Thoracolumbar and sacral spinal injuries in children and adolescents: a review of 89 cases

Evaluation and Management of Thoracolumbar Spine Trauma in Pediatric Patients: A Critical Analysis Review

» Pediatric thoracolumbar trauma, though rare, is an important cause of morbidity and mortality and necessitates early, accurate diagnosis and management.» Obtaining a detailed history and physical examination in the pediatric population can be difficult. Therefore, the threshold for advanced imaging, such as magnetic resonance imaging, is low and should be performed in patients with head injuries, altered mental status, inability to cooperate with examination, and fractures involving more than 1 column of the spine.» The classification of pediatric thoracolumbar trauma is based primarily on adult studies and there is little high-level evidence examining validity and accuracy in pediatric populations.» Injury pattern and neurologic status of the patient are the most important factors when determining whether to proceed with operative management.

Physiotherapy Rehabilitation for Compressive Myelopathy in a 12-Year-Old Girl: A Case Study

Myelopathy manifests in childhood and can be clinically categorized according to the site of injury (which may result in spinal syndrome) or the source (which may be nontraumatic or widely traumatic). Nontraumatic myelopathy can be caused by inflammatory, infectious, nutritional, metabolic, or ischemic factors. It may also be associated with systemic illnesses such as demyelinating disease, multiple sclerosis, or systemic lupus. Nonintentional harm is a significant factor to take into account in instances of traumatic myelopathy, which can frequently be linked to additional injuries. MRI and CT radiography help identify compressive myelopathy. We present the case of a 12-year-old girl who is right-hand dominant. She was in good health six months ago but recently began experiencing weakness in both of her lower limbs. An MRI of the brain revealed basilar invagination with stenosis of the foramen magnum, causing compressive myelopathy at the cranio-vertebral junction. The patient was operated on, followed by physiotherapy rehabilitation to improve functional independence and quality of life.

Paediatric spine injuries in the thoracic and lumbar spine-results of the German multicentre CHILDSPINE study

BACKGROUND

Paediatric thoracolumbar spine injuries are rare, and meaningful epidemiological data are lacking.

OBJECTIVES

The aim of this study was to provide epidemiological data for paediatric patients with thoracolumbar spinal trauma in Germany with a view to enhancing future decision-making in relation to the diagnostics and treatment of these patients.

MATERIALS AND METHODS

A retrospective multicentre study includes patients up to 16 years of age who were suffering from thoracolumbar spine injuries who had been treated in six German spine centres between 01/2010 and 12/2016. The clinical database was analysed for patient-specific data, trauma mechanisms, level of injury, and any accompanying injuries. Diagnostic imaging and subsequent treatment were investigated. Patients were divided into three age groups for further evaluation: age group I (0-6 years), age group II (7-9 years) and age group III (10-16 years).

RESULTS

A total of 153 children with 345 thoracolumbar spine injuries met the inclusion criteria. The mean age at the time of hospitalization due to the injury was 12.9 (± 3.1) years. Boys were likelier to be affected (1:1.3). In all age groups, falls and traffic accidents were the most common causes of thoracolumbar spine injuries. A total of 95 patients (62.1%) were treated conservatively, while 58 (37.9%) of the children underwent surgical treatment. Minimally invasive procedures were the most chosen procedures. Older children and adolescents were likelier to suffer from higher-grade injuries according to the AOSpine classification. The thoracolumbar junction (T11 to L2) was the most affected level along the thoracolumbar spine (n = 90). Neurological deficits were rarely seen in all age groups. Besides extremity injuries (n = 52, 30.2%), head injuries represented the most common accompanying injuries (n = 53, 30.8%). Regarding spinal injuries, most of the patients showed no evidence of complications during their hospital stay (96.7%).

CONCLUSIONS

The thoracolumbar junction was more frequently affected in older children and adolescents. The majority of thoracolumbar spinal column injuries were treated conservatively. Nevertheless, 37.9% of hospitalized children had to be treated surgically, and there was an acceptable complication rate for the surgeries that were performed.

