Stable thoracolumbar fracture is a common injury. The factors that determine its outcome are unclear. Aspects of injury severity were analysed for their ability to predict outcome by controlling other outcome-affecting factors (patient's pre-injury health status, legal aspects, associated injuries, etc.). No reliable disc injury severity grading system was available and therefore a new system was developed.

A prospective observational study of 44 conservatively treated patients with stable fractures between T11 and L5 was conducted. Bony injury severity was scored based on comminution, apposition and kyphosis parameters. Disc injury severity was scored by the new scale based on variables – Herniation, Indentation, Height decrease and Signal change – seen in MRI. Ten outcome domains (five domains of pain and function each) were assessed at 1 to 2 years from injury. The data was analysed by non-parametric correlation and stepwise-linear regression analysis to assess the predictive value of different variables (patient factors, injury factors and social factor) to outcome.

The correlation coefficients between injury severity and outcome were consistently higher with disc injury severity than bony. Disc injury severity showed highest predictive value for both pain (29%) and functional (16%) outcomes, whereas the bony injury severity parameters (kyphosis, etc.) and the posterior ligament injury severity provided no prediction of outcome. According to AO classification, the fractures were A1, A2, A3 and B1; in this spectrum of injuries, the AO classification had no prediction of outcome. The disc injury score also had a good predictive value for final disc degeneration.

Disc injury severity should be gauged in advising prognosis and treatment. The new disc injury severity grading system showed good construct validity.

Background context: Stable thoracolumbar spinal fracture is a common injury, yet there remains a relative lack of evidence that would allow reliable prediction of outcome. Variation in outcome in stable thoracolumbar spine fracture without neurological deficit could not be explained by the assessment made from x-rays and CT imaging alone, which measures mainly the bony injury severity. So far, no good classification system has been developed to assess the severity of soft tissue injury (disc).

Objectives: To measure short-term outcome of stable thoracolumbar fracture and analyse aspects of injury severity for their ability to predict outcome. To develop a new disc injury severity grading system in thoracolumbar spine fractures.

Study design: Prospective observational.

Patient sample: 44 patients with stable fractures between T11 and L5 vertebra with no neurological deficit and treated conservatively were selected.

Methods: All had plain x-rays, CT and MRI scans post-injury and at one year post-injury (except CT). Bony injury severity was scored on a seven-point ordinal scale based on (a) communication, (b) apposition and (c) kyphosis. Disc injury severity was scored by the newly developed six-point ordinal scale (none to severe) based on the following variables: (a) Herniation of the disc, (b) Indentation of the end plate, (c) Change in height and (d) Change in signal. Outcome was assessed at one to two years from injury. The following outcome measures were collected: (A) Five domains of pain symptoms – intensity, duration, bothersome, interference and satisfaction. (B) Five domains of function – Physical Component Summary (PSC) measure, Mental Component Summary (MSC) measure, Oswestry disability score, return to pre-injury level of overall activities and return to employment. Non-parametric correlation coefficients were calculated between outcome variables and other variables to look for the predictors of outcome. Stepwise linear regression analysis was performed to compare the predictive values and to look at what proportion of outcome is predicted by different predictors.

Results: According to AO classification, the fractures were A1, A2, A3 and B1. The Spearman correlation coefficients between outcome and injury severity were consistently higher with disc injury severity than bony. For the outcome of pain intensity, the correlation coefficients for disc and bone injury severity respectively were:.63 (p < .0001) and.28 (NS-not significant). Similarly for SF36 PSC were: .41 (p < .01) and.25 (NS). The predictive value of pain at F < .01 was 29% for disc injury severity and all other variable were not significant and excluded. At F < .05, the predictive value of disc injury severity (29%) increased further by 9%, 8% and 6% by addition of variable “Patient’s pre-injury SF36 MSC”, “Legal and Compensation issues pending” and “Physical demand of job” respectively. The predictive value of function at F < .01 was 16% for disc injury severity and it increased to 31% by the addition of “physical demand of the job” variable. At F < 0.05 the predictive value further increased by 5% by addition of variable “Legal and Compensation issues pending”. All other variables were not significant.

Conclusions: A new grading system of disc injury severity was developed and it showed good predictive value for pain and functional outcome. Disc injury severity has a better predictive value for short term outcome than bony injury severity in stable thoracolumbar fractures. In the spectrum of injuries studies, the AO classification and the degree of kyphosis provided no prediction of outcome.

