A prospective multicenter study of cervical spine injury in children

Highly unstable cervical spine injury in an infant: a case report

Although the rate of surgical intervention for pediatric cervical spine injuries has risen, none of these instrumentation techniques has been reported in children less than 1 year of age. Additional consideration with placement of wires or cables is not safe because of the presence of cartilaginous bone and poor bone strength. The authors report a technique of internal fixation without fusion using nonabsorbable synthetic suture in an infant with unstable cervical injury.

METHODS

A 5-month-old girl was transported to emergency department and computed tomography showed severe distraction injury at the C6-7 level with total disruption of the facet joints bilaterally. To improve her general condition, she was placed in a customized occipito-cervical brace until surgical stabilization could be performed. After 1 month, surgical fixation was performed. After removing all soft tissues at the appropriate level, a hole was made in the center of the superior articular process of C6. A nonabsorbable suture (2-0 Ethibond; Ethicon, Somerville, NJ, USA) was passed from the superior articular process to the facet joint. The suture was passed into the spinous process of the lower level, and it was progressively tightened and radiographs were taken until anatomic reduction was achieved.

RESULTS

After surgery, solid fusion was achieved. She was able to sit up in a stroller after 6 months.

CONCLUSION

As surgical treatment of pediatric cervical spine injuries is unsuitable for infants, the Ethibond sutures are strong enough to hold and stabilize the spine. This suturing technique can be used as an alternative treatment for cervical injury in infants.

Pediatric spinal trauma

Pediatric spinal trauma is unique. The developing pediatric spinal column and spinal cord deal with direct impact and indirect acceleration/deceleration or shear forces very different compared to adult patients. In addition children are exposed to different kind of traumas. Moreover, each age group has its unique patterns of injury. Familiarity with the normal developing spinal anatomy and kind of traumas is essential to correctly diagnose injury. Various imaging modalities can be used. Ultrasound is limited to the neonatal time period; plain radiography and computer tomography are typically used in the acute work-up and give highly detailed information about the osseous lesions. Magnetic resonance imaging is more sensitive for disco-ligamentous and spinal cord injuries. Depending on the clinical presentation and timing of trauma the various imaging modalities will be employed. In the current review article, a summary of the epidemiology and distribution of posttraumatic lesions is discussed in the context of the normal anatomical variations due to progressing development of the child.

Imaging, clearance, and controversies in pediatric cervical spine trauma

Diagnosing cervical spine injury in children can be difficult because the clinical examination can be unreliable, and evidence-based consensus guidelines for cervical spine injury evaluation in children have not been established. However, the consequences of cervical spine injuries are significant. Therefore, practitioners should understand common patterns of cervical spine injury in children, the evidence and indications for cervical spine imaging, and which imaging modalities to use. Herein, we review the epidemiology and unique anatomical features of pediatric cervical spine injury. In addition, we will summarize current practice for clearance and imaging of the pediatric cervical spine in trauma.

Estimation of normal computed tomography measurements for the upper cervical spine in the pediatric age group

OBJECT

Upper cervical spine injuries in the pediatric age group have been recognized as extremely unstable from ligamentous disruption and as potentially lethal. Few measurement norms have been published for the pediatric upper cervical spine to help diagnose this pathological state. Instead, adult measurement techniques and results are usually applied inappropriately to children. The authors propose using high-resolution reconstructed CT scans to define a range of normal for a collection of selected upper cervical spine measurements in the pediatric age group.

METHODS

Sagittal and coronal reformatted images were obtained from thin axial CT scans obtained in 42 children (< 18 years) in a 2-month period. There were 25 boys and 17 girls. The mean age was 100.9 months (range 1-214 months). Six CT scans were obtained for nontrauma indications, and 36 were obtained as part of a trauma protocol and later cleared for cervical spine injury. Six straightforward and direct linear distances-basion-dental interval (BDI); atlantodental interval (ADI); posterior atlantodental interval (PADI); right and left lateral mass interval (LMI); right and left craniocervical interval (CCI); and prevertebral soft-tissue thickness at C-2-that minimized logistical and technical distortions were measured and recorded. Statistical analysis including interobserver agreement, age stratification, and sex differences was performed for each of the 6 measurements.

RESULTS

The mean ADI was 2.25 ± 0.24 mm (± SD), the mean PADI was 18.3 ± 0.07 mm, the mean BDI was 7.28 ± 0.10 mm, and the mean prevertebral soft tissue width at C-2 was 4.45 ± 0.43 mm. The overall mean CCI was 2.38 ± 0.44 mm, and the overall mean LMI was 2.91 ± 0.49 mm. Linear regression analysis demonstrated statistically significant age effects for PADI (increased 0.02 mm/month), BDI (decreased 0.02 mm/month), and CCI (decreased 0.01 mm/month). Similarly significant effects were found for sex; females demonstrated on average a smaller CCI by 0.26 mm and a smaller PADI by 2.12 mm. Moderate to high interrater reliability was demonstrated across all parameters.

