 51 lengthening procedures was 8 mm. Four patients have reached the end of the process and under gone a definitive fusion with pedicle screws and growth rods. Their final Cobb angle averaged 32 (26–48). Definitive surgery was performed earlier than planned in one patient due to repetitive rod breakage. Lengthening was abandoned in one patient whose implants became septic and required removal. Two patients required revision for superior construct failure. Conclusion. The growth rod procedure allows spinal deformity correction and control as well as on-going growth in trunk height. It is a labour intensive process with a significant incidence of complications. There is however very little choice in these patients due to concerns of fusion restricting pulmonary development. NO DISCLOSURES


Bone & Joint Open
Vol. 1, Issue 7 | Pages 405 - 414
15 Jul 2020
Abdelaal A Munigangaiah S Trivedi J Davidson N

Aims

Magnetically controlled growing rods (MCGR) have been gaining popularity in the management of early-onset scoliosis (EOS) over the past decade. We present our experience with the first 44 MCGR consecutive cases treated at our institution.

Methods

This is a retrospective review of consecutive cases of MCGR performed in our institution between 2012 and 2018. This cohort consisted of 44 children (25 females and 19 males), with a mean age of 7.9 years (3.7 to 13.6). There were 41 primary cases and three revisions from other rod systems. The majority (38 children) had dual rods. The group represents a mixed aetiology including idiopathic (20), neuromuscular (13), syndromic (9), and congenital (2). The mean follow-up was 4.1 years, with a minimum of two years. Nine children graduated to definitive fusion. We evaluated radiological parameters of deformity correction (Cobb angle), and spinal growth (T1-T12 and T1-S1 heights), as well as complications during the course of treatment.


Abstract. MAGnetic Expansion Control (MAGEC) rods are used in the surgical treatment of children with early onset scoliosis. The magnetically controlled lengthening mechanism enables rod distractions without the need for repeated invasive surgery. The CE certification of these devices was suspended in March 2021 due, primarily, to performance evidence gaps in the documents provided by the manufacturer to regulators and notified bodies. MAGEC rods are therefore not permitted for use in countries requiring CE marking. This was a survey of 18 MAGEC rod surgeons in the UK about their perception of the impact of the CE suspension on the clinical management of their patients. Unsurprisingly, virtually all perceived a negative impact, reflecting the complexity of this patient group. Reassuringly, these surgeons are highly experienced in alternative treatment methods. Cite this article: Bone Jt Open 2022;3(2):155–157


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_II | Pages 228 - 229
1 May 2006
Assous M Lawson C Douglas D Cole A
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Background: To assess the potential for Quantec imaging to save radiographs in the follow-up of patients with early onset scoliosis. This is a group of patients who often have many radiographs due their age at diagnosis. Methods: This is a prospective cohort study. Twenty-four children with early onset scoliosis are identified. They all have a minimum of three simultaneous radiographs and Quantec scans as part of routine follow up for their scoliosis curves. There are 15 males and 9 females (22 thoracic, 1 thoracolumbar, 1 lumbar). Mean age at diagnosis is 3 years (range 1–4.8 years). The Cobb angle of the major curve is measured from each radiograph and compared with the Q-angle using Bland-Altman plots and linear regression analysis. Results: The mean Cobb angle was 30° and the mean Q-angle 19°. The correlation coefficient was 0.68 (p< 0.05). In curves with Cobb angle < 30°, The Bland-Altman plots show a close scatter with a mean difference of 3.4°. It was calculated that this could have safely saved 18 radiographs in 14 patients. In curves > 30°, there was a large scatter and a mean difference between Cobb angle and Q-angle of 20.1°. Conclusion: In early onset scoliosis, curves with Cobb angle less than 30° can be safely followed clinically and with the Q-scan reducing the number of radiographs required. Curves with Cobb angle greater than 30° cannot be reliably observed with Quantec scans alone


