Aims. The aim of the study was to determine if there was a direct correlation between the pain and disability experienced by patients and size of their disc prolapse, measured by the disc’s cross-sectional area on T2 axial MRI scans. Methods. Patients were asked to prospectively complete visual analogue scale (VAS) and Oswestry Disability Index (ODI) scores on the day of their MRI scan. All patients with primary disc herniation were included. Exclusion criteria included recurrent disc herniation, cauda equina syndrome, or any other associated spinal pathology. T2 weighted MRI scans were reviewed on picture archiving and communications software. The T2 axial image showing the disc protrusion with the largest cross sectional area was used for measurements. The area of the disc and canal were measured at this level. The size of the disc was measured as a percentage of the cross-sectional area of the spinal canal on the chosen image. The VAS leg pain and ODI scores were each correlated with the size of the disc using the Pearson correlation coefficient (PCC). Intraobserver reliability for MRI measurement was assessed using the interclass correlation coefficient (ICC). We assessed if the position of the disc prolapse (central, lateral recess, or foraminal) altered the symptoms described by the patient. The VAS and ODI scores from central and lateral recess disc prolapses were compared. Results. A total of 56 patients (mean age 41.1 years (22.8 to 70.3)) were included. A high degree of intraobserver reliability was observed for MRI measurement: single measure ICC was 0.99 (95% confidence interval (CI) from 0.97 to 0.99 (p < 0.001)). The PCC comparing VAS leg scores with canal occupancy for herniated disc was 0.056. The PCC comparing ODI for herniated disc was 0.070. We found 13 disc prolapses centrally and 43 lateral recess prolapses. There were no foraminal prolapses in this group. The position of the prolapse was not found to be related to the mean VAS score or ODI experienced by the patients (VAS, p = 0.251; ODI, p = 0.093). Conclusion. The results of the statistical analysis show that there is no direct correlation between the size or position of the disc prolapse and a patient’s symptoms. The symptoms experienced by patients should be the primary concern in deciding to perform discectomy. Cite this article: Bone Joint J 2022;104-B(6):715–720

There is a need for non-radiographic, objective outcome measures for children with Adolescent Idiopathic Scoliosis (AIS). Standing balance and stability is altered in children with AIS. The Margin of Stability (MoS) has been used to compare gait stability in clinical populations. Our objective was to compare the MoS in anterior-posterior (MoS. AP. ) and mediolateral (MoS. ML. ) directions in girls with AIS to Controls. Girls with AIS and healthy girls walked at three speeds on an instrumented treadmill wearing retroreflective markers, surrounded by motion capture cameras. The MoS. AP/ML. was calculated at left and right heel strike. Data was processed in Visual 3D. A two-way ANOVA was used to compare MoS. AP/ML. between group, speed and the interaction between group and speed. Pearson's correlation coefficient was used to compare the MoS to Cobb angle. Statistical significance was accepted when p > 0.05. A priori power analysis suggested 12 participants per group. Three Cases and four Controls were recruited. Girls with AIS all had right-sided main thoracic curves (Lenke type 1a, 61.3° ± 10.0°). MoS. AP. was significantly bigger for Cases compared to Controls on the left (p=0.038) and right foot (p=0.041). There was no significant difference between Cases and Controls for MoS. ML. , but there was a visual trend for a smaller MoS. ML. in Cases. There was no significant difference for speed or the interaction between group and speed for MoS. AP. or MoS. ML. In Cases, MoS. AP. increased with increasing Cobb angle on the left (r. 2. =0.687, p=0.054) and right (r. 2. =0.634, p=0.067) and MoS. ML. decreased with increasing Cobb angle on the left (r. 2. =-0.912, p=0.002). Further subjects are being recruited. Girls with Lenke type 1a AIS are more stable in the AP direction and less stable in the ML direction than Controls during treadmill walking. AP stability increases and ML stability decreases with increasing Cobb angle. This research suggests that the MoS could be used as an outcome measure for children with AIS. Continued work is required to increase the power of this study. Further work could consider these changes during walking overground, measuring an MoS or MoS-like measure using a wearable device, and in different curve types