CONCLUSIONS

Age-dependent and age-independent normal CT measurements of the upper cervical spine will help to differentiate physiological and pathological states in children. The BDI appears to change significantly with age but not sex; on the other hand, the LMI and ADI appear to be age-independent measures. This preliminary study suggests acceptable levels of interrater reliability, and further expanded study will aim to validate these measurements to produce a profile of normal upper cervical spine measurements in children.

Pediatric critical care

Care of the ill and injured child requires knowledge of unique pediatric anatomic and physiologic differences. Subtleties in presentation and pathophysiologic differences impact management. This article discusses pediatric resuscitation, the presentation and management of common childhood illness, pediatric trauma, and common procedures required in the critically ill child.

Spinal clearance in unconscious children following traumatic brain injury

Spinal clearance in unconscious children following traumatic brain injury is an area of controversy. The risk of significant injury in this high-risk group needs to be balanced against that of prolonged spinal immobilization and all its implications. No national or international guideline exists to aid clinicians faced with such a scenario. This article reviews traumatic spinal injury in children looking at prevalence, risk factors, anatomical considerations, and radiological investigation. Spinal immobilization is discussed along with the use of appropriate and targeted radiological investigations to aid clearance.

Cervical spine injury patterns in children

BACKGROUND AND OBJECTIVE

Pediatric cervical spine injuries (CSIs) are rare and differ from adult CSIs. Our objective was to describe CSIs in a large, representative cohort of children.

METHODS

We conducted a 5-year retrospective review of children <16 years old with CSIs at 17 Pediatric Emergency Care Applied Research Network hospitals. Investigators reviewed imaging reports and consultations to assign CSI type. We described cohort characteristics using means and frequencies and used Fisher's exact test to compare differences between 3 age groups: <2 years, 2 to 7 years, and 8 to 15 years. We used logistic regression to explore the relationship between injury level and age and mechanism of injury and between neurologic outcome and cord involvement, injury level, age, and comorbid injuries.

RESULTS

A total of 540 children with CSIs were included in the study. CSI level was associated with both age and mechanism of injury. For children <2 and 2 to 7 years old, motor vehicle crash (MVC) was the most common injury mechanism (56%, 37%). Children in these age groups more commonly injured the axial (occiput-C2) region (74%, 78%). In children 8 to 15 years old, sports accounted for as many injuries as MVCs (23%, 23%), and 53% of injuries were subaxial (C3-7). CSIs often necessitated surgical intervention (axial, 39%; subaxial, 30%) and often resulted in neurologic deficits (21%) and death (7%). Neurologic outcome was associated with cord involvement, injury level, age, and comorbid injuries.

CONCLUSIONS

We demonstrated a high degree of variability of CSI patterns, treatments and outcomes in children. The rarity, variation, and morbidity of pediatric CSIs make prompt recognition and treatment critical.

Prehospital use of cervical collars in trauma patients: a critical review

The cervical collar has been routinely used for trauma patients for more than 30 years and is a hallmark of state-of-the-art prehospital trauma care. However, the existing evidence for this practice is limited: Randomized, controlled trials are largely missing, and there are uncertain effects on mortality, neurological injury, and spinal stability. Even more concerning, there is a growing body of evidence and opinion against the use of collars. It has been argued that collars cause more harm than good, and that we should simply stop using them. In this critical review, we discuss the pros and cons of collar use in trauma patients and reflect on how we can move our clinical practice forward. Conclusively, we propose a safe, effective strategy for prehospital spinal immobilization that does not include routine use of collars.

EMS spinal precautions and the use of the long backboard - resource document to the position statement of the National Association of EMS Physicians and the American College of Surgeons Committee on Trauma

Field spinal immobilization using a backboard and cervical collar has been standard practice for patients with suspected spine injury since the 1960s. The backboard has been a component of field spinal immobilization despite lack of efficacy evidence. While the backboard is a useful spinal protection tool during extrication, use of backboards is not without risk, as they have been shown to cause respiratory compromise, pain, and pressure sores. Backboards also alter a patient's physical exam, resulting in unnecessary radiographs. Because backboards present known risks, and their value in protecting the spinal cord of an injured patient remains unsubstantiated, they should only be used judiciously. The following provides a discussion of the elements of the National Association of EMS Physicians (NAEMSP) and American College of Surgeons Committee on Trauma (ACS-COT) position statement on EMS spinal precautions and the use of the long backboard. This discussion includes items where there is supporting literature and items where additional science is needed.

Cervical spine computed tomography utilization in pediatric trauma patients

BACKGROUND

Guidelines for evaluating the cervical spine in pediatric trauma patients recommend cervical spine CT (CSCT) when plain radiographs suggest an injury. Our objective was to compare usage of CSCT between a pediatric trauma center (PTC) and referral general emergency departments (GEDs).