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_1 | Pages 1 - 1
23 Jan 2023
Cottam A Van Herwijnen B Davies EM
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We present a large single surgeon case series evaluation of a new growth guidance technique for the treatment of progressive early onset scoliosis (EOS). A traditional Luque trolley construct uses wires to hold growth guidance rods together. We describe a new technique that uses domino end to side connectors in place of the wires with the aim of providing a stronger construct to better limit curve progression, while allowing longitudinal growth. We did a thorough retrospective review of patient records and radiological imaging. Sequential measurements of Cobb angle and length of rods were recorded, as well as any further surgical procedures and associated complications. This enabled us to quantify the ability of a technique to limit curve progression and simultaneously allow growth of the construct. In total, 28 patients with EOS (20 idiopathic, four syndromic, and four neuromuscular) have been treated with this technique, 25 of whom have a minimum follow-up of 2 years and 13 have a minimum follow-up of 5 years. The average correction of the preoperative Cobb angle was 48.9%. At the 2-year follow up, the average loss of this initial correction was 15 degrees, rising to only 20 degrees at a minimum of 5 years (including four patients with a follow-up of 8 years or more). The growth of the constructs was limited. The average growth at 2 years was 3.7 mm, rising to 19 mm at the 5-year follow-up. Patients who underwent surgery with this technique before the age of 8 years seemed to do better. This group had a revision rate of only 18% at an average time of 7 years after the index procedure, and the average growth was 22 mm. However, the group that had index surgery after the age of 8 years had a 64% revision rate at an average of 3.2 years after surgery and an average growth of only 11.6 mm. Overall, in the cases series, there were four hardware failures (14%) and one deep infection (3.5%), and only ten patients (36%) had one extra surgery after the index procedure. Only two of the 13 patients who are at a follow-up of 5 years or more have had revision. This modified Luque trolley technique has a good capacity for initial curve correction and for limiting further curve progression, with limited longitudinal growth before 2 years and improved growth thereafter. This technique might not be so useful after the age of 8 years because of poor growth and a higher early revision rate. We have also demonstrated a low cost technique with a low hardware failure rate that saves many future surgeries for the patient compared with other techniques used in the treatment of EOS


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVII | Pages 159 - 159
1 Sep 2012
Latalski M Fatyga M Gregosiewicz A
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Introduction. The aim of the treatment of children with early onset scoliosis is controlling growth of the spine. Whatever the etiology, early progressive deformations require multiple stages of surgery usually performed every 6–12 months. One have to be reckoned with complications requiring additional surgical intervention. Objective. The aim of the study is to present a new method of surgical treatment of early onset scoliosis involving the implantation of specially constructed implants to allow three dimensional correction of spinal deformity with a preserved capacity to continue the growth of spine without distraction staged operations followed by final spondylodesis in mature spine. Material. The clinical material consists of homogeneous group of patients: 8 girls and a one boy aged 6 to 14 years (mean age = 9 years). The estimated group four children had a single-curve, four children had a double-curve, while one child was affected by congenital kyphosis. The follow up ranged from 2 to 17 months (mean = 13.5 months). Method. Efficacy of spinal deformity correction using a “growing implants” was estimated by Cobb andgle measurement of the curvature 1/before the operation, 2/after surgery and 3/follow up. Results. During surgery, all patients obtained a large correction of curvature ranging from 50% to 100% (on average −70%). The degree of correction was directly dependent on the size of the initial deformation of 62 to 120 ° (average 77 °). During the entire period of observation in four children we have not identified the loss of correction or fits within the limits of measurement error. In one child thirty degree-loss correction stemmed from too selective implantation of the implants. During additional surgery the stabilization was extended to the extra two motor segments witch resulting in full correction. In one patient, due to rapid growth, rods were needed to be replaced for longer, because of the risk of pulling out from the lower screws. In one case we observed further correction during follow up. Conclusions. Using the method we obtained a very good correction in the first stage of treatment. Maintenance of correction does not require any intermediate staged operating procedures. Patients do not require corrective brace. Using “growing implants” in the early onset scoliosis one avoid complications peculiar to current growth-sparing procedures. These patients would have had 15 lengthening procedures after their initial correction if treated by conventional growing rod methods


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_II | Pages 229 - 229
1 May 2006
Ember T Noordeen H Tucker S
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Background: To assess the use of subcutaneous rodding with sequential lengthening procedures to control progressive early onset curves not responding to conservative treatment modalities. Methods: A retrospective study reviewing the notes and plain radiographs of all children with early onset scoliosis treated by growth rod insertion over a seven year period (two paediatric spinal surgeons using similar techniques at two major centres). Subjects were children with early onset scoliosis unresponsive to conservative management. Outcome measures – curves at time of instrumentation, curve progression, number of lengthenings, curve magnitude and age at time of definitive fusion, spinal growth achieved and complications encountered. Results: Majority of children treated uneventfully with satisfactory control of curvature until age at which definitive fusion acceptable. However our results do suggest a number of cases and circumstances where simple growth rod instrumentation is not sufficient and augmentation with anterior apical fusion is required (will discuss these on an individual basis). Conclusion: The management of early onset progressive scoliosis by means of growth rod instrumentation and sequential lengthenings is safe and effective


