Neuromuscular scoliosis patients face rates of major complications of up to 49%. Along with pre-operative risk reduction strategies (including nutritional and bone health optimization), intra-operative strategies to decrease blood loss and decrease surgical time may help mitigate these risks. A major contributor to blood loss and surgical time is the insertion of instrumentation which is challenging in neuromuscular patient given their abnormal vertebral and pelvic anatomy. Standard pre-operative radiographs provide minimal information regarding pedicle diameter, length, blocks to pedicle entry (e.g. iliac crest overhang), or iliac crest orientation. To minimize blood loss and surgical time, we developed an “ultra-low dose” CT protocol without sedation for neuromuscular patients.

Our prospective quality improvement study aimed to determine: if ultra-low dose CT without sedation was feasible given the movement disorders in this population; what the radiation exposure was compared to standard pre-operative imaging; whether the images allowed accurate assessment of the anatomy and intra-operative navigation given the ultra-low dose and potential movement during the scan.

Fifteen non-ambulatory surgical patients with neuromuscular scoliosis received the standard spine XR and an ultra-low dose CT scan. Charts were reviewed for etiology of neuromuscular scoliosis and medical co-morbidities. The CT protocol was a high-speed, high-pitch, tube-current modulated acquisition at a fixed tube voltage. Adaptive statistical iterative reconstruction was applied to soft-tissue and bone kernels to mitigate noise. Radiation dose was quantified using reported dose indices (computed tomography dose index (CTDIvol) and dose-length product (DLP)) and effective dose (E), calculated through Monte-Carlo simulation. Statistical analysis was completed using a paired student's T-test (α = 0.05). CT image quality was assessed for its use in preoperative planning and intraoperative navigation using 7D Surgical System Spine Module (7D Surgical, Toronto, Canada).

Eight males and seven females were included in the study. Their average age (14±2 years old), preoperative Cobb angle (95±21 degrees), and kyphosis (60±18 degrees) were recorded. One patient was unable to undergo the ultra-low dose CT protocol without sedation due to a co-diagnosis of severe autism. The average XR radiation dose was 0.5±0.3 mSv. Variability in radiographic dose was due to a wide range in patient size, positioning (supine, sitting), number of views, imaging technique and body habitus. Associated CT radiation metrics were CTDIvol = 0.46±0.14 mGy, DLP = 26.2±8.1 mGy.cm and E = 0.6±0.2 mSv. CT radiation variability was due to body habitus and arm orientation. The radiation dose differences between radiographic and CT imaging were not statistically significant. All CT scans had adequate quality for preoperative assessment of pedicle diameter and orientation, obstacles impeding pedicle entry, S2-Alar screw orientation, and intra-operative navigation.

“Ultra-low dose” CT scans without sedation were feasible in paediatric patients with neuromuscular scoliosis. The effective dose was similar between the standard preoperative spinal XR and “ultra-low dose” CT scans. The “ultra-low dose” CT scan allowed accurate assessment of the anatomy, aided in pre-operative planning, and allowed intra-operative navigation despite the movement disorders in this patient population.

Neuromuscular scoliosis patients face rates of major complications of up to 49%. Along with pre-operative risk reduction strategies (including nutritional and bone health optimization), intra-operative strategies to decrease blood loss and decrease surgical time may help mitigate these risks. A major contributor to blood loss and surgical time is the insertion of instrumentation which is challenging in neuromuscular patient given their abnormal vertebral and pelvic anatomy. Standard pre-operative radiographs provide minimal information regarding pedicle diameter, length, blocks to pedicle entry (e.g. iliac crest overhang), or iliac crest orientation. To minimize blood loss and surgical time, we developed an “ultra-low dose” CT protocol without sedation for neuromuscular patients.

Our prospective quality improvement study aimed to determine:

Fifteen non-ambulatory surgical patients with neuromuscular scoliosis received the standard spine XR and an ultra-low dose CT scan. Charts were reviewed for etiology of neuromuscular scoliosis and medical co-morbidities. The CT protocol was a high-speed, high-pitch, tube-current modulated acquisition at a fixed tube voltage. Adaptive statistical iterative reconstruction was applied to soft-tissue and bone kernels to mitigate noise. Radiation dose was quantified using reported dose indices (computed tomography dose index (CTDIvol) and dose-length product (DLP)) and effective dose (E), calculated through Monte-Carlo simulation. Statistical analysis was completed using a paired student's T-test (α= 0.05). CT image quality was assessed for its use in preoperative planning and intraoperative navigation using 7D Surgical System Spine Module (7D Surgical, Toronto, Canada).