METHODS

Patient data from a pediatric trauma registry from 2002 to 2011 were analyzed. Rates of CSI and CSCT of patients presenting to the PTC and GED were compared. Factors associated with use of CSCT were assessed using multivariate logistic regression.

RESULTS

5148 patients were evaluated, 2142 (41.6%) at the PTC and 3006 (58.4%) at the GED. Groups were similar with regard to age, gender, GCS, and triage category. GED patients had a higher median ISS (14 vs. 9, p<0.05) and more frequent ICU admissions (44.3% vs. 26.1% p<0.05). CSI rate was 2.1% (107/5148) and remained stable. CSCT use increased from 3.5% to 16.1% over time at the PTC (mean 9.6% 95% CI=8.3, 10.9) and increased from 6.8% to 42.0% (mean 26.9%, CI=25.4, 28.4) at the GED. Initial care at a GED remained strongly associated with CSCT.

CONCLUSIONS

Despite a stable rate of CSI, rate of CSCT increased significantly over time, especially among patients initially evaluated at a GED.

Radiation from CT scans in paediatric trauma patients: Indications, effective dose, and impact on surgical decisions

OBJECTIVES

The purpose of this study was to determine the effective dose of radiation due to computed tomography (CT) scans in paediatric trauma patients at a level 1 Canadian paediatric trauma centre. We also explored the indications and actions taken as a result of these scans.

PATIENTS AND METHODS

We performed a retrospective review of paediatric trauma patients presenting to our centre from January 1, 2007 to December 31, 2008. All CT scans performed during the initial trauma resuscitation, hospital stay, and 6 months afterwards were included. Effective dose was calculated using the reported dose length product for each scan and conversion factors specific for body region and age of the patient.

RESULTS

157 paediatric trauma patients were identified during the 2-year study period. Mean Injury Severity Score was 22.5 (range 12-75). 133 patients received at least one CT scan. The mean number of scans per patient was 2.6 (range 0-16). Most scans resulted in no further action (56%) or additional imaging (32%). A decision to perform a procedure (2%), surgery (8%), or withdrawal of life support (2%) was less common. The average dose per patient was 13.5mSv, which is 4.5 times the background radiation compared to the general population. CT head was the most commonly performed type of scan and was most likely to be repeated. CT body, defined as a scan of the chest, abdomen, and/or pelvis, was associated with the highest effective dose.

CONCLUSIONS

CT is a significant source of radiation in paediatric trauma patients. Clinicians should carefully consider the indications for each scan, especially when performing non-resuscitation scans. There is a need for evidence-based treatment algorithms to assist clinicians in selecting appropriate imaging for patients with severe multisystem trauma.

Pediatric craniovertebral junction trauma

The craniovertebral junction consists of the occiput, atlas, and axis, along with their strong ligamentous attachments. Because of its unique anatomical considerations, trauma to the craniovertebral junction requires specialized care. Children with potential injuries to the craniovertebral junction and cervical spinal cord demand specific considerations compared to adult patients. Prehospital immobilization techniques, diagnostic studies, and spinal injury patterns among young children can be different from those in adults. This review highlights the unique aspects in diagnosis and management of children with real or potential craniovertebral junction injuries.

Causes and patterns of spine trauma in children and adolescents in Saudi Arabia: implications for injury prevention

BACKGROUND AND OBJECTIVES

Knowledge regarding traumatic spine injuries (TSIs) is essential for effective prevention strategies, particularly in the developing world, where majority of the population is younger and organized prevention programs are scarce. Therefore, our objective was to describe TSI mechanisms, demographics, patterns, and outcomes in children and adolescents.

DESIGN AND SETTINGS

Retrospective chart review in a major trauma center from May 2001 to May 2009 in Riyadh, Saudi Arabia.

PATIENTS AND METHODS

Detailed chart reviews were done for all consecutive TSI patients ≤18 years old.Cases were identified through the trauma database registry that included admitted patients.

RESULTS

Of the 3796 cases identified, 120 cases (3.2%) sustained 141 TSIs (mean age: 13.5 years; males:83.8%). TSI was most common among children from 16 to 18 years old. Overall, motor vehicle collision (MVC)was the most common injury mechanism (60.8%). However, younger patients (<12 years) sustained more pedestrian injuries (40.6%). Among MVC cases with known seat belt statuses (43.8%), 90.6% were not wearing seat belts. The cervical spine level was the most commonly affected (55.8%) region, especially in children <12 years old (88%). More than 1 affected spinal level was found in 23.3% cases. Spinal cord injuries were found in 19.2% cases. Overall, mortality was 8.3%, and half of these mortalities were secondary to pedestrian injuries. A total of 22.7% of cases were discharged with neurological deficits.

CONCLUSION

The high frequency and severity of MVC and pedestrian injuries observed in the present study raise significant concerns regarding the safety of children on the roads. Spine involvement was age specific;younger patients tended to have more cervical injuries, and older patients exhibited more thoracic spine involvement.