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_X | Pages 103 - 103
1 Apr 2012
Choudhury M Siddique I Gardner A Spilsbury J Marks D
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Spinal Deformity Service, Royal Orthopaedic Hospital, Birmingham, UK. To describe the technique of nonfusion annulotomy and nuclectomy with posterior growing rod instrumentation for the treatment of non-congenital early onset scoliosis. To present our results of the application of this technique in a consecutive series of nine patients with mean follow up of 76 months (range 16 to 123 months). We undertook retrospective observational casenote and radiograph study of patients with noncongenital early onset scoliosis having annulotomy and nuclectomy at the apex of their respective curves with standard posterior growing rod instrumentation between 1998 and 2009. 10 patients were identified with one excluded due to short follow up period. Of the nine patients included mean follow up was 76 months. Mean age at primary surgery was 71.7 months (range 29- 97 months). We measured pre and post operative Cobb angle, T1-S1 height change and change in height over the apical segments. Mean pre op cobb angle was 74° (range 62- 81°). Mean post op cobb angle was 38°. Three patients have completed their treatment programme with a mean number of 9 lengthenings achieved. Six patients are still undergoing lengthenings. CT demonstrates that the annulotmized segment does not fuse at a mean 3.5 years postoperatively. All patients demonstrated growth over total spinal height and also over apical segments which had undergone annultomy/ nuclectomy. We also report complications. We have demonstrated that anterior annulotomy and nuclectomy with posterior growing rod construct does allow for spinal growth over released segments without autofusion


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 305 - 305
1 Jul 2014
Roth A Bogie R Willems P Welting T Arts C van Rhijn L
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Summary Statement. Novel radiopaque UHMWPE sublaminar cables may be a promising alternative to gliding pedicle screws or titanium sublaminar cables within a growth-guidance system for the surgical treatment of early onset scoliosis. Introduction. Growth-guidance or self-lengthening rod systems are an alternative to subcutaneous growing rods and the vertical expandable prosthetic titanium rib for the treatment of early onset scoliosis. Their main perceived advantage over growing rods is the marked decrease in subsequent operative procedures. The Shilla growth-guidance system and a modern Luque trolley are examples of such systems; both depend on gliding pedicle screws and/or sliding titanium sublaminar wires. However, the unknown consequences of metal-on-metal wear debris are reason for concern especially in young patients. In this study, instrumentation stability, residual growth in the operated segment after surgery and biocompatibility of the novel radiopaque UHMWPE cables as an alternative to gliding pedicles screws or titanium sublaminar wires were assessed in an immature sheep model. Materials and methods. Twelve immature sheep were treated with segmental sublaminar spinal instrumentation: dual CoCr rods were held in place by pedicle screws at the most caudal instrumented level (L5) and novel radiopaque UHMWPE (Bi. 2. O. 3. additive) woven cables were placed at 5 thoracolumbar levels. Lateral radiographs were taken at 4-week intervals to evaluate growth of the instrumented segment. Four age-matched, unoperated animals served as radiographic control. After 24 weeks follow-up, the animals were sacrificed and the spines were harvested for histological evaluation and CT analysis. Results. No neurological deficits and no complications occurred during the initial postoperative period. One animal died during follow-up due to unknown cause. At sacrifice, none of the cables had loosened and the instrumentation remained stable. Substantial growth occurred in the instrumented segment (L5-T13) in the intervention group. No significant difference in growth of the operated segment was found between the intervention and control groups. Histological analysis showed fibrous encapsulation of the novel radiopaque UHMWPE sublaminar cable in the epidural space, with no evidence of chronic inflammation. Discussion. Novel radiopaque UHMWPE cables may be a promising alternative to gliding pedicle screws or titanium sublaminar cables within a growth-guidance system. UHMWPE cables may improve growth results due to the smooth surface properties of the UHMWPE cable and address concerns regarding the consequences of metal-on-metal wear debris