Thoracolumbar injury classification systems are not used or researched extensively in paediatric population yet. This systematic review aims to explore the validity and reliability of the two main thoracolumbar injury classification systems in the paediatric population (age ≤ 18). It also aims to explore the transferability of adult classification systems to paediatrics. The Thoracolumbar Injury Classification System (TLICS) published in 2005 and the AO Spine published in 2013 were assessed in this paper because they both provide guidance for the assessment of the severity of an injury and recommend management strategies. A literature search was conducted on the following databases: Medline, EMBASE, Ovid during the period November 2020 to December 2020 for studies looking at the reliability and validity of the TLICS and AO Spine classification systems in paediatric population. Data on validity (to what extent TLICS/ AO Spine recommended treatment matched the actual treatment) and reliability (inter-rater and intra-rater reliability) was extracted. There is an “almost perfect validity” for TLICS. There is a “strong association” between the validity of TLICS and AO Spine. The intra-rater reliability is “moderate” for TLICS and “substantial” for AO Spine. The intra-rater reliability is “substantial” for TLICS and “almost perfect” for AO Spine. The six studies show a good overall validity and reliability for the application of TLICS and AO Spine in pediatric thoracolumbar fractures. However, implication of treatment and anatomical differences of the growing spine should be explored in detail. Therefore, AO Spine can be used in absence of any other classification system for paediatrics

Introduction. Open fractures are complex injuries associated with substantial morbidity. These injuries are associated with harm to both physical and emotional health as well as preclusion of work, social, and leisure activities. Patient reported outcome measures (PROMs) and health related quality of life are critical indicators of successful rehabilitation following open fracture treatment. This study aimed to measure the PROMs for patients with open lower limb fractures and investigate the relationship with injury severity. Materials & Methods. A retrospective cohort study was performed at a single major trauma centre in the UK. All adult patients with an open lower limb fracture were eligible for inclusion. Patients were identified through a search of a local Open Fracture Database. Epidemiological, clinical, and fracture classification data were obtained by reviewing case notes. Lower Extremity Function Scale (LEFS) and EQ5-D were used as PROMs and measured by a postal questionnaire, alongside return to employment data. Results. A total of 73 patients responded to the questionnaire. Median LEFS was 42 (IQR 26.5 – 59.5), and median EQ5-D was 0.69 (IQR 0.48 – 0.89). There was no significant association between open fracture classification and PROMs. Over 40% of patients reported a change in employment due to their injury. Those who changed jobs had a statistically significant reduction in the EQ5-D of 0.12 (p = 0.021); no significant difference existed in LEFS. Conclusions. This study demonstrates the devastating functional impact of open fractures. This cohort of open injuries reported lower functional and quality-of-life measures compared to population norms. Injury classification was not a valuable predictor of PROMs. A substantial proportion of patients were forced to change employment due to their injury, and these patients reported a significantly lower quality of life. Further work is required to understand the factors contributing to open fracture PROMs

Distal radius fractures (DRFs) are common injuries that represent 17% of all adult upper extremity fractures. Some fractures deemed appropriate for nonsurgical management following closed reduction and casting exhibit delayed secondary displacement (greater than two weeks from injury) and require late surgical intervention. This can lead to delayed rehabilitation and functional outcomes. This study aimed to determine which demographic and radiographic features can be used to predict delayed fracture displacement. This is a multicentre retrospective case-control study using radiographs extracted from our Analytics Data Integration, Measurement and Reporting (DIMR) database, using diagnostic and therapeutic codes. Skeletally mature patients aged 18 years of age or older with an isolated DRF treated with surgical intervention between two and four weeks from initial injury, with two or more follow-up visits prior to surgical intervention, were included. Exclusion criteria were patients with multiple injuries, surgical treatment with fewer than two clinical assessments prior to surgical treatment, or surgical treatment within two weeks of injury. The proportion of patients with delayed fracture displacement requiring surgical treatment will be reported as a percentage of all identified DRFs within the study period. A multivariable conditional logistic regression analysis was used to assess case-control comparisons, in order to determine the parameters that are mostly likely to predict delayed fracture displacement leading to surgical management. Intra- and inter-rater reliability for each radiographic parameter will also be calculated. A total of 84 age- and sex-matched pairs were identified (n=168) over a 5-year period, with 87% being female and a mean age of 48.9 (SD=14.5) years. Variables assessed in the model included pre-reduction and post-reduction radial height, radial inclination, radial tilt, volar cortical displacement, injury classification, intra-articular step or gap, ulnar variance, radiocarpal alignment, and cast index, as well as the difference between pre- and post-reduction parameters. Decreased pre-reduction radial inclination (Odds Ratio [OR] = 0.54; Confidence Interval [CI] = 0.43 – 0.64) and increased pre-reduction volar cortical displacement (OR = 1.31; CI = 1.10 – 1.60) were significant predictors of delayed fracture displacement beyond a minimum of 2-week follow-up. Similarly, an increased difference between pre-reduction and immediate post reduction radial height (OR = 1.67; CI = 1.31 – 2.18) and ulnar variance (OR = 1.48; CI = 1.24 – 1.81) were also significant predictors of delayed fracture displacement. Cast immobilization is not without risks and delayed surgical treatment can result in a prolong recovery. Therefore, if reliable and reproducible radiographic parameters can be identified that predict delayed fracture displacement, this information will aid in earlier identification of patients with DRFs at risk of late displacement. This could lead to earlier, appropriate surgical management, rehabilitation, and return to work and function