Cervical spine injury

Once a child is determined to be at risk of having a cervical spine injury, clinicians must take appropriate precautions to avoid potential worsening of neurologic deficits. Occasionally these decisions are made in the absence of adequate cervical spine imaging when dealing with a child's unstable airway or other life-threatening injuries. Furthermore, clinicians have to make decisions regarding appropriate diagnostic testing to evaluate for potential injury. Decisions regarding testing should take into consideration the clinical presentation of the patient, aiming to order appropriate testing for those at risk and avoid unnecessary testing for those without signs of cervical spine injury.

Acute myelopathy: tumoral or traumatic spinal cord compression

Acute myelopathy in the pediatric population is rare and the clinical presentation is frequently nonspecific, particularly in the younger child; as a result there is a very real risk of missed or delayed diagnosis. If, on the basis of clinical history and detailed examination, there is a possibility of acute spinal cord compression then specialist opinion should be sought to ensure that urgent and appropriate investigations are undertaken in an effort to establish a diagnosis and embark upon treatment. Clearly the management algorithm will be different for acute myelopathy of tumoral origin compared with trauma and so an understanding of the principles of each will enable the nonspecialist to instigate a coordinated management plan. Good functional outcome depends on early treatment to relieve any compressive pathology.

Variability of prehospital spinal immobilization in children at risk for cervical spine injury

OBJECTIVE

This study aimed to compare prehospital spinal immobilization techniques applied to age-based cohorts of children with and without cervical spine injury (CSI) after blunt trauma.

METHODS

We compared prehospital spinal immobilization in 3 age-based cohorts of children with blunt trauma-related CSI transported to 1 of 17 participating hospitals. We also compared children younger than 2 years with CSI with those at risk for but without CSI after blunt trauma. We identified patients through query of billing and radiology databases. We compared immobilization methods using Fisher's exact test for homogeneity.

RESULTS

We identified 16 children younger than 2 years, 78 children 2 to 7 years old, and 221 children 8 to 15 years old with CSI, and 66 children younger than 2 years without CSI. There were no significant differences in spinal immobilization techniques applied to children younger than 2 years old with and without CSI (P = 0.34). Of the 82 children younger than 2 years, 34 (41%) were fully immobilized in a cervical collar and rigid long board. There was a significant difference between spinal immobilization techniques applied to children with CSI younger than 2 years and 8 to 15 years old (P < 0.01). Six (38%) children with CSI younger than 2 years were fully immobilized versus 49 (63%) children 2 to 7 years old and 175 (79%) children 8 to 15 years old.

CONCLUSIONS

In this retrospective, observational study involving several emergency departments and Emergency Medical Services systems, we found that full spinal immobilization is inconsistently applied to children younger than 2 years after blunt trauma regardless of the presence of CSI. Full spinal immobilization is applied more consistently to older children with CSI.

Cervical spine injuries and collar complications in severely injured paediatric trauma patients

STUDY DESIGN

A retrospective registry review.

OBJECTIVES

To determine the incidence of cervical spine (CS) injuries and collar complications in severely injured paediatric trauma patients.

SETTING

Regional Trauma Centre, Children's Hospital.

METHODS

A retrospective review of 365 paediatric severe trauma patients (0-17 years), defined as an Injury Severity Score (ISS)≥12, admitted to the paediatric intensive care unit (PICU).

RESULTS

Clinically significant CS injuries occurred in 5% (n=18/365) of trauma patients, in 9% (n=13/149) of traumatic brain injury (TBI) patients and in 11% (n=6/56) of in-hospital trauma deaths. CS injuries were suspected before imaging in 33% (n=6/18) of patients based on either motor/sensory impairment or shock. CS injuries were deemed unstable in 61% (n=11/18) of patients. Patients with CS injuries had higher ISS, and longer PICU and hospital stays (P<0.05). CS collar complications occurred in 10% of patients, mainly identified by day 6 and consisting of either erythema or ulcers. Patients with CS collar complications were older and more likely to have TBI, lower Glasgow Coma Scale (GCS) scores, longer PICU and hospital stays, and increased days to CS clearance (P<0.05). Three CS X-rays, together with flexion/extension views, were used most frequently for CS clearance.

CONCLUSION

CS injuries were prevalent in severely injured paediatric trauma patients, particularly in those with TBI and in nonsurvivors. CS collar complications were associated with a lower GCS and longer CS clearance times. Attention to CS collar management protocols and earlier CS clearance with computed tomography/magnetic resonance imaging in obtunded patients might reduce CS collar complications.

A pediatric cervical spine clearance protocol to reduce radiation exposure in children

BACKGROUND

To minimize radiation exposure in children and reduce resource use, we implemented an age-specific algorithm to evaluate cervical spine injuries at a Level 1 trauma center. The effects of protocol implementation on computed tomography (CT) use in children (≤ 10 y) were determined.