Pediatric Bilateral Lumbosacral Dislocation Without Fracture: An Exemplary Case and Literature Review

Lumbosacral facet dislocations are rare lesions typically seen in high-energy trauma. This type of injury is a severe flexion-distraction injury and is extremely rare, with only six other documented reports. A recent case series proposed a classification for lumbosacral injuries which would classify the present case as a 1C, meaning a bilateral dislocation with anterior slippage of the L5 vertebra without fractures of the articulating processes (AP), pars interarticularis (PI), or vertebral bodies (VB). In this case report, we discuss the third case of a class 1C injury in a pediatric patient, review the associated literature and discuss the presentation, diagnosis, management, and prognosis of these rare dislocations.

Pediatric Spine Trauma

Pediatric spine has growth potential with incomplete ossification, and also unique biomechanics which have important implications for trauma patients. This article intends to review various aspects of pediatric spine trauma including epidemiology, anatomy and biomechanics, and clinically relevant details of each type of injury based on the location and mechanism of injury. With the appropriate but not superfluous treatment, pediatric spine trauma patients can have better chance of recovery. Therefore, as a spine surgeon, understanding the general concept for each injury subtype together with the debate and progress in the field is inevitable.

Acute Myelopathy in Childhood

Acute myelopathy presenting in childhood can be clinically classified based on the location of injury (with resulting spinal syndrome) or the cause (broadly traumatic or non-traumatic). Types of nontraumatic myelopathy include ischaemic, infectious, inflammatory, nutritional, and metabolic causes, some of which may be part of a systemic illness such as systemic lupus erythematosus or a demyelinating disease such as multiple sclerosis. Nonaccidental injury is an important consideration in cases of traumatic myelopathy, which may often be associated with other injuries. Assessment should include neuroimaging of the brain and spinal cord, with further investigations targeted based on the most likely differential diagnoses; for example, a child with suspected demyelinating disease may require specialist cerebrospinal fluid and serological testing. Management also will differ based on the cause of the myelopathy, with several of these treatments more efficacious with earlier initiation, necessitating prompt recognition, diagnosis, and treatment of children presenting with symptoms of a myelopathy. Important components of holistic care may include physiotherapy and occupational therapy, with multidisciplinary team involvement as required (for example psychological support or specialist bowel and bladder teams).

Paediatric spinal trauma presenting to a UK major trauma centre

PURPOSE

Paediatric spine trauma is uncommon and is managed differently from adults due to the anatomical differences of the paediatric spine. The paediatric spine is less ossified, with lax ligaments and a higher fulcrum in the c-spine which results in a different pattern of injuries. The aim of this study is to provide a contemporary audit of paediatric spinal trauma.

METHODS

A retrospective review was conducted using the Trauma and Audit Research Network database at a major trauma centre (2011-2018). All patients < 18 years old with a spine injury underwent case note and radiology review.

RESULTS

A total of 72 patients (37, 51.4% male with an average age of 13.3 (± 5.9) years old) were identified. The most common mechanism of injury was road traffic collisions (n = 39, 54.2%). The most common sporting cause was motocross accidents (n = 6, 8.3%), and a further 6 (8.3%) patients had a suspected inflicted injury. Eight patients (11.1%) sustained a spinal cord injury. Twenty-seven (37.5%) patients underwent surgical intervention to treat their spinal injury.

CONCLUSION

This series demonstrates the profile of injury mechanisms causing paediatric spinal injuries. Paediatric spine injuries continue to have the potential for lifelong disability and require careful, specialist management. This series also highlights certain causes such as motocross accidents and suspected inflicted injury which are more frequent than expected and raise potential public health concerns.