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXI | Pages 14 - 14
1 Jul 2012
Dannawi Z El-Sebaie HB Akbarnia BA Noordeen H
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Purpose. The aim of this study is to assess the safety and efficacy of a remote-operated magnetic growth rod in the treatment of 11 patients with progressive early onset scoliosis (EOS). Introduction. The Growth rod technique (GR) has been a viable treatment option for progressive early onset scoliosis (EOS). However, an increased complication rate has been associated with conventional GR due to frequent surgeries required for lengthening. The safety and efficacy of a remote-operated magnetic growth rod (RO-MGR) has been previously reported in a porcine model. We are reporting the preliminary clinical results of this device which obviates the need for repeated surgeries. Methods. Prospective analysis of early clinical and radiographic data of 11 patients, with EOS, undergoing index RO-MGR treatment and at least 3 distractions. The mean age was 8 years (Range 5-12 years). Four patients had single rod (SR) instrumentation and the remaining 7 had a dual rod (DR) construct. Diagnosis was idiopathic 3, neuromuscular 3, congenital 3, syndromic 1 and neurofibromatosis one. In total, 57 rod distractions were performed. Distractions were performed in the clinic without anesthesia or analgesics. The mean preoperative Cobb angle was 68° (range 46°-108°). The mean preoperative T1-S1 length was 304mm (range 243-361mm). Results. Average distraction was 3.2 per patient. The mean lag before the first distraction was 66 days (28-112) and between distractions was 43 days (42-98). Superficial infection occurred in 1 (SR), prominent rod in 1 (DR), hook pull-out in 1(DR), iatrogenic shortening 1(DR) and loss of length in 2 patients (6/57 rod distraction, 11%, all SR), this loss was regained in subsequent distractions. Apart from a case of proximal rod trimming, no further surgery was required in our group of patients. Mean follow-up was 8 months (6-13). Conclusion. Preliminary results indicate that RO-GR appears to be safe and provided a comparable distraction to the standard GR procedure without the need for repeated open surgeries. No major complications were observed in the short follow up period


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_3 | Pages 31 - 31
1 Mar 2021
Sun M Buckler N AlNouri M Vaughan M Hilaire TS Sponseller P Smith J Thompson G Howard J El-Hawary R
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Scoliosis is estimated to occur between 21–64% of patients with cerebral palsy (CP), where a subset of patients develops early onset scoliosis (EOS) before the age of ten. Traditional growth friendly (TGF) surgeries in the context of traditional growing rods have been shown to be effective in treating scoliosis in this population, however significant complication rates are reported. Currently, no studies have been done to examine the effect of novel growth friendly surgeries such as magnetically controlled growing rods (MCGR) on EOS in CP patients. The objective of this study is to compare MCGR with TGF surgeries in this patient population, specifically by evaluating radiographic measurements and risk of unplanned reoperations (UPRORs). Patients with EOS secondary to CP were prospectively identified from an international database, with data retrospectively analyzed. Scoliosis (primary curve), maximum kyphosis, T1-S1 and T1-T12 height were measured pre-operation, immediate post-operation, and at two-years follow-up. The risk and etiology of UPRORs were compared between MCGR and TGF. P < 0.05 was considered statistically significant for all analyses. Of the 120 patients that met inclusion criteria, 86 received TGF (age 7.5 ± 1.8 years; follow-up 7.0 ± 2.9 years) and 34 received MCGR (age 7.1 ± 2.2 years, follow-up 2.8 ± 0.5 years). Compared to TGF, MCGR resulted in significant improvements in maintenance of scoliosis correction (p=0.04). At final follow-up, UPRORs were 24% for MCGR (8/34 patients) and 43% (37/86 patients) for TGF (p=0.05). To minimize the influence of follow-up period, UPRORs within the first two years post-operation were evaluated: MCGR (21%, 7/34 patients) vs. TGF (14%, 12/86 patients; p=0.37). Within the first two years, etiology of UPROR as a percentage of all patients per group were deep infection (5% TGF, 6% MCGR), implant failure/migration (5% TGF, 9% MCGR), dehiscence (2% TGF, 3% MCGR), and superficial infection (1% TGF, 3% MCGR). The most common etiology of UPROR for TGF was deep infection and implant failure/migration and for MCGR was implant failure/migration. For patients with CP, at final follow-up, MCGR had superior maintenance of scoliosis correction; however, there was no difference in risk of UPROR within the first two years post-operatively (21% MCGR, 14% TGF)