METHODS

With institutional review board approval, we conducted a retrospective review using the institutional trauma registry. All pediatric patients (≤ 10 y) (n = 324) between January 2007 and present were reviewed. We excluded cases in which no imaging or outside imaging was performed. Patients were evaluated by physical exam alone, with the aid of plain radiograms or with cervical spine CT. All patients who required head CT also had CT of cervical spine to C3. We analyzed demographic, injury, and outcome data using STATA to perform chi-square and t-test, and to determine P value. P < 0.05 was defined as significant. We used the WinDose program to calculate the radiation-effective dose used in cervical spine CT.

RESULTS

There were 123 and 124 patients in the pre-protocol and post-protocol groups, respectively. Demographics, GCS, and injury analysis, specifically head-neck and face Injury Severity Scores showed no significant difference between groups. There was a 60% (P < 0.001) decrease in the use of full CTs after protocol implementation. We estimated that the protocol reduced the exposed area by 50% and decreased the radiation dose to the thyroid by > 80%. We extrapolated the combined effect results in a threefold reduction in radiation exposure.

CONCLUSIONS

Implementation of a cervical spine protocol led to a significant reduction in radiation exposure among children.

Initial assessment and management of pediatric trauma patients

Injury is the leading cause of death and disability in children. Each year, almost one in six children in the United States require emergency department (ED) care for the treatment of injuries, and more than 10,000 children die from injuries. Severely injured children need to be transported to a facility that is staffed 24/7 by personnel experienced in the management of children, and that has all the appropriate equipment to diagnose and manage injuries in children. Anatomical, physiological, and emotional differences between adults and children mean that children are not just scaled-down adults. Facilities receiving injured children need to be child and family friendly, in order to minimize the psychological impact of injury on the child and their family/carers. Early recognition and treatment of life-threatening airway obstruction, inadequate breathing, and intra-abdominal and intra-cranial hemorrhage significantly increases survival rate after major trauma. The initial assessment and management of the injured child follows the same ATLS^® sequence as adults: primary survey and resuscitation, followed by secondary survey. A well-organized trauma team has a leader who designates roles to team members and facilitates clear, unambiguous communication between team members. The team leader stands where he/she can observe the entire team and monitor the “bigger picture.” Working together as a cohesive team, the members perform the primary survey in just a few minutes. Life-threatening conditions are dealt with as soon as they are identified. Necessary imaging studies are obtained early. Constant reassessment ensures that any deterioration in the child's condition is picked up immediately. The secondary survey identifies other injuries, such as intra-abdominal injuries and long-bone fractures, which can result in significant hemorrhage. The relief of pain is an important part of the treatment of an injured child.

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.

Cervical spine evaluation in pediatric trauma

OBJECTIVE

This article will review the current literature as it relates to imaging of the child suspected to have cervical spine injury (CSI) and the imaging findings of pediatric CSI, focusing on strategies to minimize radiation dose while maximizing diagnostic yield.

CONCLUSION

Although CSI is uncommon in children, the clinical implications of failure to correctly diagnose CSI are significant. Clinical decision rules proven effective in predicting CSI in adults cannot be uniformly applied to children.

Blunt cervical spine injury in children

PURPOSE OF REVIEW

We present data from recently conducted research regarding the diagnosis of blunt cervical spine injury (CSI) in children.

RECENT FINDINGS

Research in the prehospital setting to evaluate the need for cervical spine immobilization in children, regardless of clinical findings or mechanism of injury, suggests that low-risk prediction rules may be safely utilized by prehospital providers, although more data is needed. Their size, developing skeleton and unique anatomy leave children vulnerable to particular injury patterns, namely cephalad bony fractures and ligamentous and spinal cord injuries without radiographic abnormality. Low-risk clinical prediction rules have been developed but need to be further validated. For those children at higher risk of CSI, diagnostic imaging strategies are evolving, with computed tomography and MRI becoming more prominent.

SUMMARY

Evidence in the management of children with CSI has expanded in recent years, but further large prospective studies are needed. We present a review of some recent developments influencing clinical practice.

Theoretical increase of thyroid cancer induction from cervical spine multidetector computed tomography in pediatric trauma patients

BACKGROUND

The trend of increasing cervical spine multidirectional computed tomography (MDCT) imaging of pediatric trauma patients is characteristic of the overall dramatic increase in computed tomography utilization in the United States. The purpose of this study is to compare the amount of radiation a pediatric trauma patient absorbs to the thyroid from plain radiographs and MDCT of the cervical spine and to express risk by calculation of theoretical thyroid cancer induction.

METHODS

A retrospective evaluation of pediatric trauma patients admitted from October 1, 2004, to October 31, 2009, was performed at an academic, Level I trauma center. Inclusion criteria were Level I/II trauma patients, cervical spine imaging performed at our institution, and age <18 years. Absorbed thyroid radiation was calculated for patients receiving plain radiographs or MDCT. Thyroid cancer risk was calculated using the 2006 Biological Effects on Ionizing Radiation VII report.

