Background:. Outcome after traumatic spinal fracture is difficult to predict. Some patients have ongoing pain while others make a good recovery and there is therefore considerable debate as to which fractures should be treated operatively. Delayed operations for ongoing pain post fracture are more expensive with a longer recovery. The sagittal balance of the spine may predict patient outcomes post fracture. Aim:. Identify subjects with stable spine fractures not requiring acute fixation and compare their sagittal parameters measured on initial standing x-ray with whether or not they have ongoing pain. Methods:. A retrospective review was undertaken of patients presenting with a spine fracture to North Bristol Trust over a five year period. Sagittal parameters on initial standing x-rays were measured. The presence or absence of pain at last follow up was recorded. Results:. 399 fractures were identified. 100 were taken to theatre for acute fixation. Only 120 of those remaining had x-rays available which allowed full sagittal parameters to be measured. Clinical outcomes were available on 97 of these subjects. The measurement of pelvic incidence was not found to be significantly different in the two groups (p=0.218). The differences in pelvic tilt between those with and without pain was significant (p=0.004). Conclusion:. A lower pelvic tilt correlates with pain post fracture. Whether this is predictive of pain or not is unclear. Further investigation is indicated to examine the clinical outcomes and economic impact on subjects presenting with a fracture of the spine as well as the economic impact to the health service

Aims: The aim of our study was to compare relative risk of hip fracture after wrist or spine fracture, in both men and women. Methods: We performed a systematic literature review of cohort studies reported since 1982 that included low-trauma wrist or spine fracture as a risk factor for subsequent hip fracture among (white) women and men aged 50 years or older. A fixed effects meta-analysis was used to calculate a common relative risk (RR) with 95% confidence interval (95% CI). Results: Ten cohort studies (six from the U.S.A. and four from Europe) contributed to this meta-analysis. Among postmenopausal women, RRs for future hip fracture after wrist and spine fracture were 1.53 (95% CI 1.34–1.74, p< 0.001) and 2.22 (95% CI 1.95–2.52, p< 0.001), respectively. The RR was significantly higher after spine fracture than after wrist fracture (p< 0.001). Among ageing men, these RRs for future hip fracture were 3.26 (95% CI 2.08–5.11, p< 0.001) and 3.54 (95% CI 2.01–6.23, p< 0.001), respectively. In contrast to the observation in women, this difference was not statistically significant (p=0.82). The RR was significantly higher in men than in women after wrist fracture (p=0.002), but not after spine fracture (p=0.12). Conclusions: Recent studies have shown consistent and strong prospective associations of hip fracture with previous wrist or spine fracture among postmenopausal women. The findings of our meta-analysis confirm these results and extend them to ageing men. In addition, our results indicate that wrist and spine fractures are equally important risk factors for future hip fracture in ageing men

We hypothesised whether MIS techniques confer any benefit when treating thoracolumbar burst fractures. This was a prospective, non-randomised study over the past seven years comparing conservative (bracing:n=27), conventional surgery (open techniques:n=23) and MIS techniques (n=21) for stabilisation and correction of all thoracolumbar spinal fractures with kyphosis of >20. 0. , using Camlok S-RAD 90 system (Stryker Spine). All patients previously had normal spines, sustained only a single level burst fracture (T12, L1 or L2) as their only injury. Age range 18–65 years. All patients in both operatively treated groups were corrected to under 10. 0. of kyphosis, posteriorly only. All pedicle screws/rods were removed between 6 months and 1 year post surgery to remobilise the stabilised segments once the spinal fracture had healed, using the original incisions and muscle splitting/sparing techniques. Patients were assessed via Oswestry Disability Index (ODI) and work/leisure activity status 1 year post fracture. The conservatively treated group fared worst overall, with highest length of stay, poorest return to work/activity, and with a proportion (5/27) requiring later intervention to deal with post-traumatic deformity. 19/27 returned to original occupation, at average 9 months. ODI 32%. Conventional open techniques fared better, with length of stay 5 days, most (19/23) returning to original work/activity, and none requiring later intervention. Average return to work was at 4 months. ODI 14%. MIS group fared best, with shorter length of stay (48 hours), all returning to original work/activity at average 2 months, and none requiring later intervention. ODI negligible. There was no loss of correction in either operatively treated groups. The Camlok S-RAD 90 system is a powerful tool for correction of thoracolumbar burst fractures, and maintains an excellent correction. MIS techniques provide the best outcomes in treating this group of spinal fractures, and offer patients the best chance of restoration to pre-fracture levels of activity