The aim of the study was to report the survival of open reduction and internal fixation (ORIF) of Vancouver B fractures associated with the Exeter Stem (ES) at a minimum of 5 years. This retrospective cohort study assessed 129 consecutive patients with Vancouver B type fractures treated with ORIF from 2008-2016 at a minimum of 5 years. Patient records were examined, and the following recorded: details of primary prosthesis, details of injury, Vancouver classification, details of operative management, complications, and requirement for reoperation. Data was analysed using SPSS. Survival analysis was undertaken using the endpoint ‘reoperation for any reason’. Mean age at fracture was 78.2 (SD10.6, 46-96) and 54 (43%) were female. Vancouver subclassifications were: 24% B1, 70.5% B2 and 5.5% B3. For all Vancouver B fractures, Kaplan Meier analysis demonstrated a 5 year survival free from reoperation of 88.8% (82.0-94.7 95%CI). Fourteen patients required reoperation, most commonly within the first year for non-union and plate fracture (5.4%). Five-year survival for any reoperation differed significantly according to fracture type (p=0.016) and was worst in B1s: B1 76.6% (61.3-91.9); B2 92.6% 986.9-98.3); and 100% of B3. Univariate analysis identified B1 type (p=0.008) and a transverse fracture pattern (p=0.003) to be significantly associated with the need for reoperation. Adopting a strategy of fixation of all Vancouver B fractures involving the ES where the fracture was anatomically reducible and the bone cement interface was well-fixed was associated with a 5 year survival, free from reoperation of 88.8%

Cannulated hip screws are frequently used in the management of hip fractures. There have been concerns over the failure rate of the technique and the outcomes of those that subsequently require conversion to total hip replacement (THR). This study utilised a database of over 600 cannulated hip screw (CHS) fixations performed over a 14-year period and followed up for a minimum of one year (1-14). We identified 57 cases where a conversion to THR took place (40 females, 17 males, mean age: 71.2 years). Patient demographics, original mechanism of injury, fracture classification, reason for fixation failure, time until arthroplasty, implant type and post-arthroplasty complications were recorded. Clinical outcomes were measured using the Oxford Hip Score. The failure rate of cannulated screw treatment was 9.4% and the mean time from initial fixation to arthroplasty was 15.4 (16.5) months. Thirty six fractures were initially undisplaced and 21 were displaced. As one might expect the displaced cases tended to be younger but this didn't reach statistical significance [66.5(14.3) vs 72.7(13.1), p=0.1]. The commonest causes of failure were non-union (25 cases, 44%) and avascular necrosis (17 cases, 30%). Complications after THR consisted of one leg length discrepancy and one peri-prosthetic fracture. The mean Oxford score pre-arthroplasty was 12.2 (8.4), improving to 38.4 (11.1) at one-year. Although the pre op Oxford scores tended to be lower in patients with undisplaced fractures and higher ASA scores, the improvement was the same whatever the pre-op situation. The one-year Oxford score and the improvement in score are comparable to those seen in the literature for THR in general. In conclusion, CHS has a high success rate and where salvage arthroplasty is required it can provide good clinical outcomes with low complication rates

