Accuracy of PECARN, CATCH, and CHALICE head injury decision rules in children: a prospective cohort study

© 2017 Elsevier Ltd Background Clinical decision rules can help to determine the need for CT imaging in children with head injuries. We aimed to validate three clinical decision rules (PECARN, CATCH, and CHALICE) in a large sample of children. Methods In this prospective observational study, we included children and adolescents (age

Performance of two head injury decision rules evaluated on an external cohort of 18,913 children

The Pediatric Emergency Care Applied Research Network (PECARN) decision rule demonstrates high sensitivity for identifying children at low risk for clinically important traumatic brain injury (ciTBI). As with the PECARN rule, the Israeli Decision Algorithm for Identifying TBI in Children (IDITBIC) recommends proceeding directly to computed tomography (CT) in children with Glasgow Coma Score (GCS) lower than 15. The aim was to assess the diagnostic accuracy of two clinical rules that assign children with GCS lower than 15 at presentation directly to CT

External validation of the Scandinavian guidelines for management of minimal, mild and moderate head injuries in children

© 2018 The Author(s). Background: Clinical decision rules (CDRs) aid in the management of children with traumatic brain injury (TBI). Recently, the Scandinavian Neurotrauma Committee (SNC) has published practical, evidence-based guidelines for children with Glasgow Coma Scale (GCS) scores of 9-15. This study aims to validate these guidelines and to compare them with other CDRs. Methods: A large prospective cohort of children (< 18 years) with TBI of all severities, from ten Australian and New Zealand hospitals, was used to assess the SNC guidelines. Firstly, a validation study was performed according to the inclusion and exclusion criteria of the SNC guideline. Secondly, we compared the accuracy of SNC, CATCH, CHALICE and PECARN CDRs in patients with GCS 13-15 only. Diagnostic accuracy was calculated for outcome measures of need for neurosurgery, clinically important TBI (ciTBI) and brain injury on CT. Results: The SNC guideline could be applied to 19,007/20,137 of patients (94.4%) in the validation process. The frequency of ciTBI decreased significantly with stratification by decreasing risk according to the SNC guideline. Sensitivities for the detection of neurosurgery, ciTBI and brain injury on CT were 100.0% (95% CI 89.1-100.0; 32/32), 97.8% (94.5-99.4; 179/183) and 95% (95% CI 91.6-97.2; 262/276), respectively, with a CT/admission rate of 42% (mandatory CT rate of 5%, 18% CT or admission and 19% only admission). Four patients with ciTBI were missed; none needed specific intervention. In the homogenous comparison cohort of 18,913 children, the SNC guideline performed similar to the PECARN CDR, when compared with the other CDRs. Conclusion: The SNC guideline showed a high accuracy in a large external validation cohort and compares well with published CDRs for the management of paediatric TBI

A prospective observational study to assess the diagnostic accuracy of clinical decision rules for children presenting to emergency departments after head injuries (protocol): The Australasian Paediatric Head Injury Rules Study (APHIRST)