The importance of mechanism of injury was initially introduced by Holdsworth who made the supposition that all fractures are created when the spine is subject to one of 5 types of violence. It has been our experience that similar injury mechanisms can lead to variable fracture patterns. Alternatively, different injury mechanisms can lead to the same fracture pattern.

Purpose: To evaluate the variation in fracture patterns when a single and uniform force vector is applied to the spine with variable degrees of spinal flexion. Finite element modeling was used for this analysis.

Methods: Three different finite element models were created to represent each accident situation. The straight spine was modeled as a simple column with alternating vertebrae and disc segment. The moderately flexed and significantly flexed spines were modeled as curved cylinders sectioned into vertebrae and discs, then bent around a solid cylinder representing the abdomen. A 1000 N compressive load was applied vertically to the top of the spine. The model was restrained along all bottom surfaces, and the interface between the spine and abdomen sections was defined as frictionless. The model is fixed at the lower end and the area of greatest interest is the transition zone from the most rigid to the less rigid portion. Although no specific area of the spine is intended for purposes of the model, this composition is much like the thoracolumbar junction – the location of the majority of spinal injuries.

Results: The straight spine showed pure compression throughout the length of the spine, while the moderately curved spine showed the posterior elements of the region of interest in tension and the anterior elements in compression. The significantly curved spine was found to be in tension in both posterior and anterior elements.

Conclusion: In a situation where the patient is sitting upright with a straight spine, a compressive load will cause a burst fracture. When the patient is partially bent over, such as with a shoulder seat belt, a flexion distraction injury will occur with the posterior aspect of the spine failing in tension and the anterior in compression. When the patient is fully bent over, such as with a laponly seat belt, a purely distractive fracture can occur.

The April 2015 Spine Roundup360 looks at: Hyperostotic spine in injury; App based back pain control; Interspinous process devices should be avoided in claudication; Robot assisted pedicle screws: fad or advance?; Vancomycin antibiotic power in spinal surgery; What to do with that burst fracture?; Increasing complexity of spinal fractures in major trauma pathways; Vitamin D and spinal fractures

Cervical spine facet tropism (CFT) defined as the facets’ joints angles difference between right and left sides of more than 7 degrees. This study aims to investigate the relationship between cervical sagittal alignment parameters and cervical spine facets’ tropism. A retrospective cross-sectional study carried out in a tertiary center where cervical spine magnetic resonance imaging (MRI) radiographs of patients in orthopedics/spine clincs were included. They had no history of spine fractures. Images’ reports were reviewed to exclude those with tumors in the c-spine. A total of 96 patients was included with 63% of them were females. The mean of age was 45.53± 12.82. C2-C7 cobb's angle (CA) and C2-C7 sagittal vertical axis (SVA) means were −2.85±10.68 and 1.51± 0.79, respectively. Facet tropism was found in 98% of the sample in at least one level on either axial or sagittal plane. Axial C 2–3 CFT and sagittal C4-5 were correlated with CA (r=0.246, P 0.043, r= −278, P 0.022), respectively. In addition, C2-C7 sagittal vertical axis (SVA) was moderately correlated with axial c2-3 FT (r= −0.330, P 0.006) Also, several significant correlations were detected in our model Cervical vertebral slopes and CFT at the related level. Nonetheless, high BMI was associated with multi-level and multiplane CFT with higher odd's ratios at the lower levels. This study shows that CFT at higher levels is correlated with increasing CA and decreasing SVA and at lower levels with decreasing CA. Obesity is a risk factor for CFT