Aims. The purpose of this retrospective study was to investigate the clinical relevance of increased facet joint distraction as a result of anterior cervical decompression and fusion (ACDF) for trauma. Patients and Methods. A total of 155 patients (130 men, 25 women. Mean age 42.7 years; 16 to 87) who had undergone ACDF between 1 January 2001 and 1 January 2016 were included in the study. Outcome measures included the Neck Disability Index (NDI) and visual analogue scale (VAS) for pain. Lateral cervical spine radiographs taken in the immediate postoperative period were reviewed to compare the interfacet distance of the operated segment with those of the facet joints above and below. Results. There was a statistically significant relationship between greater facet distraction and increased NDI and VAS pain scores. This was further confirmed by Spearman correlation, which showed evidence of a moderate correlation between both NDI score and facet joint distraction (Spearman correlation coefficient 0.34; p < 0.001) and VAS score and facet distraction (Spearman correlation coefficient 0.52; p < 0.001). Furthermore, there was a discernible transition point between outcome scores. Significantly worse outcomes, in terms of both NDI scores (17.8 vs 8.2; p < 0.001) and VAS scores (4.5 vs 1.3; p < 0.001), were seen with facet distraction of 3 mm or more. Patients who went on to have a posterior fusion also had increased NDI and VAS scores, independent of facet distraction. Conclusion. After undergoing ACDF for the treatment of cervical spine injury, patients with facet joint distraction of 3 mm or more have worse NDI and VAS pain scores. Cite this article: Bone Joint J 2018;100-B:1201–7

Introduction. Sensory profiles classified in Low Registration, Sensory Sensitive, Sensation Avoiding and Sensation Seeking may be used in patients with non-specific chronic low back pain (CLBP) to develop a more personalized treatment program. Although psychometric properties have not been studied up till now the Adult Adolescent Sensory Profile (AASP) can be used to measure sensory profiles in CLBP patients. Objectives. The study aim was to asses internal consistency, test-retest reliability, agreement and construct validity of the AASP in a CLBP population with nociplastic pain. Method. A non-experimental, cross-sectional study design was used, with two measurements with a two weeks interval. All self-reported questionnaires were used at t0 and t1 to assess outcome in comparison to the AASP and SP. Reliability was evaluated by assessing internal consistency and test-retest reliability. To assess construct validity, the a priori hypothesis on the four profiles, correlation was analyzed. Results. Ninety CLBP patients were included, with a mean duration of CLBP of 232 weeks. Internal consistency for each sensory profile, Cronbach's alpha varied from 0.91 to 0.92. Test-retest reliability varied from intra-class correlation coefficient (ICC) 0.90–0.92. Construct validity correlated positively between sensory profiles, Low Registration, Sensory Sensitive and Sensation Avoiding, and negatively with Sensation Seeking. Conclusion. The AASP is considered to be a suitable instrument for measuring sensory profiles in CLBP patients in primary care. Conflict of interest: No conflicts of interest. Source of funding: No funding obtained