Aims. Understanding of open fracture management is skewed due to reliance on small-number lower limb, specialist unit reports and large, unfocused registry data collections. To address this, we carried out the Open Fracture Patient Evaluation Nationwide (OPEN) study, and report the demographic details and the initial steps of care for patients admitted with open fractures in the UK. Methods. Any patient admitted to hospital with an open fracture between 1 June 2021 and 30 September 2021 was included, excluding phalanges and isolated hand injuries. Institutional information governance approval was obtained at the lead site and all data entered using Research Electronic Data Capture. Demographic details, injury, fracture classification, and patient dispersal were detailed. Results. In total, 1,175 patients (median age 47 years (interquartile range (IQR) 29 to 65), 61.0% male (n = 717)) were admitted across 51 sites. A total of 546 patients (47.1%) were employed, 5.4% (n = 63) were diabetic, and 28.8% (n = 335) were smokers. In total, 29.0% of patients (n = 341) had more than one injury and 4.8% (n = 56) had two or more open fractures, while 51.3% of fractures (n = 637) occurred in the lower leg. Fractures sustained in vehicle incidents and collisions are common (38.8%; n = 455) and typically seen in younger patients. A simple fall (35.0%; n = 410) is common in older people. Overall, 69.8% (n = 786) of patients were admitted directly to an orthoplastic centre, 23.0% (n = 259) were transferred to an orthoplastic centre after initial management elsewhere, and 7.2% were managed outwith specialist units (n = 81). Conclusion. This study describes the epidemiology of open fractures in the UK. For a decade, orthopaedic surgeons have been practicing in a guideline-driven, network system without understanding the patient features, injury characteristics, or dispersal processes of the wider population. This work will inform care pathways as the UK looks to the future of trauma networks and guidelines, and how to optimize care for patients with open fractures. Cite this article: Bone Jt Open 2022;3(10):746–752

Aims. The primary aim of this study was to identify independent predictors associated with nonunion and delayed union of tibial diaphyseal fractures treated with intramedullary nailing. The secondary aim was to assess the Radiological Union Scale for Tibial fractures (RUST) score as an early predictor of tibial fracture nonunion. Methods. A consecutive series of 647 patients who underwent intramedullary nailing for tibial diaphyseal fractures were identified from a trauma database. Demographic data, comorbidities, smoking status, alcohol consumption, use of non-steroidal anti-inflammatory drugs (NSAIDs), and steroid use were documented. Details regarding mechanism of injury, fracture classification, complications, and further surgery were recorded. Nonunion was defined as the requirement for revision surgery to achieve union. Delayed union was defined as a RUST score < 10 at six months postoperatively. Results. There were 41 nonunions (6.3%), of which 13 were infected (31.7%), and 77 delayed unions (11.9%). There were 127 open fractures (19.6%). Adjusting for confounding variables, NSAID use (odds ratio (OR) 3.50; p = 0.042), superficial infection (OR 3.00; p = 0.026), open fractures (OR 5.44; p < 0.001), and high-energy mechanism (OR 2.51; p = 0.040) were independently associated with nonunion. Smoking (OR 1.76; p = 0.034), open fracture (OR 2.82; p = 0.001), and high-energy mechanism (OR 1.81; p = 0.030) were independent predictors associated with delayed union. The RUST score at six-week follow-up was highly predictive of nonunion (sensitivity and specificity of 75%). Conclusion. NSAID use, high-energy mechanisms, open fractures, and superficial infection were independently associated with nonunion in patients with tibial diaphyseal fractures treated with intramedullary nailing. The six-week RUST score may be useful in identifying patients at risk of nonunion. Cite this article: Bone Jt Open 2021;2(4):227–235

Aims

Isolated fractures of the ulnar diaphysis are uncommon, occurring at a rate of 0.02 to 0.04 per 1,000 cases. Despite their infrequency, these fractures commonly give rise to complications, such as nonunion, limited forearm pronation and supination, restricted elbow range of motion, radioulnar synostosis, and prolonged pain. Treatment options for this injury remain a topic of debate, with limited research available and no consensus on the optimal approach. Therefore, this trial aims to compare clinical, radiological, and functional outcomes of two treatment methods: open reduction and internal fixation (ORIF) versus nonoperative treatment in patients with isolated ulnar diaphyseal fractures.

Introduction. As modern day lifestyle is becoming more active so is the incidence of meniscal injuries on rise. An injury to the meniscus is a common orthopedic problem with the incidence of meniscal injury resulting in meniscectomy of 61 per 100,000 populations per year. The common practice in diagnosis of the meniscal injury involves clinical examination followed by radiological or arthroscopic confirmation. The clinical tests commonly performed are joint line tenderness (JLT), McMurray's Test (Non-weight bearing test) and Childress Test (Weight Bearing Test). Aim. In our study, we performed the comparative analysis of the validity parameters for components of clinical examination in form of Joint line tenderness, McMurray's test and Childress Test. Methodology. A retrospective analysis was performed on the database established using Orchard Sports Injury Classification System-8. Codes KC2 and KC3 (Meniscal injuries) were identified for single examiner for duration from 2004–2007. Out of 88 patients considered for the study, 62 patients were stratified in whom only clinical examination was performed followed by arthroscopic evaluation. The validity parameters considered were accuracy, specificity, sensitivity, positive predictive value (PPV) and negative predictive value (NPV). Results. Joint line tenderness had accuracy of 85.47%, sensitivity of 89.09%, and specificity of 57.14%, PPV of 94.23% and NPV of 40%. McMurray's test yielded a accuracy of 88.7%, sensitivity of 89.65%, specificity of 75%, PPV of 98.11%, NPV of 33.33% while Childress test accurately predicted meniscal injury 87.09% and was sensitive for 94.73% with specificity of 40%, PPV of 94.73% and NPV of 40%. Conclusion. We can summarise that though the JLT, McMurray's Test and Childress Test provide a variable yet effective diagnostic value, all through can provide a composite diagnostic yield improving the outcome of clinical examination in meniscal injuries