Odontoid fracture of the second cervical vertebra (C2) is the most common spinal fracture type in elderly patients. However, very little is known about the biomechanical fracture mechanisms, but could play a role in fracture prevention and treatment. This study aimed to investigate the biomechanical competence and fracture characteristics of the odontoid process. A total of 42 human C2 specimens (14 female and 28 male, 71.5 ± 6.5 years) were scanned via quantitative computed tomography, divided in 6 groups (n = 7) and subjected to combined quasi-static loading at a rate of 0.1 mm/s until fracturing at inclinations of −15°, 0° and 15° in sagittal plane, and −50° and 0° in transverse plane. Bone mineral density (BMD), specimen height, fusion state of the ossification centers, stiffness, yield load, ultimate load, and fracture type according to Anderson and d'Alonzo were assessed. While the lowest values for stiffness, yield, and ultimate load were observed at load inclination of 15° in sagittal plane, no statistically significant differences could be observed among the six groups (p = 0.235, p = 0.646, and p = 0.505, respectively). Evaluating specimens with only clearly distinguishable fusion of the ossification centers (n = 26) reveled even less differences among the groups for all mechanical parameters. BMD was positively correlated with yield load (R² = 0.350, p < 0.001), and ultimate load (R² = 0.955, p < 0.001), but not with stiffness (p = 0.070). Type III was the most common fracture type (23.5%). These biomechanical outcomes indicate that load direction plays a subordinate role in traumatic fractures of the odontoid process in contrast to BMD which is a strong determinant of stiffness and strength. Thus, odontoid fractures appear to result from an interaction between load magnitude and bone quality

To analyse and compare long-term functional outcome of combined spino-pelvic injuries to an isolated pelvis and spinal fractures, the outcome of matched 30 patients with combined pelvic and spinal fractures was compared with 32 patients with isolated pelvic fractures and 30 patients with isolated spinal fractures. Functional outcome was measured using the self-report questionnaire EuroQol EQ-5D, a generic outcome tool. The functional outcome was compared with the average UK population scores. The mean age, median ISS and demographic profile were similar in all 3 groups. Neurological injuries were seen in 10 patients in the combined injury group, 5 patients in the pelvic injury group and 3 patients in the spinal fracture group. 1 patient had sexual dysfunction in the combined injury group. The EuroQol EQ-5D descriptive scores for the combined group were 0.67±0.11 (0.71±0.12 for spine fracture, 0.61±0.18 for pelvic fracture) and Valuation scores for the combined injury were 69.6±11.4 (65.1±19.4 for spine fracture, 61.5±21.9 for pelvic fracture), which are p=0.004 and p=0.003 for the combined injury compared to the average UK population. Duration of hospital stay was a mean of 13 days in spine injury group compared to 49 days in the combined injury group. 70% of patients with spinal injuries returned to the same level of employment in a mean duration of 5.3 months with only 10% retired due to injury; compared to 56.6% returned to work in the combined injury group after a mean duration of 12.8 months with 23.3% retired due to injury. Long-term functional outcome is significantly better with isolated spinal injuries compared to pelvic injury or combined injury. There is no significant long-term difference between the combined spino-pelvic group and the isolated pelvic injury group. We feel that the spinal injuries in a patient with coexisting pelvic fracture do not contribute towards the overall functional outcome in those patients

Purpose. A Virtual Spinal Clinic (VSC) was set-up at a regional spinal referral centre to see if patient care could be improved through early advice to provide timely management, early onward referral, improve patient satisfaction and minimise chronicity. The clinic was based on the successful virtual model used throughout the country within orthopaedic fracture clinics. VSC is a Consultant led multi-disciplinary (MDT) clinic run by Advanced Practitioners (AP). Methods. A 3-month trial of the VSC was completed bi-weekly. Patients diagnosed with conservatively managed spinal fractures were referred from the on-call service. A management plan was devised by a Consultant Spinal Surgeon and communicated to patients by the AP via a telephone-call consultation where clinical advice and management could be discussed. Results. 23 clinics completed. 271 patient contacts. 216 reviewed virtually. Completed outcomes of VSC. 34.65% Discharged. 51.18% Routine appointment. 14.17% Urgent appointment. Conclusion. VSC successfully completed safe and timely assessments, management plans, telephone consultations and onward referrals for Greater Manchester patients with acute spinal fractures. Patients had earlier access to health professionals to provide advice, reassurance, complete onward referrals and safety-netting. Patient satisfaction improved, with patient reporting the telephone consultation was reassuring and allowed early return to previous function. VSC reduced patients waiting time for a follow-up appointment and reduced patients travel time across Greater Manchester. In the future, it is hoped that the 6-week follow-up telephone call service will be utilised more as VSC develops. No conflicts of interest. No funding obtained