This study aimed to verify the accuracy of the DIERS Formetric Scan when assessing vertebral rotation of the apical vertebrae in Adolescent Idiopathic Scoliosis (A.I.S) patients, to determine whether the DIERS Formetric Scans can be used instead of or alongside radiographs when assessing A.I.S patients. Both the radiographs and the DIERS Formetric Scans of 60 Preoperative A.I.S patients. All patients included in our study had predominant thoracic curves using the Lenke classification method, Cobb angle range 33° – 85°. Each radiograph was categorised into groups according to the severity of Nash-Moe rotation score of the apical vertebrae. Three groups were formed Nash-Moe +1 (20 patients), Nash-Moe +2 (27 patients), Nash-Moe +3 (13 patients). Each result was then compared to the maximal rotation analysed by the DIERS Formetric Scan, which took place on the same day as the radiographs. The results were then assessed using a Pearson Correlation Coefficient and a One-Way ANOVA with Post-Hoc Tukey HSD Analysis. The Nash-Moe +1 Group scored a mean maximal rotation of 14.65° ±6.56 (11.82 – 17.48) (95% Confidence Interval), Nash-Moe +2 mean maximal rotation was 19.6° ±7.1 (16.92 – 22.28) and Nash-Moe +3 scored 21.53° ±8.9 (16.99 – 26.37). The Pearson Correlation Coefficient of this assessment was +0.342 (p value 0.07) demonstrating a weak positive correlation. The One-Way ANOVA analysis with Post-Hoc Tukey HSD analysis. The results of this analysis was an F value score of +4.115 (p Value 0.021) for the overall One-Way ANOVA test. The Post-Hoc Tukey HSD tests demonstrate that there is a statistical difference between Group 1 and Group 3 (p value 0.030) but there is no statistical difference between Group 1 and Group 2 (p value 0.068) as well as no statistical difference between Group 2 and Group 3 (p value 0.716). DIERS Formetric Scan assessment of vertebral rotation shows a positive correlation with the Nash-Moe method. This allows us to rely on the Formetric scans and thus a possible reduction in radiographs when assessing A.I.S, this reduces the exposure to ionising radiation in A.I.S patients

Aim:. To Determine Whether Maximal Rib Prominence Measured On Lateral Radiographs Can Be Used As A Surrogate To Rib Rotation Determined By Surface Tomography (Quantecscanning) In Assessment Of Spinal Rotation. Method:. Patients With Adolescent Idiopathic Scoliosis Underwent Plain Lateral Radiographs And Quantec Scans. Maximal Rib Prominence On The Lateral Radiograph Was Defined Pre- And Post-Operatively By Distance From Most Posterior Aspect Of The Rib To The Facet Joint And Instrumented Rod, Respectively. Rib Rotation Was Measured By Surface Tomography Quantec Scan Using The Suzuki Method. This Was Then Repeated At A Later Time And By An Additional Investigator To Assess Intra- Observer And Inter-Observer Variability. The Correlation Between Maximal Rib Prominence And The Suzuki Ratio Was Determined. Results:. 20 Patients, Median Age 15 Years, Were Evaluated. The Correlation Coefficient Between Radiograph Determined Maximal Rib Prominence And Quantec Derived Suzuki Ratio Was 0.68, R2=0.46 (See Figure). Discussion:. There Was A Weak Positive Correlation Between Radiograph Determined Maximal Rib Prominence And Quantec Derived Suzuki Ratio. Further Investigation In A Larger Cohort Is Warranted. Conflict Of Interest Statement: No conflict of interest

Aim:. To establish whether there is a direct relationship between pelvic morphology and lumbar segmental angulation in the sagittal plane. Methods:. 40 lateral whole spine radiographs with normal sagittal profiles were reviewed. Pelvic incidence (PI), Lumbar Lordosis (LL), Thoracic Kyphosis (TK) and segmental angulation at each level from L1 to the sacrum were measured (from endplate to endplate) distinguishing the vertebral body and intervertebral disc contribution. Pearson correlation coefficients were used to analyse any relationship between pelvic parameters and segmental angulation. Results:. A strong correlation was found between pelvic incidence and total lumbar lordosis and angulation at cephalad lumbar segments (L12, L23 and L34) P<0.0001 with the increased lordosis primarily (four fifths on average) found at the intervertebral disc. The proportion of total lumbar lordosis contributed at L45 and L5S1 reduced as pelvic incidence increased (P<0.0001). Discussion:. PI can predict segmental angulation. Although the majority of lumbar lordosis is produced at L45 and L5S1, cephalad-lumbar segments sequentially become increasingly important as PI increases. This describes a continuum that allows segmental abnormalities to be identified when compensation in adjacent segments maintains normal total LL. It also paves the way for anatomical reconstruction in degenerative adult deformity based on pelvic morphology. Conflict Of Interest Statement: No conflict of interest

Aims

This study aimed to evaluate rasterstereography of the spine as a diagnostic test for adolescent idiopathic soliosis (AIS), and to compare its results with those obtained using a scoliometer.