Orthopaedic Proceedings
Vol. 102-B, Issue SUPP_6 | Pages 114 - 114
1 Jul 2020
Thompson G Hardesty C Son-Hing J Ina J Tripi P Poe-Kochert C
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Intrathecal morphine (IM) is a common adjunct in paediatric spinal deformity surgery. We previously demonstrated with idiopathic scoliosis it provides safe and effective analgesia in the immediate postoperative period. This study represents our 25 year experience with IM in all diagnostic groups. Our prospective Pediatric Orthopaedic Spine Database (1993–2018) was reviewed to identify all patients undergoing spinal deformity surgery who received IM and who did not. Patients 21 years of age or less who had a posterior spinal fusion (PSF) with segmental spinal instrumentation (SSI), and received 9–19 mcg/kg (up to 1 mg) of IM were included. Early onset scoliosis surgical patients were excluded. We assessed demographics, pain scores, time to first dose of opioids, diagnoses, surgical time, paediatric intensive care unit (PICU) admission and IM complications (respiratory depression, pruritus, nausea/ vomiting). There were 986 patients who met inclusion criteria. This included 760 patients who received IM and 226 who did not. IM was not used for short procedures (< 3 hrs), respiratory concerns, unsuccessful access of intrathecal space, paraplegia, and anesthesiologist decision. Both groups followed the same strict perioperative care path. The patients were divided into 5 diagnostic groups (IM / non IM patients): idiopathic (578/28), neuromuscular (100/151), syndromic (36/17), and congenital scoliosis (32/21) and kyphosis (14/9). Females predominated over males (697/289). The first dose of opioids after surgery was delayed for a mean of 10.6 hrs in IM group compared to 2.3 hrs in the non-IM group (p=0.001). The postoperative pain scores were significantly lower in the IM groups in the Post Anesthesia Care Unite (p=0.001). Only 17 IM patients (2%) were admitted to the PICU for observation secondary to respiratory depression, none required re-intubation. None of the IM group were re-intubated. Forty-nine patients (6%) experienced pruritus in the IM group compared to 4 of 226 patients (2%) in the non IM group. There were 169 patients (22%) of the IM patients and 21 patients (9%) of the non IM had nausea and vomiting postoperatively. Three patients (0.39%) had a dural leak from the administration of IM but did not require surgical repair. There were no other perioperative complications related to the use of IM. There were no significant group differences. Pre-incision IM is a safe and effective adjunct for pain management in all diagnostic groups undergoing spinal surgery. The IM patients had lower pain scores and a longer time to first administration of post-operative opioids. Although there is an increased frequency of respiratory depression, pruritus, and nausea/vomiting in the IM group, there were no serious complications


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXI | Pages 17 - 17
1 Jul 2012
Pyrovolou N MacDonald JW Fairbank J Nnadi C
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STUDY DESIGN. Retrospective study of 8 children treated with vertical expandable prosthetic titanium rib (VEPTR) for correction of early onset spinal scoliotic deformities. METHODS. 8 children with progressive scoliosis due to a variety of conditions, 6 congenital (2 Goldenhar syndrome, 2 VACTERL syndrome, 2 congenital thoracic abnormalities), 1 spondyloepiphyseal dysplasia, 1 early onset of scoliosis, underwent the index procedure and subsequent lengthening procedures at 6 months intervals (1 patient had 11 lengthening procedures). Mean age was 4 years (2-6 years) and mean follow up 3.8 years (2-6 years). Mean preoperative Cobb angle was 64,8° (51-108) and mean postoperative angle 40° (31-50). RESULTS. There were no neurological complications. Three patients developed infection with wound breakdown. One patient underwent removal of one of the two VEPTR rods. In the other two patients the rods were removed followed by antibiotics and the VEPTR converted to another growing rod system. Overall, patients tolerated the multiple procedures well. Three patients experienced significant distress with multiple surgical procedures. CONCLUSION. VEPTR offers a viable treatment option for children with severe congenital and early onset scoliosis where there are no viable alternatives. It achieves and maintains spinal deformity correction, while allowing for continued spine and chest-wall growth. Complication rate is acceptable in view of the benefits. None of the complications have lead to long term complications to date, but the repeated lengthening have resulted in psychological disturbance which we are investigating further. An implantable driver would offer very significant advantages and would avoid some of the repeated operations