Advances in Minimally Invasive Techniques in Pediatric Orthopedics: Percutaneous Spine Fracture Fixation

Pediatric spine trauma presents unique management challenges. These injuries are often the result of high-energy mechanisms and are associated with other serious injuries that can complicate surgical and nonsurgical approaches. The pediatric population presents a host of challenges related to patient compliance, healing challenges, and patient tolerance of therapy. Percutaneous pedicle screw instrumentation, temporary fixation without fusion, continues to expand in its role of pediatric spine fracture treatment. Compared with open instrumentation and fusion, this technique addresses many of the previously mentioned challenges. Additional study is needed to evaluate the clinical utility of this approach in pediatric spinal fractures.

[Posttraumatic vertebral disc alterations after B and C type spinal injuries in childhood-Clinical and radiological 10-year results for two cases]

Pediatric traumatic vertebral injuries usually present as stable A (AOspine classification) fractures, whereas B and C injuries are relatively uncommon. In contrast to adults the appropriate treatment strategy in children remains an issue of debate.The data from two pediatric patients admitted with B and C type spinal injuries in 2007 and 2008 were retrospectively analyzed. The initial diagnostics were performed via computed tomography (CT) and an additional magnetic resonance imaging (MRI) was carried out in one case.The clinical and radiological follow-up controls were carried out after 77 and 66 months as well as 123 and 112 months, respectively. In both cases thoracolumbar MRI scans revealed degenerative alterations of the ventral half of the L1/L2 disc with a regular disc signal in the dorsal segment at the first follow-up and a progressive disc degeneration in one patient at the second follow-up.Surgical treatment of pediatric B and C type injuries via open reduction and temporary monosegmental posterior screw and rod instrumentation results in satisfactory clinical and radiological outcomes. In the absence of vertebral burst fractures, the function and stability of discoligamentous injuries in children can be restored without any additional osseous fusion.

[Pediatric spine trauma-Results of a German national multicenter study including 367 patients]

BACKGROUND

In general, pediatric spinal injuries are rare. No reliable data on the epidemiology of spinal injuries in pediatric patients in Germany are available. Especially in pediatric patients, for whom the medical history, clinical examination and the performance of imaging diagnostics are difficult to obtain, all available information on a spinal injury must be taken into account.

OBJECTIVE

The aim of this study was to provide epidemiological data for pediatric patients with spinal trauma in Germany in order to enhance future decision-making for the diagnostics and treatment of these patients.

MATERIAL AND METHODS

Within the framework of a national multicenter study, data were retrospectively obtained from 6 German spine centers for 7 years between January 2010 and December 2016. In addition to the demographic data, the clinical databases were screened for specific trauma mechanisms, level of injury as well as accompanying injuries. Furthermore, diagnostic imaging and the treatment selected were also analyzed.

RESULTS

A total of 367 children (female: male = 1:1.2) with a total of 610 spinal injuries were included in this study. The mean age was 12 years (±3.5 years). The most frequent trauma mechanisms were falls from <3 m and traffic accidents. The imaging diagnostics were only rarely carried out with the child under anesthesia. Younger children (0-9 years old) suffered more injuries to the cervical spine, whereas injuries to the thoracic and lumbar spine were more frequently found in older children (>10 years old). The children frequently showed accompanying injuries to the head and the extremities. Accompanying spinal injuries mostly occurred in adjacent regions and only rarely in other regions. Around 75% of the children were treated conservatively.

CONCLUSION

The results were different from the knowledge obtained from adult patients with spinal trauma and describe the special circumstances for pediatric patients with spinal trauma. Despite certain limitations these facts may help to enhance future decision-making for the diagnostics and treatment of these patients.

Management of Pediatric Posttraumatic Thoracolumbar Vertebral Body Burst Fractures by Use of Single-Stage Posterior Transpedicular Approach

PURPOSE

The posterior transpedicular approach (PTA) is a posterior approach that has the advantage of achieving circumferential arthrodesis by a single posterior-only approach. The purpose of this study was to analyze our experience with PTA in the management of pediatric traumatic thoracolumbar burst fractures (TTLBFs).

METHODS

Consecutive pediatric patients (age ≤18 years) with TTLBFs treated with PTA for 6 years were included in this retrospective study. Correction of kyphotic deformity and change in neurologic status were analyzed to assess outcome. The Cobb angle and American Spinal Injury Association (ASIA) grade were used for this purpose.