To review the accuracy of our systematic process in preventing wrong level lumbar microdiscectomy. X-ray is used to identify the correct level for the skin incision to be made, x-ray is again used if the surgeon is in doubt prior performing the flavotomy. Following a lumbar microdiscectomy a Watson Chane is inserted into the empty disc space and an intra-operative x-ray is taken to confirm the level the discectomy has occurred. Observers A and B independently reviewed intra-operative x-ray in patients undergoing lumbar microdiscectomies and correlated the accuracy of the x-ray in determining correct level surgery against the pre-operative MRI scan and the preposed level of surgery. 123 patients, 66 males and 57 females underwent 127 lumbar microdiscectomy procedures between 2007 and 2009. The levels where surgery occurred are;- L2/3 -1 patient, L3/4–8 patients, L4/5–53 patients and L5/S1-65 patients. Kappa coefficient was used to determine inter-observer and Pearson Correlation coefficient was used to determine the X-ray and MRI relationship. Percentage of patients who required a pre-flavotomy x-ray level check are:- L2/3–100%, L3/4-63%, L4/5–45%, and L5/S1–40%. Pearson's correlation in confirming the level lumbar microdiscectomy was performed using final x-ray and the pre-operative MRI scan was 1. Kappa coefficient between observer A and B was 1. This process of using intra-operative x-ray in determining the exact level where lumbar microdiscectomy was performed is 100% accurate. This is our standard process in preventing wrong level surgery for lumbar microdiscectomy

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To investigate the correlations among cytokines and regulatory T cells (T-regs) in ankylosing spondylitis (AS) patients, and their changes after anti-tumour necrosis factor-α (TNF-α) treatment.

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The aim of this study was to investigate the incidence and characteristics of instrumentation failure (IF) after total en bloc spondylectomy (TES), and to analyze risk factors for IF.

We validated the North American Spine Society (NASS) outcome-assessment instrument for the lumbar spine in a computerised touch-screen format and assessed patients’ acceptance, taking into account previous computer experience, age and gender. Fifty consecutive patients with symptomatic and radiologically-proven degenerative disease of the lumbar spine completed both the hard copy (paper) and the computerised versions of the NASS questionnaire. Statistical analysis showed high agreement between the paper and the touch-screen computer format for both subscales (intraclass correlation coefficient 0.94, 95% confidence interval (0.90 to 0.97)) independent of computer experience, age and gender. In total, 55% of patients stated that the computer format was easier to use and 66% preferred it to the paper version (p < 0.0001 among subjects expressing a preference). Our data indicate that the touch-screen format is comparable to the paper form. It may improve follow-up in clinical practice and research by meeting patients’ preferences and minimising administrative work

Ventral screw osteosynthesis is a common surgical method for treating fractures of the odontoid peg, but there is still no consensus about the number and diameter of the screws to be used. The purpose of this study was to develop a more accurate measurement technique for the morphometry of the odontoid peg (dens axis) and to provide a recommendation for ventral screw osteosynthesis. Images of the cervical spine of 44 Caucasian patients, taken with a 64-line CT scanner, were evaluated using the measuring software MIMICS. All measurements were performed by two independent observers. Intraclass correlation coefficients were used to measure inter-rater variability. The mean length of the odontoid peg was 39.76 mm (. sd. 2.68). The mean screw entry angle α was 59.45° (. sd. 3.45). The mean angle between the screw and the ventral border of C2 was 13.18° (. sd. 2.70), the maximum possible mean converging angle of two screws was 20.35° (. sd. 3.24). The measurements were obtained at the level of 66% of the total odontoid peg length and showed mean values of 8.36 mm (. sd. 0.84) for the inner diameter in the sagittal plane and 7.35 mm (. sd. 0.97) in the coronal plane. The mean outer diameter of the odontoid peg was 12.88 mm (. sd. 0.91) in the sagittal plane and 11.77 mm (. sd. 1.09) in the coronal plane. The results measured at the level of 90% of the total odontoid peg length were a mean of 6.12 mm (. sd. 1.14) for the sagittal inner diameter and 5.50 mm (. sd. 1.05) for the coronal inner diameter. The mean outer diameter of the odontoid peg was 11.10 mm (. sd.  1.0) in the sagittal plane and 10.00 mm (. sd. 1.07) in the coronal plane. In order to calculate the necessary screw length using 3.5 mm cannulated screws, 1.5 mm should be added to the measured odontoid peg length when anatomical reduction seems possible. The cross-section of the odontoid peg is not circular but slightly elliptical, with a 10% greater diameter in the sagittal plane. In the majority of cases (70.5%) the odontoid peg offers enough room for two 3.5 mm cannulated cortical screws. Cite this article: Bone Joint J 2013;95-B:536–42