A prospective cohort outcome evaluation of unstable thoracic spine fractures treated with posterior pedicle screw fixation. The purpose of this study was to determine the accuracy of placement and safety of pedicle screws in open reduction of unstable thoracic spine fractures. The surgeries were performed by one of five fellowship trained spinal surgeons. CT scans were formed on twenty-three patients totaling two hundred screws using 3mm cuts. Three independent reviewers assessed and categorized the screw position as within the pedicle or as a violation of the pedicle wall. 98% of the screws were accurate and we recommend the use of pedicle screws in thoracic fractures . A prospective cohort outcome evaluation of unstable thoracic spine fractures treated with posterior pedicle screw fixation. This study is to determine the accuracy of placement, safety of pedicle screws in open reduction of unstable thoracic spine fracture. Surgery was performed by one of five fellowship trained spine surgeons. CT scans were performed on twenty-three patients using 3mm cuts in both sagittal and transverse planes. Pedicle screw position was assessed by three independent reviewers. Screw position was categorized as within the wall of the pedicle or in violation of the wall. Further sub-classification of pedicle wall violation reviewed the direction and distance of perforation. Independent perioperative and postoperative surveillance for complications was done. Twenty-three unstable thoracic spine fractures treated with two hundred posterior pedicle screws were analyzed. The pedicle screws spanned from T1-T12 with the majority of screws in the mid-thoracic region. Of the two hundred thoracic pedicle screws placed, 70% were fully contained within the pedicle wall. The remaining screws were deemed “out” with cortical perforation (30%). Of these, 20% were lateral perforations, 5% were medial perforations and 5% were anterolateral perforations. No superior, inferior, or anteromedial perforations were found. There was no regional area variation in incidence of perforations. 10% of all perforations were directly related to pedicle diameter to screw diameter mismatch. There were no adverse neurological, vascular, or visceral injuries detected intraoperatively or postoperatively. Surgical management of unstable thoracic spine fractures with posterior pedicle screw fixation is safe. 98% of screws had satisfactory accuracy. Although very minor misplacement of pedicle screws occurred, there were no complications and we recommend the use of pedicle screws in thoracic fractures

Background: There is conflicting evidence of correlation between clinical outcome and severity of thoracolumbar spine fractures in neurologically intact patients. 1. Kalyan et al2 presented the results of their prospective study of thoracolumbar spinal fractures and concluded that the clinical outcome was consistently better predicted by the severity of disc injury than that of the bony fracture. They suggested that if severe disc injury was present, treatment of the disc injury may result in a better short term clinical outcome. The aim of this study was to detail the incidence and type of disc injury in patients with thoracolumbar spinal fractures with intact neurology. Methods: Retrospective analysis of a prospectively collected spinal injury database at a regional spinal injuries unit. Only patients with a thoracolumbar spinal fracture and intact neurology were included. Retrospective analysis of magnetic resonance imaging (MRI) findings. One hundred and thirty nine neurologically intact patients (89M:50F, mean age 36 years, range 15 – 77yrs) with a thoracolumbar (T11 –L5) spinal fracture were admitted to our spinal unit over the last 11 years (1994 – 2004). Patient data was collected prospectively onto a spinal injuries database. All of these patients had an MRI scan on admission. All types of thoracolumbar fracture were included in this study and the presence or absence of an associated disc injury was recorded retrospectively from the MRI study. The type of disc injury was also recorded. Results: The incidence of severe disc injury adjacent to a thoracolumbar spinal fracture in our cohort of patients was 43% (60 patients). Disc prolapse or extradural herniation was seen in 16 patients (11%). Intraosseous disc herniation into an adjacent vertebral body was seen in 20 patients (14%). Internal disc disruption was seen in 24 patients (17%). Disc injury was found at more than one level in 21 patients (15%). Conclusion: The incidence of severe disc injury in our study of neurologically intact patients with a thoracolumbar fracture was considerable (43%). Kalyan et al. 2. suggested that treatment directed at addressing the disc injury in these patients may promote earlier pain relief and also earlier return to pre-morbid activities. If this is the case, then the decision making regarding operative versus non-operative management, in a patient with a thoracolumbar fracture and intact neurology, should be based on the severity of the disc injury as well as the bony injury