To review the changing pattern of orthopaedic injury encountered by deployed troops with special regard to the importance of hand trauma sustained in conflict and non- war fighting activities. Literature review relating to recent military operations (1990–2007) encompassing 100 conflicts worldwide. A subsequent search was performed to identify papers relating to hand injuries from 1914 to the present day. Papers were graded by Oxford Centre for Evidence-based Medicine Levels of Evidence. Two hundred and ten published works were analysed. Review of the literature revealed a lack of statistical analysis and a tendency towards the anecdotal. These works were primarily level five evidence comprising reviews, correspondence, sub-unit experiences and individual nation database analyses. The importance of extremity trauma is clear. The combination of changing ballistics and increasing survivability off the battlefield leads to a previously under emphasised increase in complex hand trauma. Hand trauma is also shown to occur in deployed troops during activities unrelated to war fighting. Articles concerning military hand trauma management were mainly published prior to the conflicts of the last decade. Within these papers injury classification and treatment priorities are highlighted as core knowledge for trauma surgeons. This paper provides a review of conflict related injury patterns with special regard to hand trauma. The key learning points from historical literature are highlighted. Proposals for improving management of these injuries from battlefield to home nation are discussed with regard to training opportunities and dialogue to ensure past lessons are not forgotten

Aims

The increase in prescription opioid misuse and dependence is now a public health crisis in the UK. It is recognized as a whole-person problem that involves both the medical and the psychosocial needs of patients. Analyzing aspects of pathophysiology, emotional health, and social wellbeing associated with persistent opioid use after injury may inform safe and effective alleviation of pain while minimizing risk of misuse or dependence. Our objectives were to investigate patient factors associated with opioid use two to four weeks and six to nine months after an upper limb fracture.

Introduction Open calcaneal fractures are high-energy compression injuries that commonly result in dismal outcomes, despite appropriate care. Fracture pattern associated with these compound injuries have never been documented in detail. Plain radiographic studies and CT are imaging modalities commonly utilized to assess the fracture patterns. Methods The roentgenographic studies of thirty-nine consectutive compound fractures treated at our University Hospital were retrospectively reviewed to evaluate fracture subtypes and incidence. Hindfoot roentgenograms were performed in all individuals; more than three-fourths of the fractures were also assessed with CT. Results A vast array of fracture patterns was noted with variable incidence. Over 90% were intra-articular fractures. Eighty-seven percent resulted from blunt trauma - the remaining followed penetrating trauma. Six distinct fracture patterns were delineated. The fracture subtypes were stratified into low, intermediate and high levels of energy. Low energy (Type I) included minimally-displaced fractures. These comprised only eight percent of our series. Intermediate energy fractures (Type II) included tongue-type, thalamic fractures and reconstructible posterior facet fractures. These three subtypes comprised 69% of the series. Finally, the Type III, or high-energy fractures was made up of “pulverized fractures” and fracture-dislocations. These comprised 23% of our series. Conclusions Stratification of injury severity based on fracture subtypes and wound characteristics should assist orthopedists treating these compound hindfoot injuries. An injury classification is proposed combining a three part “energy of injury” scheme with a two-part “soft tissue” classification. A fuller understanding of the injury subtypes should help establish future management standards