Aims

To provide normative data that can assess spinal-related disability and the prevalence of back or leg pain among adults with no spinal conditions in the UK using validated questionnaires.

Introduction. We aimed to determine the midterm effect of pedicle screw instrumentation on sagittal plane alignment, compared with a hybrid alignment, in the treatment of thoracic adolescent idiopathic scoliosis (AIS). Methods. 88 consecutive patients with AIS with a Lenke type 1 curve treated between 1998 and 2003 were analysed. Thoracic hooks were used in 45 patients (group Hy) and thoracic screws alone in 43 patients (group TPS). Preoperative average age (Hy 15·3 years vs TPS 16 years), sex (38 female and seven male vs 37 female and six male), Risser sign (2·9 vs 2·9), main thoracic curve (64° vs 65·5°), and thoracic kyphosis (22·6° vs 21·4°) were similar in both groups. Pearson correlation coefficient and univariate ANOVA were used. Results. At a mean follow-up of 7·3 years (range 5–10), the TPS group had a greater final main thoracic curve correction (Hy 46·4% vs TPS 58·4%; p<0·001), with inferior loss of initial correction (–11·1° vs TPS –1·3°; p<0·0005). Absolute final thoracic kyphosis was similar in both groups (31·4° vs 25·4°; r=0·002; p>0·05), with both groups showing an equally statistically significant amelioration of the sagittal contour (Hy 49·2%; p<0·001 vs TPS 43·4%; p<0·001) (difference between groups p>0·05). We recorded a significant correlation between absolute kyphosis correction (final preoperative) and percentage main thoracic curve initial correction loss in the Hy group (r=0·35, p<0·001). The SRS–30 assessment showed an improvement in self-image and satisfaction, with no significant differences between groups. Conclusions. The previously reported loss of kyphosis after a pedicle screw instrumentation in AIS, when compared with hybrid or hook only implants, should be questioned. At a minimum 5 years of follow-up, sagittal contour in the thoracic spine was not less kyphotic when pedicle screws were compared with hybrid constructs. The higher the loss of initial correction of main thoracic curve, the greater the postoperative absolute kyphosis at T5–T12 level. The clinical relevance of such radiographic differences is still undetectable with present self-assessment methods