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_21 | Pages 98 - 98
1 Dec 2016
Kadhim M El-Hawary R Vitale M Smith J Samdani A Flynn J
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To evaluate the efficacy of VEPTR in preventing further progression of scoliosis without impeding spinal growth in the treatment of children with progressive early onset scoliosis (EOS) without rib abnormalities. Prospective, multi-center, observational cohort study on patients with EOS treated with VEPTR with 2-year follow up. Data were analysed based on measurements done pre-implant, immediate post-op and at 2-yr f/u. Sixty-three patients met inclusion: 35 males and 28 females. Mean age at time of implantation was 6.1±2.4 yrs. Etiologies included congenital (n=6), neuromuscular (n=36), syndromic (n=4), and idiopathic (n=17). Mean follow up was 2.2±0.4 yrs. Scoliosis (72o±18o) decreased after implant surgery (47o±17o) followed by slight increase at 2-yr f/u (57o±18o), p<0.0001. At 2-yr f/u, VEPTR was effective in treating EOS without rib abnormalities with 86% of patients having an improvement in scoliosis and 94% of patients having an increased spinal height as compared to pre-operatively. VEPTR provided greater than 100% of expected age-matched spine growth and the instrumented spinal segment continued to grow during distraction phase. This large prospective, multicentre study demonstrated the ability of VEPTER to effectively treat EOS without rib abnormalities. Goals of preventing further scoliosis progression and of maintaining normal spine growth were achieved


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_3 | Pages 40 - 40
1 Apr 2018
Roth A van der Meer R Willems P van Rhijn L Arts J Ito K van Rietbergen B
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INTRODUCTION. Growth-guidance constructs are an alternative to growing rods for the surgical treatment of early onset scoliosis (EOS). In growth-guidance systems, free-sliding anchors preserve longitudinal spinal growth, thereby eliminating the need for surgical lengthening procedures. Non-segmental constructs containing ultra-high molecular weight polyethylene (UHMWPE) sublaminar wires have been proposed as an improvement to the traditional Luque trolley. In such a construct, UHMWPE sublaminar wires, secured by means of a knot, serve as sliding anchors at the proximal and distal ends of a construct, while pedicle screws at the apex prevent rod migration and enable curve derotation. Ideally, a construct with the optimal UHMWPE sublaminar wire density, offering the best balance between providing adequate spinal fixation and minimizing surgical exposure, is designed preoperatively for each individual patient. In a previous study, we developed a parametric finite element (FE) model that potentially enables preoperative patient-specific planning of this type of spinal surgery. The objective of this study is to investigate if this model can capture the decrease in range of motion (ROM) after spinal fixation as measured in an experimental study. MATERIALS AND METHODS. In a previous in vitro study, the ROM of an 8-segment porcine spine was measured before and after instrumentation, using different instrumentation constructs with a sequentally decreasing number of wire fixation points. In the current study, the parametric FE model of the thoracolumbar spine was first validated relative to ROM values reported in the literature. The rods, screws, and sublaminar wires were implemented, and the model was subsequently used to replicate the in vitro tests. The experimental and simulated ROM”s for the different instrumentation conditions were compared. RESULTS. Good agreement between in vitro biomechanical tests and FE simulations was observed in terms of the decrease in ROM for the complete construct with wires at each level. The stepwise increase in total ROM with decreasing number of wires at the construct ends was less prominent in silico in comparison to in vitro. CONCLUSION. Important first steps in the implementation and validation of a growth-guidance construct for EOS patients in a patient-specific FE model of the spine have been made in this study. The parametric nature of the FE model allows for rapid personalization. Although further improvements to the model will be necessary to better distinguish between different spinal instrumentation constructs, we conclude that the model can well capture essential aspects of spinal motion and the overall effect of instrumentation