Talar neck fractures are rare injuries representing only 0.14%–0.32% of all fractures, one in five of these is open. In order to investigate the hypothesis that open talar neck fractures have worse outcome than closed ones, we did a Metaanalysis of the literature. Manuscripts dealing with fractures of the talus were identified from a Pubmed search including databases from 1970 to 2004. The searches were made using the keywords talar fractures, fractures of the neck of talus, outcome of talar fractures and open talar fractures. Full articles were retrieved and methodological quality filters applied for their suitability for inclusion in a more detailed review. Data were extracted from these articles and methodology and outcome were analyzed. We analyzed the numbers of patients, numbers of open fractures, mechanism of injury, associated injuries, classification used, treatment methods, complications and outcome. Of 29 manuscripts reviewed, 22 met the inclusion criteria. These were subjected to more detailed analysis, the outcomes of 1017 patients were described. The commonest mechanism of injury was road traffic accidents (42%). The incidence of Hawkins’ types was type I 27%, type II 35%, type III 30% and type IV 8%. More than half the patients were treated by open reduction and internal fixation. Medial malleolar fracture was the most common associated injury. The overall incidence of avuscular necrosis was 30%. 23% developed ankle osteoarthritis, 34% subtalar and 7.5% both. 17 % of all patients have had one form of arthrodesis. 22% were open injuries and only few authors reported the detailed treatment and outcome of their open fractures, however infection rate was higher in open injuries and they tend to be associated more with type III and IV Hawkins’ classification. The fate of the extruded talus remains controversial. In conclusion, it appears that the current literature is poor in providing evidence based medicine in the management and outcome of open talar neck fractures. More detailed studies should be done to shed more light on the fate of these rare and disabling injuries

Introduction. Civilian fractures have been extensively studied with in an attempt to develop classification systems, which guide optimal fracture management, predict outcome or facilitate communication. More recently, biomechanical analyses have been applied in order to suggest mechanism of injury after the traumatic insult, and predict injuries as a result of a mechanism of injury, with particular application to the field so forensics. However, little work has been carried out on military fractures, and the application of civilian fracture classification systems are fraught with error. Explosive injuries have been sub-divided into primary, secondary and tertiary effects. The aim of this study was to 1. determine which effects of the explosion are responsible for combat casualty extremity bone injury in 2 distinct environments; a) in the open and b) enclosed space (either in vehicle or in cover) 2. determine whether patterns of combat casualty bone injury differed between environments Invariably, this has implications for injury classification and the development of appropriate mitigation strategies. Method. All ED records, case notes, and radiographs of patients admitted to the British military hospital in Afghanistan were reviewed over a 6 month period Apr 08-Sept 08 to identify any fracture caused by an explosive mechanism. Paediatric cases were excluded from the analysis. All radiographs were independently reviewed by a Radiologist, a team of Military Orthopaedic Surgeons and a team of academic Biomechanists, in order to determine the fracture classification and predict the mechanism of injury. Early in the study it became clear that due to the complexity of some of the injuries it was inappropriate to consider bones separately and the term ‘Zone of Insult’ (ZoI) was developed to identify separate areas of injury. Results. 62 combat casualties with 115 ZoIs (mean 1.82 zones) were identified in this study. 34 casualties in the open sustained 56 ZoIs (mean 1.65); 28 casualties in the enclosed group sustained 59 ZoIs (mean 2.10). There was no statistical difference in the mean ZoIs per casualty in the open vs enclosed group (Student t-test, p=0.24). Open fractures were more prevalent in the open group compared to the enclosed group (48/59 vs 20/49, Chi-squared test p<0.001). Of the casualties in the open, 1 zone of injury was due to the primary effects of blast, 10 a combination of primary and secondary blast zones, 23 due to secondary effects and 24 from the tertiary effects of blast. In contrast, there were no primary or combined primary and secondary blast zones and only 2 secondary blast zones in the enclosed group. Tertiary blast effects predominated in the enclosed group, accounting for 96% of injury zones (57/59). Analysis of the pattern of injury revealed that there were a higher proportion of lower limb injuries in the Enclosed group (54/59) compared to the Open group (40/58, Chi-squared p<0.05). In the Open group the mechanism of lower limb injury was more evenly distributed amongst mixed primary and secondary blast effects (10), secondary (10) and tertiary (20). In the enclosed group, lower limb injuries were almost exclusively caused by tertiary blast effects (47/48). A similar pattern was also seen in the Upper limb with 4/5 in the enclosed group was injured by tertiary effects compared to 4/18 in the Open Group. In the open group fragmentation injury was the predominant cause of injury (13/18). Conclusions. This data clearly demonstrates two distinct injury groups based upon the casualties' environment. The enclosed environment afforded by buildings and vehicles appears to mitigate the primary and secondary effects of the explosion. However, tertiary blast effects were the predominant mechanism of injury, with severe axial loading to the lower extremity being a characteristic of the fractures seen. In contrast, secondary fragments from the explosion were more likely to result in fractures of casualties caught in the open. The development of future mitigation strategies must be focused on reducing all the different mechanisms of injury caused by an explosion. This will require a better understanding on the effects of bone in high strain environments. This method of forensic biomechanics involving clinicians and engineers, combined with accurate physical and numerical simulations can form the basis in reducing the injury burden to the combat soldier

