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Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_8 | Pages 6 - 6
1 Aug 2022
Bada E Dwarakanath L Sewell M Mehta J Jones M Spilsbury J McKay G Newton-Ede M Gardner A Marks D
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Children undergoing posterior spinal fusion (PSF) for neuromuscular and syndromic scoliosis were admitted to the paediatric intensive care (PIC) until about 6 years ago, at which time we created a new unit, a hospital floor-based spinal high-dependency unit-plus (SHDU-plus), in response to frequent bed-shortage cancellations. This study compares postoperative management on PIC with HDU-plus for these non-hospital floor suitable children with syndromic and neuromuscular scoliosis undergoing PSF.

Retrospective review of 100 consecutive children with syndromic and neuromuscular scoliosis undergoing PSF between June 2016 and January 2022. Inclusion criteria were: 1) diagnosis of syndromic or neuromuscular scoliosis, 2) underwent PSF, 3) not suitable for immediate postoperative hospital floor-based care. Exclusion criteria were children with significant cardio-respiratory co-morbidity requiring PIC postoperatively.

55 patients were managed postoperatively on PIC and 45 on SHDU-plus. No significant difference between groups was found with respect to age, weight, ASA grade, preoperative Cobb angles, operative duration, number of levels fused and estimated blood loss. 4 patients in the PIC group and 1 in the SHDU-plus group were readmitted back to PIC or HDU following step-down to the hospital floor. Average length of stay was 2 days on PIC and 1 day on SHDU-plus. Average total length of hospital stay was 16.5 days in the PIC group and 10.5 days in the HDU-plus group. 19 (35%) patients developed complications in the PIC group, compared to 18 (40%) in SHDU-plus. Mean specialist unit charge per day was less on SHDU-plus compared with PIC. There were no bed-shortage cancellations in the SHDU-plus group, compared to 11 in the PIC group.

For children with neuromuscular or syndromic scoliosis undergoing PSF and deemed not suitable for post-operative care on the hospital floor, creation of a SHDU-plus was associated with fewer readmissions back to PIC or HDU, shorter hospital stays, an equivalent complication rate, significant cost-saving and fewer cancellations. Level of Evidence: Therapeutic Level III.


Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_8 | Pages 3 - 3
1 Aug 2022
Tailor P Sewell M Jones M Spilsbury J Marks D Gardner A Mehta J
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The lordosis distribution index (LDI) describes distribution of lumbar lordosis, measured as the % of lower lumbar lordosis (L4-S1) compared to global lordosis (L1-S1) with normal value 50–50%. Maldistributed LDI is associated with higher revision in short lumbar fusions, 4 vertebrae1. We hypothesise maldistributed LDI is also associated with mechanical failure in longer fusions.

Retrospective review of 29 consecutive ASD patients, aged 55+, undergoing long lumbar fusion, 4 levels, with >3-years follow-up. LDI, pelvic incidence (PI) and sagittal vertical axis (SVA) were measured on pre- and post-op whole spine standing X-rays (Fig A and B). Patients were categorized according to their pelvic incidence (PI) and postoperative LDI: Normal (LDI 50 80), Hypolordotic (LDI < 50), or Hyperlordotic (LDI > 80) and assessed for failure rate compared to normal LDI and PI <60.

Mean follow-up 4.5 years. 19 patients had mechanical failures including junctional failure and metalware fracture. PI >60o was associated with higher mechanical failure rates (Chi^2 p<0.05). Hypolordotic LDI was associated with 82% mechanical failure (Chi^2 p<0.001), Hyperlordotic 88% mechanical failure (Chi^2 p<0.001) and Normal 8% mechanical failure (Table 1).

Maldistributed LDI, whether Hyperlordotic or Hypolordotic, correlated with 10× greater mechanical failure rate compared to Normal LDI in long fusions. LDI is a useful measurement that should be considered, especially in high PI patients.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_15 | Pages 1 - 1
1 Oct 2014
Ede MPN Kularatane U Douis H Gardner A James S Marks D Mehta J Spilsbury J
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Neural axis anomalies in idiopathic scoliosis (AIS) are well documented, with prevalence of 7% in adolescents; 20% in early-onset and up to 40% in congenital, the case for pre-operative MRI of brainstem to sacrum is well made in these groups. SK is rarer than AIS and the prevalence of anomalies is not defined. The case for routine MRI scan is unclear. A recent report concluded that routine MRI was not indicated, although this was based on only 23 MRI scans in 85 patients. At our institution all patients are undergo whole spine MRI following a diagnosis of SK. We aimed to assess the incidence of significant neural anomalies in Scheuermann's Kyphosis.

Using a keyword search for “Scheuermann”, we reviewed all SK patients' MRI reports over the past 6 years.

117 MRI scans were identified. 13 patients did not fulfil the radiological criteria for SK and thus 104 (73M: 31F) scans were reviewed. 14 (13%) of 104 scans showed unexpected Significant abnormal findings. There were 8 (8%) with neural axis anomalies: 4 syrinxes; 1 cord anomaly; 2 cerebellar descents and 1 cerebellar tumour. All these patients had normal neurological examination except one with examination consistent with a known diagnosis of Parkinson's. A further 6 patients had non-neural anomalies.