INTRODUCTION. Tibiofemoral contact at the base of the articular surface spine in posterior-stabilized total knee arthroplasty (TKA) implants can lead to spine fracture [1]. Revision TKA implants also have an articular surface spine to provide sufficient constraint when soft tissues are compromised. While some revision TKA designs have metal reinforcement in the articular surface spine, others rely solely on a polyethylene spine. This study used finite element analysis (FEA) to study the effect of metal reinforcement on stresses in the spine when subjected to posteriorly directed loading. METHODS. Two clinically successful Zimmer Biomet revision TKA designs were selected; NexGen LCCK with metal reinforcement and all-poly Vanguard SSK. The largest sizes were selected. FEA models consisted of the polyethylene articular surface and a CoCr femoral component; LCCK also included a CoCr metal reinforcement in the spine. A 7° and 0° tibial slope, as well as 3° and 0.7° femoral hyperextension, were used for the LCCK and SSK, respectively. A posteriorly directed load was applied to the spine through the femoral component (Figure 1). The base of the articular surface was constrained. The articular surfaces for both designs are made from different polyethylene materials. However, for the purpose of this study, to isolate the effect of material differences on stresses, both were modeled using conventional GUR1050 nonlinear polyethylene material properties. Femoral component and metal reinforcement were modeled using linear elastic CoCr properties. Additionally, the LCCK was reanalyzed by replacing the metal reinforcement component with polyethylene material, in order to isolate the effect of metal reinforcement for an otherwise equivalent design. Frictional sliding contact was modeled between the spine and femoral/metal reinforcement components. Nonlinear static analyses were performed using Ansys version 17 software and peak von mises stresses in the spine were compared. RESULTS. Peak von mises stresses were predicted towards the base of the anterior aspect of the spine in both designs (Figure 2). In LCCK, the high stresses were also predicted on the medial and lateral edges of the anterior spine, matching the tibiofemoral contact (Figure 3). The LCCK with metal reinforcement design predicted 14% and 31% lower stress than LCCK and SSK all-poly designs. DISCUSSION. Clinical reports of spine fracture in TKA highlight the need for further understanding of the biomechanics of spine loading. Here, through comparison of two clinically successful devices, the effect of multiple design factors was quantified. Inclusion of metal reinforcement in the spine, as well as differences in the conforming geometry between the femoral component and the articular surface, resulted in a 31% decrease in polyethylene stress for the LCCK as compared to the all-poly SSK; of which only 16% was attributed to the metal reinforcement. Further improvements to articular surface design, as well as polyethylene material advances, have the potential to result in all-poly designs with strength characteristics equivalent to or exceeding those of designs with metal reinforcement

PURPOSE: To record our experience in surgical treatment of thoracic spine fractures with posterior stabilization, decompression and ligamentotaxis. MATERIALS AND METHODS: From January 2000 until July 2006, 67 patients (48 males and 19 females), aged 16 to 85 years old (average 41,2 y.o) were surgically treated in our department due to thoracic spine fractures. Preoperative X-Ray and CT scan were used in all cases while in most of the cases we performed MRI to further evaluate the damage. In all cases we performed decompression and posterior stabilization using four different hardware types and whenever possible ligamentotaxis. Continuous electrophysiological monitoring was alo ued in all operations. We recorded the pre- and postoperative neurological status, the vertebral height loss, the kyphotic angle and spinal canal occupation. Moreover we recorded the average hospitalization time, the transfusion needs as well as major and minor complications. At the follow-up we measured the loss of correction at 3, 6 and 12 months postoperatively. The follow up ranged from 4 to 48 months. RESULTS: Neurological damage was recorded in 43 % of the patients. The average preoperative kyphotic angle was 38.2° while the average spinal canal occupation was 29.8 %. The immediate postoperative correction was 16.7 °. During the follow-up we observed small, insignificant loss of correction. There were no major complications. CONCLUSION: In cases of thoracic spine fractures the surgical treatment with posterior stabilization and ligamentotaxis is offering significant stability and adequate long term results