RESULTS

Six hundred seventeen patients met inclusion criteria: 224 received cervical spine radiographs and 393 received cervical spine MDCT. The mean thyroid radiation absorbed from radiographs was 0.90 mGy for males and 0.96 mGy for females compared with 63.6 mGy (males) and 64.2 mGy (females) receiving MDCT (p < 0.001). The median excess relative risk of thyroid cancer induction from one cervical spine MDCT in males was 13.0% and females was 25.0%, compared with 0.24% (males) and 0.51% (females) for radiographs (p < 0.001).

CONCLUSIONS

The significant difference in radiation that MDCT delivers to the pediatric trauma patient when compared with plain radiographs should temper routine use of computed tomography in pediatric cervical spine clearance algorithms.

Pediatric noncontiguous spinal injuries: the 15-year experience at a level 1 trauma center

STUDY DESIGN

Retrospective review.

OBJECTIVE

To determine the incidence and clinical characteristics of noncontiguous spinal injuries (NCSI) in a pediatric population. The secondary objective is to identify high-risk patients requiring further imaging to rule out NCSI.

SUMMARY OF BACKGROUND DATA

NCSI can add significant complexity to the diagnosis, management, and outcome of children. There is very little in the pediatric literature examining the nature, associated risk factors, management, and outcomes of NCSI.

METHODS

All children up to 18 years of age with a spinal injury, as defined by International Classification of Diseases, Ninth Revision codes, at one pediatric trauma hospital were included (n = 211). Data for patient demographics, mechanism of injury, spinal levels involved, extent of neurological injury and recovery, associated injuries, medical complications, treatment, and outcome were recorded.

RESULTS

Twenty-five (11.8%) of 211 patients had NCSI, with a median age of 13.0 years (interquartile range = 8-15). The most common pattern of injury was a double thoracic noncontiguous injury. Sixteen percent of the cases of NCSI were initially missed, with no clinical deterioration due to missed diagnosis. Associated injuries occurred in 44% of patients with NCSI. Twenty-four percent of patients with multiple NCSI had a neurological injury compared with 9.7% in patients with single-level or contiguous injuries (P = 0.046).

CONCLUSION

There is a high incidence of children with multiple NCSI who are more likely to experience neurological injuries compared with patients with single-level or contiguous spinal injuries. Patients with a single-level spinal injury on existing imaging with an associated neurological injury should undergo at least plain films of the entire spine to exclude noncontiguous injuries. In patients without neurological injury and a single spinal fracture, radiography showing at least 4 levels above and below the fracture should be performed. All children with spinal injury should have associated injuries carefully excluded.

Trends in computed tomography utilization in the pediatric emergency department

OBJECTIVE

The purpose of this study was to determine the overall trend of computed tomography (CT) utilization in the pediatric emergency department (PED) from 2003 to 2010 and to determine trends categorized by common chief complaints.

METHODS

Electronic chart records at 2 tertiary care PEDs within a large pediatric health care system were reviewed from January 2003 through December 2010. The annual CT utilization rate, by anatomic location, was determined. Annual CT utilization rates were compared with alternative imaging trends for visits with chief complaints of head injury, seizure, and abdominal pain. Analysis was performed with linear regression.

RESULTS

There was no change in overall CT utilization from 2003 to 2010 (β 0.25, 95% confidence interval [CI] [-1.61 to 2.73]) or within anatomic subgroups. Head CT utilization for the chief complaints of seizure (β -0.97, 95% CI [-1.44 to -0.90]) and head injury (β -0.93, 95% CI [-1.71 to -0.73]) showed significant declines. Although there was no change in the abdominal CT utilization rate for abdominal pain, abdominal ultrasound utilization for abdominal pain significantly increased (β 0.89, 95% CI [0.25-0.79]).

CONCLUSIONS

Our data showed no overall increase in CT utilization through 2010. In areas where alternative non-radiation-based modalities were options, there were decreased CT trends and increased use of potential alternative non-radiation-based modalities. This is the first large PED cohort study to show a decrease in CT utilization in recent years in a regional pediatric referral center and may correlate with increased awareness of radiation risk in children.

Pediatric cervical spine trauma

Pediatric cervical spine injuries are rare and are associated with significant morbidity and mortality. Pediatric anatomy and physiology predispose to upper cervical spine injury and spinal cord injury without radiologic abnormality in contrast to lower cervical spine injury seen in adults. Care of pediatric patients is difficult because they have a greater head-to-body ratio than adults and may have difficulty cooperating with a history and physical examination. In evaluating a child with a suspected cervical spine injury, radiography may be supplemented with CT or MRI. Definitive management of pediatric cervical spine trauma must be adapted to the distinctive anatomy and growth potential of the patient. As with all injuries, prevention is necessary to reduce the incidence of trauma to the pediatric spine.