The most appropriate classification of traumatic thoracolumbar (TL) spine injuries remains controversial and current systems can be cumbersome and difficult to apply. No classification aids decision making in clinical management. Clinical spine trauma specialists from institutions around the world were canvassed with respect to information deemed pivotal in the communication of TL spine trauma and the clinical decision making process. Traditional injury patterns were reviewed and reconsidered in light of these essential characteristics. The reliability and validity of an earlier version of this system has been demonstrated. The Thoracolumbar Injury Classification and Severity Score (TLICS) was devised based upon the three most important injury characteristics: 1) morphology of injury determined by radiographic appearance, 2) integrity of the posterior ligamentous complex, and 3) neurological status of the patient. These characteristics are largely independent of each other. A composite injury severity score can be calculated from these characteristics stratifying patients into surgical and non-surgical treatment groups. The three principal injury patterns are compression (including burst – 1 point each), translation/rotation (3 points) and distraction (4 points). Neurological status can be classified as a nerve root injury (1 point), a complete (ASIA A-2 points) or incomplete injury (3 points) to the spinal cord or conus, or injury of the cauda equina (3 points). Disruption of the posterior ligamentous complex and facet joint capsules results in instability. Disrupted posterior ligaments can be seen as subluxation or dislocation of a facet, interspinous widening, or MRI evidence of ligament discontinuity. Failure of the posterior ligamentous complex can be classified as indeterminate (2 points) or definitely disrupted (3points). Coexisting clinical factors (qualifiers) may alter decision making by virtue of their effect on stability, general management or effect on healing. Metabolic disorders such as ankylosing spondylitis, DISH, osteoporosis and age may influence treatment. Injury characteristics such as excessive kyphosis, severe vertebral body collapse and sternal fracture may influence outcome and modify treatment. Treatment options might be influenced in patients with head injuries or polytrauma. The impact of these clinical qualifiers on patient care must be evaluated. Once all the major variables have been assigned points, a total TLICS Score can be determined. Patients with 3 or less points are non-operative candidates while patients scoring 5 or more points should be considered for surgery. Clinical qualifiers may modify treatment. The morphology of the injury, neurological status, and integrity of the posterior ligamentous complex can help guide the management of TL injuries. Incomplete neurological injuries warrant anterior decompression if posterior realignment is ineffective in relieving neurological compromise. Distraction and translational injuries, and disruptions of the posterior ligamentous complex are managed optimally with an initial posterior approach for realignment and stabilization. Although there will always be limitations to any cataloging system, the TLICSS reflects accepted features cited in the literature important in predicting spinal stability, future deformity, and progressive neurological compromise. This classification system is intended to be easy to apply and to facilitate clinical decision making