RESULTS

There were 6 male and 8 female patients. Five patients had complete injury (ASIA-A), and 9 had incomplete injury. The mean Thoracolumbar Injury Classification and Severity score was 6.71. The mean preoperative Cobb angle was 14.71° and improved to -3.35° postoperatively (mean kyphosis correction -18.05°). Two of the patients experienced iatrogenic nerve root injury. There was 1 postoperative mortality due to complications unrelated to the surgery. The mean Cobb angle was -0.07° at the 32.2-month follow-up visit. Six patients experienced cage subsidence, but none required revision surgery. Postoperatively, 11 (78.5%) patients showed neurologic improvement, and none experienced deterioration. The average ASIA score improved from 2.5 to 3.78. A fusion rate of 100% (n = 12) was observed at the last follow-up visit.

CONCLUSIONS

The present study demonstrates that PTA is a feasible approach in selected pediatric patients with unstable traumatic thoracolumbar burst fractures, with results comparable with those in the adult population. This study demonstrates in detail the procedure, along with the neurologic and radiologic outcomes of this approach in the pediatric population.

Epidemiology of vertebral fractures in pediatric and adolescent patients

Spinal injuries in children and adolescents are rare injuries, but consequences for the growing skeleton can be devastating. Knowledge of accident causes, clinical symptoms and diagnostics should be part of every trauma department treating these patients. We retrospectively analyzed patients with radiographically proven vertebral fractures of the spine. After clinical examination and tentative diagnosis the fractures and injuries were proven with conventional X-ray, computed tomography (CT) scans or magnetic resonance imaging (MRI). The study included 890 fractures in 546 patients with an average age of 12.8±6.2 (6.6-19.4) years. Females had an average age of 13.7±6.3 (7.4-20.0) years, whereas males were on average 12.0 (6.0-18.0) years old. Fall from height (58%) was the main cause of accident and the most common region of fracture was the thoracolumbar spine with a shift towards the thoracic spine the more fractures occurred. Merely 3.7% of all patients required operative treatment. If a vertebral fracture is found in children and adolescents, it is highly recommended to exclude synchronous additional spine fractures in other levels; prevention should concentrate on fall and traffic accidents.

Traumatic Lumbosacral Spondyloptosis in a Pediatric Patient: Case Report and Literature Review

A 4-year-old girl was admitted to the emergency department after having been buried beneath a wall. A computed tomography scan revealed anterior grade V L5-S1 spondylolisthesis, and magnetic resonance imaging showed a traumatic rupture of the fibrous annulus of the L5-S1 intervertebral disc and lesion of the anterior longitudinal and yellow ligaments. The patient underwent anterior and posterior fixation. Four months later she was able to walk independently, despite a persistent left foot drop. Additionally, we conducted a literature review on lumbosacral spondyloptosis in the pediatric population published between 1990 and 2017. We found 16 cases, 86.6% of which were male, with a mean patient age of 16 ± 5.05 years. Most patients underwent spine instrumentation. Based on the data reviewed, the neurological status at admission might be a valid predictor of outcome. Pedicle screws are a safe and reliable procedure for stable fixation of the spine in these cases. The removal of screws is discouraged.

Imaging in paediatric spinal injury

Background

Paediatric spinal injury is rare and exhibits many unique features. Attending clinicians and radiologists often lack knowledge, expertise and experience in dealing with a potential injury to the paediatric spine. Within the paediatric age range itself there are different age-dependent mechanisms that can injure the paediatric spine. Moreover, the anatomical features and degree of osseous maturity of the developing paediatric spine determine the biomechanical characteristics which promote unique patterns of spinal injury in each paediatric age group.

Methods

An expert illustrated narrative review of the literature.

Results

Multiple factors make the imaging interpretation of the injured paediatric spine challenging. Each imaging modality has strengths and weaknesses in depicting spinal anatomy which vary with the type of spinal injury and age of the paediatric patient.