Clearing the cervical spine in children

Increasing evidence from adult trauma patients has allowed the formation of some international consensus on clearance protocols. The evidence for paediatric trauma remains more fragmented, making the creation of definitive protocols difficult. Spinal injury in children differs from that in adults by injury distribution and prevalence, as well as anatomical and radiological differences. This complicates the process of clearance of the cervical spine in children. The evidence for clearance can be considered in terms of three groups of patients – the alert and asymptomatic child, the conscious child with high-risk criteria and the unconscious or obtunded child. This systematic review summarises the available evidence to clarify the current best practice for each group of patients.

Factors associated with the use of cervical spine computed tomography imaging in pediatric trauma patients

OBJECTIVES

The objectives were to identify patient and hospital characteristics associated with the use of computed tomography (CT) imaging of the cervical spine (c-spine) in the evaluation of injured children and, in particular, to examine the influence of hospital setting.

METHODS

This was a retrospective cohort of children younger than 19 years of age from the Massachusetts Hospital Emergency Department (ED) database who were discharged from the ED with an injury diagnosis from 2005 through 2009. Multivariable logistic regression was used to analyze characteristics associated with CT imaging of the c-spine.

RESULTS

Of the 929,626 pediatric patients diagnosed with an injury in Massachusetts EDs and then discharged home, 1.3% underwent CT imaging of the c-spine. Rates of CT imaging nearly doubled over the 5 years. In the multivariable model, patient age (adjusted odds ratio [AOR] = 2.3, 95% confidence interval [CI] = 2.0 to 2.7 for children age 12 to 18 years vs. under 1 year of age) and evaluation outside of a pediatric Level I trauma center (AOR = 2.2, 95% CI = 1.1 to 4.3 for children evaluated at non Level I trauma centers vs. pediatric Level I trauma centers; AOR = 2.1, 95% CI = 0.93 to 4.7 for children evaluated at adult Level I trauma centers vs. pediatric Level I trauma centers) were associated with higher rates of CT imaging of the c-spine.

CONCLUSIONS

Cervical spine CT imaging for children discharged from the ED with trauma diagnoses increased from 2005 through 2009. Older age and evaluation outside a Level I pediatric trauma center were associated with a higher c-spine CT rate. Educational interventions focused outside pediatric trauma centers may be an effective approach to decreasing CT imaging of the c-spine of pediatric trauma patients.

Clinical prediction rules for children: a systematic review

CONTEXT

The degree to which clinical prediction rules (CPRs) for children meet published standards is unclear.

OBJECTIVE

To systematically review the quality, performance, and validation of published CPRs for children, compare them with adult CPRs, and suggest pediatric-specific changes to CPR methodology.

METHODS

Medline was searched from 1950 to 2011. Studies were selected if they included the development of a CPR involving children younger than 18 years. Two investigators assessed study quality, rule performance, and rule validation as methodologic standards.

RESULTS

Of 7298 titles and abstracts assessed, 137 eligible studies were identified. They describe the development of 101 CPRs addressing 36 pediatric conditions. Quality standards met in fewer than half of the studies were blind assessment of predictors (47%), reproducibility of predictors (18%), blind assessment of outcomes (42%), adequate follow-up of outcomes (36%), adequate power (43%), adequate reporting of results (49%), and 95% confidence intervals reported (36%). For rule performance, 48% had a sensitivity greater than 0.95, and 43% had a negative likelihood ratio less than 0.1. For rule validation, 76% had no validation, 17% had narrow validation, 8% had broad validation, and none had impact analysis performed. Compared with CPRs for adult health conditions, quality and rule validation seem to be lower.

CONCLUSIONS

Many CPRs have been derived for children, but few have been validated. Relative to adult CPRs, several quality indicators demonstrated weaknesses. Existing performance standards may prove elusive for CPRs that involve children. CPRs for children that are more assistive and less directive and include patients' values and preferences in decision-making may be helpful.

The appropriate use of CT: quality improvement and clinical decision-making in pediatric emergency medicine

An increasing number of patients presenting to a shrinking number of hospital emergency departments has contributed to challenges to providing high-quality care, specifically care that is safe, efficient and effective. These challenges are magnified by trends in CT utilization with uncertain implications for care delivery. The utility of CT poses challenges to the pediatric emergency medicine physician to balance risk with potential benefit. We describe the process of evidence-based clinical decision-making to define the appropriate use of CT studies. Strategies for minimizing CT utilization in managing appendicitis, traumatic brain injury and cervical spine injuries are described. Clinical scores, clinical decision rules and evidence-based guidelines can assist the clinician in providing high-quality care through effective utilization of CT.

Pediatric cervical spine injuries: a comprehensive review

INTRODUCTION

Cervical spine injuries can be life-altering issues in the pediatric population. The aim of the present paper was to review this literature.

CONCLUSIONS

A comprehensive knowledge of the special anatomy and biomechanics of the spine of children is essential in diagnosis and treating issues related to spine injuries.