Eight males and seven females were included in the study. Their average age (14±2 years old), preoperative Cobb angle (95±21 degrees), and kyphosis (60±18 degrees) were recorded. One patient was unable to undergo the ultra-low dose CT protocol without sedation due to a co-diagnosis of severe autism. The average XR radiation dose was 0.5±0.3 mSv. Variability in radiographic dose was due to a wide range in patient size, positioning (supine, sitting), number of views, imaging technique and body habitus. Associated CT radiation metrics were CTDIvol = 0.46±0.14 mGy, DLP = 26.2±8.1 mGy.cm and E = 0.6±0.2 mSv. CT radiation variability was due to body habitus and arm orientation. The radiation dose differences between radiographic and CT imaging were not statistically significant. All CT scans had adequate quality for preoperative assessment of pedicle diameter and orientation, obstacles impeding pedicle entry, S2-Alar screw orientation, and intra-operative navigation.

“Ultra-low dose” CT scans without sedation were feasible in paediatric patients with neuromuscular scoliosis. The effective dose was similar between the standard preoperative spinal XR and “ultra-low dose” CT scans. The “ultra-low dose” CT scan allowed accurate assessment of the anatomy, aided in pre-operative planning, and allowed intra-operative navigation despite the movement disorders in this patient population.

Abstract

Published infection rates following wounds sustained in combat vary dramatically. We reviewed UK military extremity trauma, sustained in Afghanistan over a two year period, to evaluate early infection rates and causative organisms. Data on wound site, time to onset of infection, organisms detected and method of presentation were collected.

351 patients had full datasets for clinical wound surveillance and microbiological data. 58 (16.5%) patients were diagnosed with wound infections. Median time to diagnosis was 17 days (range = 749, Interquartile range =31.75 days). Limb infection was detected in 53 (15.1%) patients. Infection was statistically significantly more likely to be incurred in the lower extremity (p=0.0220). Multiple organisms were identified in 34 (64.2%) of the 53 patients with a limb infection. Fungi were significantly more common in early presenters (<30 days after injury) (p=0.0024). Staphylococcus aureus was significantly more likely in late presentation (p=0.002). Infection was more likely in those injured by an improvised explosive device (p=0.0019).

The overall infection rates recorded are low when compared to historical data. Organisms isolated from infected wounds are frequently multiple. The microbial spectrum and the number of organisms present on diagnosis change with time from wounding.

Purpose and Background: Physiotherapeutic management of lumbar disorders often incorporates specific manual therapy techniques of which McKenzie’s lumbar extension exercises (EIL) and segmental rotational grade V manipulation are popular options. The use of proxy measures of sympathetic nervous system (SNS) activity (skin conductance) is a recognised method of ascertaining neurophysiological responses to physiotherapy treatment but have yet to be used to assess magnitude of response to lumbar techniques. This preliminary study aimed to investigate the neurophysiological effects of these two treatment techniques.

Methodology: A quasi-experimental, independent group’s design was utilised, with random allocation of 50 normal, healthy participants (25 per group) into a manipulation group or an EIL group. Non-invasive neurophysiological measurements of skin conductance were taken as a proxy-measure of sympathetic nervous system (SNS) activity in the lower limbs before, during and after the administration of the techniques. Results were calculated using Area Under the Curve readings and converted into percentage change calculations for the intervention and the post-intervention periods.

Results: Both treatments increased SNS activity during the intervention period, 76% for the manipulation group (p=0.0005) and 35% for EIL group (p=0.0005) with the manipulative technique having significantly greater effect (p=0.012). Further analysis of the manipulation group found no difference between the ‘opening’ and the ‘closing’ side of the technique (p=0.76).

Conclusion: Preliminary evidence now exists supporting the neurophysiological effects of two lumbar techniques and that manipulation has a greater magnitude of effect over the EIL technique. Future research, on a low back pain patient population, is proposed and projected sample size calculations computed.

Background: The main aim of this study was to compare the effectiveness of a brief intervention based on cognitive-behavioural principles (Solution Finding Approach – SFA) with the McKenzie approach (McK). A secondary aim was to determine if there were any clinical characteristics that distinguished patients who responded best to the McKenzie method.

Methods: Eligible patients who were referred by GPs to physiotherapy departments in the UK with neck or back pain were randomly allocated to McK (n= 161) or to SFA (n=154) and their outcome compared at 6 weeks, 6 and 12 months. In addition, putative predictors within the McKenzie group were compared using univariate analysis to examine the relationship between variables and outcomes. Significant variables were assessed using multiple logistic regression analyses.

Results: Both groups demonstrated modest improvements in outcomes. There were no statistically significant differences in outcomes, except 2 small but significant differences at 6 weeks. At 6 weeks, patient satisfaction was greater for McK (median 90% compared with 70% for SFA). The number of treatment successes in the McK group depended upon the definition used, but were limited. Less chronic back pain (rather than neck pain) in patients demonstrating centralisation responded best.

Conclusion: In the original RCT there were few differences between McK and SFA though modest improvements in both. In a secondary analysis of the results for the McK group there were few treatment successes according to our definition of success; these were most likely to occur in back pain patients with shorter duration symptom who demonstrated centralisation response.