Conclusions

Attending doctors need to be familiar with the imaging appearances of the normal paediatric spine, its normal variants as well as the imaging features characteristics of paediatric spinal injury seen on radiographs, computed tomography and magnetic resonance imaging.

[Injuries of the thoracolumbar spine in children]

BACKGROUND

Injuries of the thoracolumbar spine in children are rare and challenging for the treating physician. Besides knowledge of fracture treatment, the anatomical particularities of the spine in children are of great importance.

METHODS

The article gives an overview of the diagnosis and therapy with the most common classification of injuries of the thoracolumbar spine.

RESULTS

Taking into account the children's age and the fracture morphology most cases can be treated conservatively, especially because the young spine has great potential for remodelling. The older the child becomes, the more smoothly the transition to adult treatment occurs; thus, unstable fractures should be treated with surgery.

CONCLUSION

The difficult indication and the specific characteristics of surgery necessitate treatment in a spine centre with experience with surgery on children.

Management and Outcome Analysis of Pediatric Unstable Thoracolumbar Spine Injury: Large Surgical Series with Literature Review

Pediatric thoracolumbar spine fractures are considered rare injuries with paucity of publication across the globe. Further, spine injuries in children are comparatively rarer, and pediatric spine differs from adults, both biomechanically and anatomically; so, adult spine management strategy cannot be applied to pediatric cases, and exact guidelines for management of pediatric spinal injury is lacking. The current study is undertaken to study epidemiology, surgical management, and outcome of pediatric dorsolumbar unstable spine injury. A total of 25 pediatric patients were analyzed retrospectively with thoracic, thoracolumbar junction and lumbar spine injuries, who were managed surgically at our institute since June 2008, formed the cohort of the present study. There were 19 males and six females with a mean age 14.8 years. Clinically, complete spinal cord injuries were observed in 11 (44%), and rest 14 had incomplete injury. Most common mode of injury was fall (76%) in contrast to the western countries and the thoracolumbar junction was the most common affected site. Among all patients who underwent surgical intervention, 68% cases had posterior decompression and pedicle screw fixation. Mean duration of hospital stay was 18 ± 31 days. The mean follow-up period was 13.83 ± 5.97 months. In incomplete neurological injury group, a total of 13 patients showed neurological improvement, out of which four cases improved by two Frankel grades, eight patients improved by at least 1 grade, and rest one by Grade 3 (Frankel Grade B to E). Neurological outcome was statistically significant in relation to the level of fracture (P - 0.03) and preoperative Frankel grade, however, other factors, for example, gender, mode of injury, type of fracture, various surgical approaches with instrumentation, and correction of kyphotic deformity were found to be statistically nonsignificant. Surgical management of unstable pediatric dorsolumbar spine is a safe and an effective procedure which can provide good neurological outcome. The current study is one of largest series of cases managed surgically in this part of the world.

Traumatic spinal injuries in children at a single level 1 pediatric trauma centre: report of a 23-year experience

BACKGROUND

With a reported incidence of up to 10% compared to all spinal trauma, spinal injuries in children are less common than in adults. Children can have spine fractures with or without myelopathy, or spinal cord injuries without radiological abnormalities (SCIWORA).

METHODS

We retrospectively reviewed the cases of children with spinal injuries treated at a level 1 pediatric trauma centre between 1990 and 2013.

RESULTS

A total of 275 children were treated during the study period. The mean age at admission was 12 ± 4.5 years, and the male:female ratio was 1.4:1. Spinal injuries were more common in children of ages 12-16 years, with most injuries among ages 15-16 years. The top 3 mechanisms of spinal injury were motor vehicle-related trauma (53%), sports (28%) and falls (13%). Myelopathy occurred in 12% and SCIWORA occurred in 6%. The most common spine levels injured were L2-sacrum, followed by O-C2. Associated injuries, including head injuries (29%), and fractures/dislocations (27%) occurred in 55% of children. Overall mortality was 3%. Surgical intervention was required in 14%.