Variation in the self-reported use of computed tomography in clearing the cervical spine of pediatric trauma patients

OBJECTIVE

Cervical spine injury (CSI) in children can be life-threatening or associated with lifelong disabilities. Whereas screening computed tomography (CT) of the cervical spine is used in the evaluation of adult trauma patients, it has no additional benefit in children when compared with plain film radiography of the cervical spine. Despite this, CT use in the pediatric patient is increasing. We sought to compare the self-reported utilization of screening cervical spine CT among pediatric emergency medicine (PEM) physicians and general emergency medicine (non-PEM) physicians.

METHODS

Physicians completed an online survey consisting of a clinical vignette in which the respondents chose to evaluate a pediatric trauma patient for CSI using no imaging, plain films, or CT. Questions regarding the physician's attitudes, knowledge, and practice patterns for pediatric CSI were included.

RESULTS

Six hundred fifty-four physicians responded to the survey: 463 (70.8%) non-PEM and 191 (29.2%) PEM physicians. Both groups ordered radiographic imaging at a similar rate, although non-PEM physicians were 4 times more likely to utilize CT than PEM practitioners. Non-PEM physicians were more likely to overestimate the frequency of pediatric CSI. Pediatric emergency medicine physicians were more likely to state that they would never use CT as the initial modality for CSI screening.

CONCLUSIONS

In response to a clinical vignette, non-PEM physicians were more likely to self-report the use of screening CT in pediatric trauma patients than PEM physicians.

Spine trauma

Spinal fractures represent 3% to 6% of all skeletal injuries. Spine trauma is a complex diagnostic area in which the radiological assessment is crucial. Plain radiography is often used as the initial diagnostic modality. However, stabilization of the acutely injured spine is a primary concern. In this respect, computed tomography (CT) is vastly superior to plain film in terms of speed and accuracy. In many trauma centers, CT has replaced plain film as the primary modality for evaluation of spinal trauma. Magnetic resonance imaging is not indicated for all cases of spinal trauma but provides detailed information about soft tissue structures including the intervertebral disc, the ligaments, the epidural space, the blood vessels, and the spinal cord. MR imaging provides information on these structures not obtained from other modalities. Patients with spinal cord injury may suffer devastating long-term neurologic deficits, so prompt and efficient spinal imaging guidelines are necessary in all trauma centers.

Sciwora na população pediátrica após traumatismo cervical

OBJETIVO: Avaliar a incidência e as características das lesões tipo SCIWORA nos indivíduos até os 16 anos, da área de um hospital central entre 1989 e 2009, após traumatismo cervical. MÉTODOS: Estudo retrospectivo de consulta processual. RESULTADOS: Nove (10,5%) de 86 crianças apresentavam achados clínicos e radiológicos compatíveis com o diagnóstico de SCIWORA. A média de idades foi de 10,7 anos. A causa mais frequente foi o acidente de trânsito. Seis indivíduos eram classificáveis como Frankel D. Os restantes três casos eram Frankel C. Em três doentes a RMN mostrou imagem de lesão. Sete efetuaram metilprednisolona endovenosa e todos mantiveram imobilização com colar cervical até a primeira consulta de seguimento, às 2 semanas. Na alta, os seis doentes que apresentavam Frankel D à entrada melhoraram para um grau E. Dos doentes com Frankel C à entrada, um melhorou até Frankel D e os restantes dois mantiveram-se inalterados em Frankel C. CONCLUSÃO: Em um hospital de referência traumatológica, SCIWORA representa cerca de 10% das lesões cervicais pediátricas. Os défices neurológicos à entrada e a RMN têm valor prognóstico de recuperação. A corticoterapia em dose elevada não está formalmente indicada e não é consensual o tempo de utilização de imobilização ou a sua indicação em todos os SCIWORA.

Instable cervical spine injury in a toddler: technical note

PURPOSE

Instable upper cervical spine injuries (CSI) in very young children are rare and consecutively only few data on the treatment and operative approaches exist in the literature. Hence, we suggest an operative strategy in the case of a 15-month-old infant treated for an instable CSI at the level of C2/3 at our department. Detailed steps of the operation with special consideration to the challenging anatomy of the immature spine are presented.

METHODS

A toddler suffered a CSI without neurological deficits after a stair fall. Computer tomography (CT) and magnetic resonance imaging (MRI) of the cervical spine revealed an instable luxation fracture of C2/3. As repositioning in the halo vest immobilization failed, surgical fusion was indicated.

RESULTS

Via a posterior midline approach, the lamina of C2 and C3 was conflated in a modified sublaminar wiring technique using non-resorbable sutures, sparing the ossification zones of the vertebral arches. Postoperative immobilization in a halo vest facilitated bony fusion of the laminae at C2/3 without lordotic displacement of the cervical spine.

CONCLUSIONS

We consider the instable CSI of the immature cervical in the very young a challenging situation for every treating physician. The particular features of the growing spine require special attention to avoid damage to the growth centers of the vertebrae. To our knowledge, this is the first technical report giving detailed information of an operative approach to the severely injured immature cervical spine and postoperative management.

[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.