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_6 | Pages 17 - 17
1 Apr 2014
Rolton D Thakar C Popa R Nnadi C
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Aim:. The Magnetic Expansion Control Rod Device (Magec) allows controlled distraction of the immature spine for the treatment of early onset scoliosis. There disparity between the reported distraction on the external adjustment device (EAD) and true distraction achieved has not been commented on to date. This study aims to determine the disparity between ‘true’ (T) and ‘apparent’ (A) distraction. Our secondary aim was to assess truncal growth and development. Methods:. Thirteen patients underwent an average of 4.4 (3–6) three monthly distractions. The amount of true distraction was determined by measuring the expansion gap on radiographs using the width of the rod as a conversion factor to allow for magnification. The total distraction to date was compared to the amount reported on the EAD. Sitting and standing heights were recorded at each distraction. Results:. The average number of distractions was 4.4 (range 3–6). The average ‘true’ distraction was 9.1mm compared to 17.2mm ‘apparent’ distraction representing a TA ratio of 1:1.9. The average difference between the total distraction to date measured on the ERC and that measured radiographically was 8.3mm. Sitting and standing heights increased in all patients by an average of 4.3 cm and 7.8 cm per year. Discussion:. The TA ratio of 1:1.9 suggests that for every unit of distraction registered on the EAD approximately 50% of true distraction occurs in vivo. Despite the difference in true versus apparent distraction, an increase in sitting and standing heights was observed in all patients sufficient to maintain growth and development. Conflict Of Interest Statement: No conflict of interest


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_3 | Pages 134 - 134
1 Jan 2016
Reimeringer M Nuno N Ouellet J
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Introduction. Originally, the vertical expandable titanium rib (VEPTR™) was developed to treat children with Thoracic insufficiency syndrome secondary to fused ribs and congenital scoliosis. Over the years its usage has widen and is currently being used to treat all etiology of early onset scoliosis (EOS). A major draw back remains the size of the titanium VEPTR™ implant. In keeping with the new trend of chrome-cobalt alloy (CoCr). spinal implants, we set out to explore if redesigning the VEPTR™ was mechanically sound. The aim of this study was twofold. Firstly, we investigate the mechanical properties of a VEPTR™ made with CoCr alloy compared to that of titanium alloy. Secondly we investigated how much we could down size the VEPTR™. Materials & Methods. Finite element analyses were performed on 3 different VEPTR™ designs (rod diameter of 6mm, 5mm and 4mm) subjected to a compressive load of 500N (equivalent to a 50Kg child). For each configuration, two materials, titanium alloy and chrome-cobalt alloy, were used. Maximum Von Mises stress distribution (VMSD), plastic strain (PS) and total displacement (TD) of the VEPTR™ were measured as indicators of mechanical properties of the implant. Results. Results for the maximum Von Mises stress distribution (VMSD), plastic strain and total displacement (TD) can be seen on the table 1. Discussion. Results confirm that yield strength of titanium material is greater than that of Co-Cr, while Plastic strain (PS) is greater for a CoCr VEPTR™ than for titanium VEPTR™. As expected a 6 mm CoCr VEPTR resist displacement almost twice as a 6 mm titanium VEPTR. Little difference is noted in plastic strain and VonMises stress at 6mm. Down sizing the implant to 5 mm in titanium or CoCr may runs the risk of implant failure as both exceeds their failure point and they both deform 0.29% and 6.6% respectively, placing the 5mm CoCr at higher risk of failure. Our results suggest that the VEPTR™ design could be reduced to 5mm however requires a new design to minimize the risk of failure. 4mm rods will not withstand a 50kg load


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_6 | Pages 16 - 16
1 Apr 2014
Yasso S Towriss C Baxter G Hickey B James S Jones A Howes J Davies P Ahuja S
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Aim:. To determine the efficacy and safety of the Magec system in early onset scoliosis (EOS). Methods:. In 2011, 6 males and 2 females had Magec rods, with an average age of 8.5 years (2.9–12.7 years), 7 patients had dual rods, and 1 had single. The main cause of EOS was idiopathic scoliosis (n=6), followed by Congenital (n=1), and Syndromic (n=1). Average follow up was 19.4 months (14–26 months). 4 of these patients had their previous Paediatric Isola growing rods exchanged to Magec, and 1 patient had an exchange from single to Dual Magec rods. Results:. In total, the cohort of patients underwent 65 extensions in clinic with an average 8 each (4–19). The first rod extension was performed at an average of 4.6 months following surgery. From there on extensions were done at two monthly intervals on an average. A total of 75 radiographs were taken after Magec insertion, ranging from 5 to 15 per patient. The mean pre-operative Cobb angle 59° improved to 41° at final follow up. This is a mean reduction of 31%. The mean pre-operative T1-S1 length was 305mm which improved to 349mm at final follow up. A mean increase in spinal length of 14%.m. During follow up, 5 complications were noted: 2 metalwork pullouts, 1 extension failure, 1 rod fracture and 1 patient had dermatitis at site of wound. Conclusion:. Our early results using the Magec magnetic growing rod system are encouraging with maintenance of curve correction and in achieving trunk growth in EOS. Conflict Of Interest Statement: No conflict of interest