CONCLUSION

The creation of a pediatric spinal injury database using this 23-year retrospective review helped identify important clinical concepts; we found that active adolescent boys had the highest risk of spine injury, that noncontiguous spine injuries occured at a rate higher than reported previously and that nonaccidental spine injuries in children are underreported. Our findings also emphasize the importance of maintaining a higher index of suspicion with trauma patients with multiple injuries and of conducting detailed clinical and radiographic examinations of the entire spine in children with a known spinal injury.

The influence of brace immobilization on the remodeling potential of thoracolumbar impaction fractures in children and adolescents

PURPOSE

Different treatment methods including immediate mobilization with or without brace, bed rest or immobilization using thoracolumbosacral orthosis have been applied for stable compression fractures of the pediatric spine. The aim of this study was to evaluate the influence of bracing on the remodeling capacity of pediatric thoracolumbar type A 1.2 impaction fractures. Additionally, the prevalence of pain and functional disabilities were assessed.

METHODS

All children treated conservatively between 2000 and 2011 with impaction fractures of the thoracolumbar spine (A 1.2) were included and re-invited for a clinical [including VAS 0-100, Oswestry disability index (ODI)] and radiological follow-up examination. Changes of the sagittal index (SI) at the time of the accident, the latest control visit and at the follow-up examination were analyzed.

RESULTS

Seventy-two patients with a mean age of 12 years (1.8-18 years) and a total number of 133 fractured vertebrae were included. The mean SI at the time of injury was 0.76 (range 0.45-0.94, SD 0.08); 34 patients with 67 fractured vertebrae were included in the follow-up examination after a mean of 7.9 years (2.4-13.1 years). The mean SI of the 67 affected vertebrae at follow-up significantly increased to 0.92 (range 0.74-1, SD 0.06). The initial treatment regimen (brace vs no brace) did not influence the remodeling capacity. More than half of the patients (n = 18, 53 %) complained about occasional back-related pain which was not associated with the remodeling process. The mean ODI was 5.8 (range 0-26, SD 6.6) and the mean VAS of the re-evaluated patients was 87 (range 53-100, SD 14).

CONCLUSIONS

A significant remodeling capacity of thoracolumbar vertebral impaction fractures sustained in childhood is demonstrated. Bracing does not seem to influence the long-term outcome of these injuries. More studies have to be performed to define the role of bracing in these fractures.

Management of traumatic spinal injuries in children and young adults

PURPOSE

Spinal injuries are rarely seen in pediatric patients and therapeutic options are still poorly defined. The present study is aimed to present our experience with a rather large series of children and young adults suffering from traumatic spinal injury.

PATIENTS AND METHODS

Between 1990 and 2010, 75 consecutive pediatric patients with spinal injuries were treated in our institution. Mean age was 15 years, ranging from 3 months to 21 years. Radiological findings, treatment strategies, and clinical outcome were evaluated retrospectively and compared with literature. Forty (53.3%) patients were treated conservatively and 35 patients (47%) surgically using anterior or posterior approaches. Subgroup analysis was performed depending on age groups, severity of neurological symptoms, and localization.

RESULTS

Main trauma mechanisms were fall in 24 patients (38%) and motor vehicle accidents in 21 patients (28%). Complete neurological deficits were present in 17 individuals (23%) and incomplete in 36 patients (48%). Fractures were most frequently localized at the cervical region (56%) with predilection of the C 5/6 segment. Odontoid fractures were seen in 10 (13%) patients. Fractures of the lumbar and thoracic region were rare. Level of injury or clinical course did not differ between the subgroups (≤15 years versus >15 years).

CONCLUSION

Nearly three fourths of all radiologically detected spinal injuries are located at the cervical spine. Complete neurological deficits after trauma was associated with a poor outcome, in particular for patients with injuries of the upper cervical spine. The use of autologous bone graft was associated with favorable long-term results and should be considered as the material of first choice for vertebral body and disc replacement.