The December 2015 Spine Roundup360 looks at: Ketamine in scoliosis surgery; Teriparatide in osteoporotic spinal fractures; Trabecular metal in the spine?; Revision surgery a SPORTing chance?; The course of degenerative lumbar spondylolisthesis; Hip or lumbar spine: a common conundrum

Introduction: Fractures of the sternum result from a direct blow or from an indirect mechanism with hyperflexion of the spine. The association between spinal injury and sternal fractures has been reported but is commonly overlooked and underestimated. Aims: Our aim was to study the clinical and radiological effects of an attendant sternal fracture on vertebral fractures. Berg first described the extra stability afforded to the thoracic spine by the sternal-rib complex and the adverse effects of damage to this “4th column” apropos of 2 cases. Materials and Methods: None patients were admitted to our unit from October 1996 to August 2001 suffering from vertebral fractures and concomitant sternal fractures. The clinical notes and plain film radiographs of these patients were studied. Results: The average age of the 9 patients (5 males and 4 females) was 33 years (range 21–73). Seven had been involved in road traffic accidents and 2 had fallen from a height. Four patients had injuries to their cervical spine, 4 to their thoracic spine and one had a lumbar spine fracture. In terms of neurological compromise, only one of the cervical groups had a neurological deficit compared to all 4 in the thoracic group (2 complete and 2 incomplete). The patient with the lumbar spine fracture suffered incomplete neurological compromise. All 6 of the patients with neurological compromise underwent surgical management. The other 3 patients were treated conservatively. Conclusion: It has been traditionally accepted that the sternum is injured only in association with upper thoracic spine. Our findings suggest that spinal injury at lower thoracic, upper lumbar or cervical level may also be associated with sternal injuries. However, the relative severity of the vertebral injury and neurological compromise in the thoracic spine subgroup offers clear support of Berg’s “4th column” theory of thoracic spine fractures when compared to fractures of the cervical or lumbar spine with sternal injuries

Introduction: Fractures are common with well described morbidities. Few small studies have reported in-hospital mortality of patients with fractures. This study aims to describe the distribution of fractures, the incidence of in-hospital fracture mortality and its risk factors. Materials and Methods: All patients with fractures related to the hip, pelvis, femur, tibia and spine over a 10 year period in a university hospital were identified using the ICD-9 codes upon discharge. Age, gender, race, length of hospital stay and in-hospital mortality data were collected from electronic records. Detailed analysis of the mortality data was performed with statistical analysis using SPSS software. Results: 8709 fractures were identified, of which 30.3% were hip fractures [1422(54%) NOF and 1216(46%) IT fractures], 24.4% were spinal fractures [144 (7%) cervical; 558(26%) thoracic; 1038(49%) lumbar; 47(2.2%) sacral and 335(16%) unclassified spine fractures], 24.1% were tibial fractures [proximal and shaft], 14.4% were femoral fractures [1037(83%) shaft and 215(17%) supracondylar] and 6.9% were pelvic fractures [265(42%) non rami and 351(58%) rami fractures]. 25% of the fractures occurred between age 21–40 years and 65% fractures occurred in patients older than age 41 years. 53% of the patients were male. 69%, 12% and 11% of the fractures were found in Chinese, Malay and Indian respectively. 90% were closed fractures. Overall in-hospital fracture mortality was 1.3% (117 fractures). Fracture specific in-hospital mortality was 2.8% (75 fractures) for hip fractures, 5% (13) for non rami pelvic fractures, 1% (20) for spinal fractures, 0.5% (6) for femoral fractures and near 0%(1) for tibial fractures. In-hospital mortality increased with age (0.4% mortality between 21–40 years, 0.6% between 41–60 years, 0.9% between 61–70 years, 1.7% between 71–80 and 4% between 81–90 years). Infection related causes of death were most common. The mean duration from hospital admission until death was 19 days (SD 20, range 1–34). More hip and spine fractures were seen in Chinese and more femoral and tibial fractures were seen in Malay and Indian patients, and this difference was statistically significant. Logistic regression analysis showed only increased patient age, male gender and fracture type as statistically significant risk factors for increased in-hospital mortality. Subgroup analysis showed a 30 and 20 times increased risk of in-hospital mortality for pelvic (p=0.001, 95% CI 4, 241) and hip (p=0.003, 95% CI 3, 159) fractures respectively. Conclusion: The overall in-hospital fracture mortality was 1.3% (2.8 % for hip and 5% for pelvic fractures). Increased patient age, male gender, hip and pelvic fractures were found to be risk factors for increased mortality