Introduction: Reported standardized functional outcome assessment of flexion distraction injuries of the thoracolumbar spinal column seems to be lacking in the literature. The primary focus of this study was the long term functional outcome in this patient population in view of the management employed in a tertiary spine referral center. In an attempt to overcome the lack of pre-injury Health Related Quality of Life (HRQOL) data, patient recall of the pre-injury state was used. Secondary outcomes included the long-term disease-specific HRQOL in these patients, the correlation between radiographic alignment and functional outcome, comparison of HRQOL between operative and non-operative care, and identifying potential prognostic factors influencing functional HRQOL. Method: A database generated retrospective cohort study with a cross-sectional outcome analysis was carried out for patients with a thoracolumbar (T11-L2) flexion-distraction injury treated at a tertiary care referral center between 1995 and 2000. Inclusion criteria were age over sixteen, and referral to our center for a traumatic thoracolumbar flexion-distraction injury within two weeks of the injury. Exclusion criteria were an associated spinal cord injury, a previous spine injury or a multi-level spine injury, a significant associated other system injury with an ISS > 50, or patient refusal or inability to complete the outcome questionnaires. Patients were followed for a minimum of two years. Injury classification, healing, and alignment were determined by radiographic analysis. Standing lateral x-rays at final follow-up were used to determine the amount of residual kyphosis by two independent observers. Results: A total of 87 patients were identified by the research database, of which 83 met inclusion and exclusion criteria. Twenty-eight patients were lost to follow-up, leaving 55 eligible patients. Eight refused to participate. Of the 47 remaining patients, 40 completed questionnaires representing a response rate of 85%. There were 26 males and 14 females with a mean age of 27.4 years (range 16–48). Average follow-up was 3.3 years (range 2.5–7). Twenty-five patients (64.9%) were treated operatively and fifteen patients (35.1%) underwent non-operative management. Complications in the surgical group included one non-union, three cases of painful instrumentation, and one infection. In the non-surgical group, two patients developed non-unions requiring surgical intervention. Comparing the follow-up mean SF-36 PCS and MCS scores to the recalled baseline SF-36 pre-injury scores, demonstrated the patients did not return to baseline physical component and mental component scores (p < 0.001). The mental component (MCS) and NASS pain scores showed significant statistical difference between the two groups with a trend of non-surgical patients scoring higher. There was no statistically significant difference in the SF-36 PCS between the two groups. Linear and multiple regression models identified “associated other system injuries” as the only useful predictor of outcome influencing the SF-36 PCS. Patients with associated injuries are likely to have a poorer prognosis with lower scores. Radiographically, there was no association between degree of kyphosis at last follow-up and outcome. Discussion: Long term functional outcome assessment in this patient population and comparison between the surgical and non-surgical groups, revealed a trend in the non-surgical group towards reporting higher scores on both the generic and disease-specific questionnaires. There were also a higher number of complications associated with the surgical group, as well as potential residual back pain related to instrumentation. Limitations of the study were the retrospective nature of the study, as well as the inherent absence of real time pre-injury quality of life assessment. The study is, however, strengthened by a homogeneous cohort and the use of validated outcome measures. It also involves a cross-sectional analysis and so has a prospective component. Conclusion: The health related quality of life in patients treated for flexion-distraction injuries without spinal cord injury is favorable overall, but does not return to normal after an average of two years following injury, with a trend in the non-surgical group towards reporting higher scores on both the generic and disease-specific questionnaires. Radiographically, no association was found between degrees of focal kyphosis at last follow-up and functional outcome

Myotome values for the upper limb appear to have been established in the early twentieth century based on historical work. Supraclavicular brachial plexus injuries present with a pattern of neurological loss consistent to the nerve roots affected. Recent advances in radiological imaging and intraoperative nerve stimulation have allowed confirmation of the affected nerve roots. The records of 43 patients with partial injuries to the supraclavicular brachial plexus were reviewed. The injuries covered the full range of injury patterns including those affecting C5, C5-6, C5-7, C5-8, C7-T1 and C8-T1 roots. All cases with upper plexus injuries had surgical exploration of the brachial plexus with the injury pattern being classified on the basis of whether the roots were in continuity, ruptured, or avulsed, and, if seen in continuity, the presence or absence of a response to stimulation. For lower plexus injuries the classification relied on identification of avulsed roots on Magnetic Resonance Imaging. Muscle powers recorded on clinical examination using the MRC grading system. In upper plexus injuries paralysis of flexor carpi radialis indicated involvement of C7 in addition to C5-6, and paralysis of triceps and pectoralis major suggested loss of C8 function. A major input from T1 was confirmed for flexor digitorum superficialis, flexor digitorum profundus (FDP) to the radial digits, and extensor pollicis longus. C8 was the predominant innervation to the ulnar side of FDP and intrinsic muscles innervated by the ulnar nerve with some contribution from C7. A revised myotome chart for the upper limb is proposed

A number of studies have described the epidemiological characteristics of clavicle fractures, including two previous reports from our institution. The Robinson classification system was described in 1998, after the analysis of 1,000 clavicle fractures. We aim to provide a contemporary analysis and compare current clavicle fracture patterns of our adult population with historical reports. A retrospective analysis of a prospectively collected fracture database from an institution serving 598,000 was conducted. Demographic data were recorded prospectively for each patient with an acute clavicle fractures including age, gender, mode of injury, fracture classification, and the presence of associated skeletal injuries. Fractures were classified according to the Robinson system. A total of 312 clavicle fractures were identified, occurring with an incidence of 55.9/100,000/yr (CI 49.8–62.5) and following a bimodal male and unimodal older female distribution. Sporting activity and a simple fall from standing caused the majority of injuries. More than half of simple fall fractures affected the lateral clavicle. The incidence of clavicle fractures has risen over a twenty year period, and a greater proportion of older adults are now affected. Overall, type II midshaft fractures remain the most common, but comparison of this series with historical data reveals that the epidemiology of clavicle fractures is changing. We have identified an increase in the average patient age and overall incidence of clavicle fractures in our adult population. The incidence, relative frequency, and average patient age of type III lateral one-fifth fractures have increased. This epidemiological trend has implications for the future management of clavicle fractures in our region