Purpose of the study. Monitoring of scoliosis is traditionally done with radiographs which can be associated with an increased risk of cancer secondary to multiple exposures over many years. This study investigates whether lateral asymmetry (LA) from ISIS2 surface topography can predict radiographic cobb angle, to provide an alternative non- invasive means of monitoring scoliosis patients. Methods. A total of 72 untreated patients with scoliosis (77 curves) with a Cobb angle of 55 degrees or less were included in the study. They had clinical assessment, cobb angle measurement taken from a standard radiograph and surface topography done on the same day. The cobb angle were measured by single surgeon using digital PACS system. The surgeon was unaware of the LA score. Lateral asymmetry was measured using ISIS2 surface topography done by a research nurse who was also unaware of the cobb angle as previously described. Lateral asymmetry was calculated using the standard ISIS2 software. A comparison of cobb angle and LA was performed. Linear regression analysis was performed to define an equation predicting Cobb from LA. The predicted Cobb angles were then compared with the measured radiographic Cobb angles using Bland-Altman analysis. All statistical analysis was carried out using R. Results. The regression equation is: Predicted Cobb = 1.04∗LA + 9.972 with a Pearson correlation coefficient of 0.85 for Cobb angles less than 55 degrees. Bland-Altman analysis of the difference between radiographic Cobb and predicted Cobb from LA gave a mean difference of 0.08 degrees, standard deviation of 6.71 degrees and 95% limits of agreement of −13.3 to 13.5 degrees. For cobb angle less than 55 degrees on radiograph, ISIS2 was able to predict the cobb angle within 13 degrees. Conclusion. Cobb angles themselves display poor reliability, estimates ranging from 3 degrees to 10 degrees. Even so, the 95% confidence limits on the prediction of Cobb angle from ISIS2 LA are too wide to use it alone for monitoring spinal curvature. Whether or not LA is capable of monitoring change in curvature will be investigated as more longitudinal data is built up. Ethics approval: None. Interest Statement: None

Introduction. Thoracic pedicle screws have been proven to be safe and effective in the treatment of adolescent idiopathic scoliosis (AIS). However, the effect of the instrumentation alloy has not yet been investigated. We aimed to compare segmental versus non segmental thoracic pedicle screw instrumentation in patients with AIS. Methods. A consecutive series of 143 patients with AIS (Lenke classification 1–4) surgically treated from 1998 to 2005 by means of thoracic pedicle screws were retrospectively reviewed. Considering implant density (number of fixation anchors placed per available anchors sites; segmental =60% [S], non-segmental =60% [NS]) and implant alloy used (titanium [Ti] vs stainless steel [SS]) we divided the cohort into four groups: Ti-S (48 cases); Ti-NS (34 cases); SS-S (35 cases); and SS-NS (26 cases). Groups were similar for preoperative mean age, sex distribution, Risser sign, main thoracic curve, and thoracic kyphosis. Pearson correlation coefficient and univariate analysis of variance were used. Results. At a mean follow-up of 6·2 years (range 3–10) the overall final main thoracic curve correction was a mean of 61·4% (20–89), whereas the implant density within the major curve was 71% (15–100%). We recorded a significant correlation between implant density and percentage major curve correction (r=0·41, p<0·002); when the four groups were compared we noted that the SS-S group showed the greatest average correction (75%), followed by the Ti-S, SS-NS, and Ti-NS groups. We detected no significant differences between SS-S versus Ti-S versus SS-NS (r=0·002, p>0·05; r=0·13, p>0·05; r=0·07, p>0·01, respectively), whereas the Ti-NS group showed a statistically significant inferior percentage correction when compared with all other groups (average 52%; p<0·001). Nevertheless, no significant difference between groups was recorded on the SRS-30 assessment, showing a postoperative improvement in both self-image and satisfaction. Conclusions. When an SS instrumentation is used, non-segmental pedicle screw constructs seem to be equally effective as segmental instrumentations in obtaining satisfactory results in patients with main thoracic AIS. When the implant alloy used is titanium, an implant density of greater than 60% should be guaranteed so as to achieve similar results to those recorded in this study

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The outcome following the development of neurological complications after corrective surgery for scoliosis varies from full recovery to a permanent deficit. This study aimed to assess the prognosis and recovery of major neurological deficits in these patients, and to determine the risk factors for non-recovery, at a minimum follow-up of two years.

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Anchorage of pedicle screw rod instrumentation in the elderly spine with poor bone quality remains challenging. Our study aims to evaluate how the screw bone anchorage is affected by screw design, bone quality, loading conditions, and cementing techniques.

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The aim of this study was to assess the ability of morphological spinal parameters to predict the outcome of bracing in patients with adolescent idiopathic scoliosis (AIS) and to establish a novel supine correction index (SCI) for guiding bracing treatment.