Improvised Explosive Device (IED) attacks on vehicles have been a significant feature of recent conflicts. The Dynamic Response Index (DRI), developed for predicting spinal injury in aircraft ejection, has been adopted for testing vehicles in underbelly blast. Recent papers suggest that DRI is not accurate in blast conditions. We suggest that the distribution of blast and ejection injuries is different. A literature review identified the distribution of spinal fractures in aircraft ejection incidents. A Joint Theatre Trauma Registry search identified victims of mounted IED blast with spinal fractures. The distribution of injuries in the two groups was compared using the Kruskall Wallis test. 329 fractures were identified in ejector seat incidents; 1% cervical, 84% thoracic and 16% lumbar. 245 fractures were identified in victims of mounted blast; 16% cervical, 34% thoracic and 50% lumbar. There was no significant similarity between the two (p=1). There was no statistically significant difference between the distribution of fractures in blast survivors versus fatalities. The difference between blast and ejection injury patterns suggests that injury prediction models for ejection should not be extrapolated to blast mechanisms and that new models need to be developed

Aim: To analyse the epidemiology of spinal injuries presented in our tertiary referral centre. Materials and Methods: 202 patients who sustained traumatic spinal column injury were admitted in our tertiary referral centre from 1999 to mid 2002. The case notes were looked at for epidemiological details. Results: Of 202 patients, 136 were male and the rest were females. Both in males and females, we found 2 peaks in the age incidence of spinal cord injuries. First peak was noted between the age group of 18–30 years and the second peak was noted above 60 years. We classified the spinal column injuries into upper cervical, lower cervical, thoracic, dorso-lumbar, lumber and sacral. Lower cervical and cervico-dorsal junction fractures constituted 48% of the spectrum of spinal column fractures. Significant soft tissue injury was noted in 12 patients. Multiple level spinal injuries were present in 16 patients (7.9%). Although road traffic accidents were responsible for 32% of the fractures, domestic falls also contributed to 30.6% of the fractures. 50%of these domestic falls occurred in patients above 60 years of age. We classified the falls into two categories; those from a height above 6 feet were classed as severe falls, which occurred in 65.6% of cases. Below this height the falls were classed as low falls. 71% of the patients who sustained low falls were above 60 years. Sporting accidents caused 19.8% of the spinal fractures. 27% of them are due to diving. Significantly self-harm was found to be a cause of spinal fracture in 3 patients. 67.8% (137) of the patients sustained neurological injury. Incomplete spinal cord injury was present in 86 patients and complete injury in 51 patients. Tetraplegia and tetraparesis was noted in 89 patients where as paraplegia and paraparesis was noted in 48 patients. 26 patients required ventilation at the time of admission. 63 patients sustained polytrauma of which chest injury was found in one third of the poly traumatised patients. Conclusion: From our observations, we find that there is an increasing trend of elderly population who are more susceptible for spinal trauma. Traditional high velocity trauma and high falls though still contribute a significant proportion of spinal injuries, equal proportions of spinal fractures are caused by low falls commonly seen in elderly patients. These epidemiological trends will have implications on treatment, rehabilitation and outcome of spinal injuries