[Fractures of the thoracic and lumbar spine in children and adolescents]

BACKGROUND

Only 1.5-2% of all fractures in children and adolescents are fractures of the thoracic and lumbar spine. Treatment is most often conservative. This study compares the own experience with the recent literature.

MATERIAL AND METHODS

Over a 48 month period all patients with fractures of the thoracic and lumbar spine, younger than 16 years were included prospectively. Of the patients 67 underwent follow-up investigations after 3-36 months.

RESULTS

The average age of the patients was 11.9 years. Sports (53%) and traffic (28%) accidents were most frequent. Fractures most often appeared in the mid-thoracic (47%) and thoracolumbar spine (41%). Operative treatment was performed in 9 cases (10.4%). Secondary loss of alignment was not observed neither after conservative nor operative treatment. Neurological deficits (n=2) did not completely improve.

CONCLUSIONS

Most fractures of the thoracic and lumbar spine heal fast and without any sequelae. Unstable fractures of type B and C (exclusively occurring as a result of traffic accidents) need operative stabilization as in adults.

Spinal injuries in children

About 5% of spinal injuries occur in children – however the consequences to the society are devastating, all the more so because the cervical spine is more commonly affected. Anatomical differences with adults along with the inherent elasticity of the pediatric spine, makes these injuries a biomechanically separate entity. Hence clinical manifestations are unique, one of which is the Spinal Cord Injury Without Radiological Abnormality. With the advent of high quality MRI and CT scan along with digital X-ray, it is now possible to exactly delineate the anatomical location, geometrical configuration, and the pathological extent of the injury. This has improved the management strategies of these unfortunate children and the role of surgical stabilization in unstable injuries can be more sharply defined. However these patients should be followed up diligently because of the recognized long term complications of spinal deformity and syringomyelia.

Pediatric multilevel spine injuries: an institutional experience

OBJECT

Spinal column trauma is relatively uncommon in the pediatric population, representing 1-2% of all pediatric fractures. However, pediatric spinal injury at more than one level is not uncommon. The purpose of this study was to evaluate the mechanisms and patterns of the injury and factors affecting management and outcomes of pediatric multilevel spine injuries.

PATIENTS AND METHODS

Patients with pediatric spine injury (183) were retrospectively reviewed. Patients (28 boys, 20 girls; mean age 12.8 years; range 3 to 16 years) identified with multilevel spinal injuries were 48 (26.2%): 7 patients (14.5%) were between 3 and 9 years of age, and 41 patients (85.5%) were between 9 and 16 years of age. Of the 48 patients, 30 (62.5%) were at contiguous levels and 18 (37.5%) were at noncontiguous. A total of 126 injured vertebrae were diagnosed. The cervical region alone was most frequently (31.2%) involved, and the thoracic region alone was the least frequently involved (12.5%). Overall, 73% of patients were neurologically intact, 4.1% had incomplete spinal cord injury (SCI), and 8.3% had complete SCI. Treatment was conservative in 36 (75%) patients. Surgical treatments were done in 12 patients (25%). Postoperatively, one patient (16.6%) with initial neurologic deficit improved. The overall mortality rate was 6.2%.

CONCLUSIONS

Multilevel spine injuries are most common in children between 9 and 16 years of age and are mainly located in the cervical region. The rostral injury was most often responsible for the neurologic deficit. The treatment of multilevel spine injuries should follow the same principles as single level injury, stability and neurologic symptoms indicate the appropriate treatment.

[Imaging of acute spinal injury]

The mechanism location and type of injury varies according to patient age and severity of trauma. The imaging work-up with radiographs, CT and MRI must be adapted to each individual case. In the setting of minor trauma, standard radiographs are obtained when clinically indicated. In all other cases of high energy trauma, spinal trauma with neurological deficit or incomplete or difficult standard radiographic evaluation, CT will be indicated for osseous injuries while MRI will provide optimal evaluation of soft tissues. Dislocations require immediate treatment. The imaging work-up should by no means delay management. Significant sprains are rare. Several diagnostic pitfalls occur at both extremities of life.