The presence of neural axis anomalies may influence the management of a patient with SK. Neurological compromise during correction is higher in patients with neural axis anomalies and this risk can often be partially mitigated by a preceding neurosurgical procedure (such as foramen magnum decompression or shunt). Furthermore it is well described that these anomalies often occur in patients who demonstrate a normal neurological examination. This study confirms this. Given that MRI is widely available and considering the devastating life implications of neurological injury, we advise pre-operative MRI scan in all SK patents.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_15 | Pages 16 - 16
1 Oct 2014
Ede MPN Kularatane U Douis H Gardner A James S Marks D Mehta J Spilsbury J
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We describe the prevalence of spondylolisthesis in Scheuermann's Kyphosis (SK) from retrospective review of 104 SK patients over 6 years.

All patients referred to our institution for symptomatic SK undergo MRI scan from hindbrain to sacrum. Our MRI database was reviewed for all SK patients. All scans with spondylolisthesis were re-analysed.

117 scans were identified, 13 patients did not fulfil the MRI criteria for SK and thus 104 (74M: 31F) scans of SK are reported. There were 5 spondylolisthesis (1 cervical and 4 lumbosacral). Of the 4 lumbosacral there were 2 Meyerding grade-1; 1 grade-2 and 1 grade-5 spondyloptosis). An overall rate of 5% for listhesis was therefore found.

The prevalence of spondylolisthesis is around 3% in the general population based on a CT study of 510 patients (Belfi 2006) and Fredrickson's (1984 and 2003) prospective study of 500 children. We describe the prevalence in SK patients being higher at 5%. This may be related to the adaptive change of increased lumbar lordosis in SK, certainly it supports the previous description higher rates of spondylolysis in SK.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_6 | Pages 8 - 8
1 Apr 2014
Tokala D Grannum S Mehta J Hutchinson J Nelson I
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Aim:

To compare the ability of fulcrum bend and traction radiographs to predict correction of AIS using pedicle screw only constructs and to compare the fulcrum bending correction index (FBCI) with a new measurement: the traction correction index (TCI).

Method:

Retrospective radiographic analysis of eighty patients, average age 14 yrs, who underwent posterior correction of scoliosis using pedicle screw only construct. Analysis was carried out on the pre-op and immediate post-op PA radiographs and the pre-op fulcrum bend and traction radiographs. Correction rate, fulcrum flexibility, traction flexibility, FBCI and TCI was calculated.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXVII | Pages 13 - 13
1 Jun 2012
Gaines R Mehta J Kusakabe T
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Introduction

Our short segment anterior technique produces similar correction and better functional outcomes for patients with adolescent idiopathic scoliosis by instrumentation of fewer levels than does posterior segmental instrumentation. We present the results of the first consecutive 45 patients operated by the short segment bone-on-bone anterior scoliosis technique, with a mean follow-up of 6 years. Every patient was followed up over 2 years and none was lost to follow-up.

Methods

The patients (28 with thoracic scoliosis; 17 with thoracolumbar scoliosis) were operated between 1996 and 2004 for single curve idiopathic scoliosis. The mean age was 19 years (range 9–51); 87% of the cohort was female and the mean follow-up was 72 months (range 28–121). We operated on curves less than 75° by the short segment anterior approach with total discectomy, bone-on-bone apposition, and dual-rod instrumentation. We assessed the sagittal and coronal corrections on erect anteroposterior and lateral radiographs done preoperatively, postoperatively, and at final follow-up.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_X | Pages 93 - 93
1 Apr 2012
Mehta J Kochhar S Harding I
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The purpose of our study is to assess the degenerative changes in the motion segments above a L5S1 spondylolytic spondylolisthesis, and to analyse the factors that contribute towards a retro-listhesis in the segment immediately above the slip.

Prospective radiographic case series

38 patients with a symptomatic L5S1 spondylolytic spondylolisthesis, with a mean age of 52.8 yrs (95% CI 47.2 – 58.4). 55.3% (n = 21) were females and 44.7% (n = 17) males. 58% (22) had grade 1 and 42% (16) grade 2 slips.

Plain radiographs: Lumbar lordosis, slip angle, sacral slope, grade of the slip, and retro-listhesis at L45. MRI scans: facet angles at L34 and L45, facet degenerative score at L34 and L45 (cartilage and sclerosis), disc degenerative score at L45 and L5S1 (Pfirrmann).

The Pfirmann disc score for L45 was 2.75 and L5S1 4.4 (p < 0.0001); the mean facet angle at L34 50.9° and L45 57.9° (p = 0.001) and the facet score at L34 was 8 and at L45 was 10.5 (p = 0.0001). 29% (11) demonstrated a retrolithesis at L45. Analysing the effect of these factors on the causation of retro-listhesis at L45 (table) the slip angle and L45 disc degenerative score were the only factors that predicted a retro-listhesis.

There is a cascade of degenerative changes involving both the disc and the facet joints at the levels above a spondylolytic spondylolisthesis. The degenerative changes at the L45 disc and a higher slip angle predict a retro-listhesis at the level above the slip.