Resident involvement in the operating room is a vital component of their medical education. Conflicting and limited research exists regarding the effects of surgical resident participation on spine surgery patient outcomes. Our objective was to determine the effect of resident involvement on surgery duration, length of hospital stay and 30-day post-operative complication rates. This study was a multicenter retrospective analysis of the prospectively collected American College of Surgeons National Surgical Quality Improvement Program (ACS NSQIP) database. All anterior cervical or posterior lumbar fusion surgery patients were identified. Patients who had missing trainee involvement information, surgery for cancer, preoperative infection or dirty wound classification, spine fractures, traumatic spinal cord injury, intradural surgery, thoracic surgery and emergency surgery were excluded. Propensity score for risk of any complication was calculated to account for baseline characteristic differences between the attending alone and trainee present group. Multivariate logistic regression was used to investigate the impact of resident involvement on surgery duration, length of hospital stay and 30 day post-operative complication rates. 1441 patients met the inclusion criteria: 1142 patients had surgeries with an attending physician alone and 299 patients had surgeries with trainee involvement. After adjusting using the calculated propensity score, the multivariate analysis demonstrated that there was no significant difference in any complication rates between surgeries involving trainees compared to surgeries with attending surgeons alone. Surgery times were found to be significantly longer for surgeries involving trainees. To further explore this relationship, separate analyses were performed for tertile of predicted surgery duration, cervical or lumbar surgery, instrumentation, inpatient or outpatient surgery. The effect of trainee involvement on increasing surgery time remained significant for medium predicted surgery duration, longer predicted surgery duration, cervical surgery, lumbar surgery, lumbar fusion surgery and inpatient surgery. There were no significant differences reported for any other factors. After adjusting for confounding, we demonstrated in a national database that resident involvement in surgeries did not increase complication rates, length of hospital stay or surgical duration of more routine surgical cases. We found that resident involvement in surgical cases that were generally more complexed resulted in increased surgery time. Further study is required to determine the relationship between surgery complexity and the effect of resident involvement on surgery duration

The risk of further fractures increases 2–10 times after the first fracture. Actual fracture risk for the given person (absolute fracture risk) can be calculated from data collected in 10-year prospective studies (NHANES or Kanis 2001). To calculate absolute fracture risk one has to multiply age-related risk factor ascertained in above studies by the coefficient estimated for particular factors influencing possible fracture (relative fracture risk). The most commonly used factors are: age (RR 2.0 for each 5 yrs over 65), low BMD (RR/SD 1.4–2.6), low-energy fracture after the age of 40 (RR 4.0), proximal femur fracture in mother (*RR 1.9), body mass lower than 58 kg (*RR 1.9), early menopause – before the age of 45, smoking (RR 1.2), susceptibility to falls (*RR 3.5), corticosteroids intake. Absolute fracture risk in 60-year-old woman whose foreseen 10-year probability of femoral neck fracture is 2.3% with normal BMD but burden by factors marked by asterisks would be: 2.3% x 1.9 x 1.9 x 3.5 = 29%. As 76% of fractures occur in women with normal BMD absolute fracture risk is the most objective information. In case of proximal femoral fracture 10-year probability of 10% or more fracture risk provides a cost effective threshold for women in Sweden. We can increase bone mineral density by pharmacological intervention. Every patient should be given calcium and vit. D supplementation and a specific medication, which should be adjusted to: age, sex and presence of hot flashes and fractures. HRT is preferred in women aged 50–60 yrs suffering from hot flashes. HRT decreases the risk of spine (50%) and proximal femur fracture (40%). However some risk of breast and uterine cancer has to be taken into consideration. Selective estrogen modulators (SERM; raloxifene) act as estrogen agonists on bone and cardiovascular system but as antagonists on breast tissue. Decrease of spinal fracture (45%) and breast cancer incidence (70%) is proven but no positive action on proximal femur is reported. In women who underwent osteoporotic fracture one can apply bisphosphonates, strontium ranelate or PTH. Alendronate reduces spine fractures (47%) and proximal femur fractures (51%). Similar effects are documented for risedronate (spine – 60% and proximal femur 40–56%). Strontium ranelate not only inhibits bone resorption but also stimulates bone formation. Decrease of spine and proximal femur fractures occurrence has been proven (41%). PTH injected sc. in daily doses is the most powerful compound which rebuilds bone trabeculae in severe cases and reduces incidence of peripheral fractures (53%). Calcitonin is effective in spine fractures but not in proximal femur. Fall prevention program should be implemented in all patients with osteoporosis independently from pharmacological intervention