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_6 | Pages 18 - 18
1 Apr 2014
Towriss C Baxter G Yasso S James S Jones A Howes J Davies P Ahuja S
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Aim:. To measure truncal parameters for patients treated with growing rod systems for early onset scoliosis (EOS). Methods:. 44 patients underwent growth rod surgery for EOS between 1999 and 2013 (24 females and 20 males). 27 patients had idiopathic scoliosis, 13 congenital, 3 syndromic and 1 neuromuscular. 26 patients had Paediatric Isola, 8 had Paediatric Expedium, 4 had dual growth rods with domino's and 9 each had VEPTR and MAGEC rods systems. Medical records and radiographs were analysed. Cobb angle, T1-T12 and T1-S1 length, coronal and sagittal balance, apical vertical translation (AVT), space available for the lung (SAL) and shoulder balance were measured. Results:. Average age at initial surgery was 6.2 (1–9) years with an average duration of follow up of 69 months (15–131). T1-T12 length measured 152 mm preoperatively (95–222), increasing by 14% postoperatively and by 30% at final follow up. There was an average overall growth of 42 mm in our group compared with 50 mm of normal physiological growth expected in a 5 year old over 60 months. Mean T1-S1 length measured 273 mm (196–415) increasing by 16% postoperatively and by 29% (80 mm) at final follow up. AVT preoperative mean was 68 mm (29–113) decreasing by 29% postoperatively. SAL ratio increased from 0.91 (0.70–0.99) to 0.93 (0.75–0.99) at final follow up. Coronal balance was maintained but 5 patients had sagittal balance complications. Shoulder balance remained constant at 14–15 mm. Conclusion:. Our results show improvement or maintenance in each parameter and also demonstrate that growth rod systems help improve or maintain truncal parameters whilst allowing normal growth. Conflict Of Interest Statement: No conflict of interest


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_15 | Pages 9 - 9
1 Oct 2014
Ormsby N Wharton D Badge R Davidson N Trivedi J Bruce C
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The use of serial casting in the management of early onset scoliosis (EOS) has been well described. Our aim was to evaluate outcomes of plaster jacket therapy in patients with EOS from a tertiary referral centre. A retrospective review of hospital records and PACS images of 27 patients to identify patients treated with serial casting over a five year period. The primary outcome measure was the need for surgical intervention, with change in Cobb angle used as a secondary outcome measure. Mean age at presentation was 14 months (range 10 – 42), including 14 male and 13 female patients, with an average follow-up of 34 months. Curves were categorised according to aetiology: 16 idiopathic, 6 syndromic, 3 congenital and 2 neuromuscular curves. The mean Cobb angle at diagnosis was 43.7° (range 22 – 115) and mean rib vertebral angle difference (RVAD) was 22.2° (8 – 70). Duration of treatment was 9.9 months (range 3 – 27), with an average of two plaster jacket changes per child. At the time of review, patients fell into one of three groups. Group one (10 patients) failed conservative treatment due no improvement in Cobb angle (mean 48.4° compared with pre-op 53.9°, p value 0.55) and either had insertion of growing rods or had been listed for this procedure, at a mean age of 51.8 months. Group two (12 patients) had a mean Cobb angle of 38.9° pre-treatment which improved to 23.5° (p value <0.05) and were either treated in a brace or had discontinued treatment. The mean RVAD at initial diagnosis was 36.6° in group 1 compared with 13.8° in group 2 (p<0.05). All patients in group one requiring surgical treatment had an RVAD of greater than 20°. Serial casting is on-going for five patients (group three). Complications occurred in 30% of patients including pressure sores, chest infection and respiratory compromise requiring intubation. Current NICE guidance recognises that serial casting ‘rarely corrects scoliosis’ but recommends it may be used ‘to allow growth before a more permanent treatment is offered’. In our experience, serial casting did not allow any patients with a progressive scoliosis (determined by an RVAD of greater than 20°), to reach a single definitive fusion. However serial casting appeared to halt to curve progression until the child was suitable for the insertion of a growing rod system