Background: Head injuries in children are responsible for a large number of emergency department visits. Failure to identify a clinically significant intracranial injury in a timely fashion may result in long term neurodisability and death. Whilst cranial computed tomography (CT) provides rapid and definitive identification of intracranial injuries, it is resource intensive and associated with radiation induced cancer. Evidence based head injury clinical decision rules have been derived to aid physicians in identifying patients at risk of having a clinically significant intracranial injury. Three rules have been identified as being of high quality and accuracy: the Canadian Assessment of Tomography for Childhood Head Injury (CATCH) from Canada, the Children's Head Injury Algorithm for the Prediction of Important Clinical Events (CHALICE) from the UK, and the prediction rule for the identification of children at very low risk of clinically important traumatic brain injury developed by the Pediatric Emergency Care Applied Research Network (PECARN) from the USA. This study aims to prospectively validate and compare the performance accuracy of these three clinical decision rules when applied outside the derivation setting.Methods/design: This study is a prospective observational study of children aged 0 to less than 18 years presenting to 10 emergency departments within the Paediatric Research in Emergency Departments International Collaborative (PREDICT) research network in Australia and New Zealand after head injuries of any severity. Predictor variables identified in CATCH, CHALICE and PECARN clinical decision rules will be collected. Patients will be managed as per the treating clinicians at the participating hospitals. All patients not undergoing cranial CT will receive a follow up call 14 to 90 days after the injury. Outcome data collected will include results of cranial CTs (if performed) and details of admission, intubation, neurosurgery and death. The performance accuracy of each of the rules will be assessed using rule specific outcomes and inclusion and exclusion criteria.Discussion: This study will allow the simultaneous comparative application and validation of three major paediatric head injury clinical decision rules outside their derivation setting.Trial registration: The study is registered with the Australian New Zealand Clinical Trials Registry (ANZCTR)- ACTRN12614000463673 (registered 2 May 2014). © 2014 Babl et al.; licensee BioMed Central Ltd

Pain management practices in paediatric emergency departments in Australia and New Zealand: A clinical and organizational audit by national health and medical research council's national institute of clinical studies and paediatric research in emergency d

Objective

Improving pain management of abdominal pain in children presenting to the paediatric emergency department: A pre-post interventional study

Background In 2007, the Mater Children's Hospital Emergency Department participated in the Emergency Care Pain Management Initiative funded by the National Health and Medical Research Council National Institute of Clinical Studies (NHMRC – NICS). The findings of this NHMRC – NICS research across eleven paediatric emergency departments highlighted deficits in pain management of abdominal pain. Specifically pain assessment, timeliness of analgesia, and pain management guidelines were found to be lacking. Methods In response to the NICS report local practice was reviewed and a pilot research project undertaken to develop a clinical guideline for the pain management of abdominal pain in children presenting to the emergency department. The guideline was developed by an expert panel and trialled using a pre and post intervention design. Results The results demonstrated improved compliance to assessment and documentation of pain scores and assimilation of the best practice principles recommended in the guideline. Conclusions This project raised local awareness in the pain management of abdominal pain and provides baseline information for future improvement. The guideline has been trialled in the clinical setting of paediatric emergency and has the potential to improve pain management practices in children presenting to the emergency department with abdominal pain

Delayed presentations to emergency departments of children with head injury: A PREDICT study

© 2018 American College of Emergency Physicians Study objective: Existing clinical decision rules guide management for head-injured children presenting 24 hours or sooner after injury, even though some may present greater than 24 hours afterward. We seek to determine the prevalence of traumatic brain injuries for patients presenting to emergency departments greater than 24 hours after injury and identify symptoms and signs to guide management. Methods: This was a planned secondary analysis of the Australasian Paediatric Head Injury Rule Study, concentrating on first presentations greater than 24 hours after injury, with Glasgow Coma Scale scores 14 and 15. We sought associations with predictors of traumatic brain injury on computed tomography (CT) and clinically important traumatic brain injury. Results: Of 19,765 eligible children, 981 (5.0%) presented greater than 24 hours after injury, and 465 injuries (48.5%) resulted from falls less than 1 m and 37 (3.8%) involved traffic incidents. Features associated significantly with presenting greater than 24 hours after injury in comparison with presenting within 24 hours were nonfrontal scalp hematoma (20.8% versus 18.1%), headache (31.6% versus 19.9%), vomiting (30.0% versus 16.3%), and assault with nonaccidental injury concerns (1.4% versus 0.4%). Traumatic brain injury on CT occurred in 37 patients (3.8%), including suspicion of depressed skull fracture (8 [0.8%]) and intracranial hemorrhage (31 [3.8%]). Clinically important traumatic brain injury occurred in 8 patients (0.8%), with 2 (0.2%) requiring neurosurgery, with no deaths. Suspicion of depressed skull fracture was associated with traumatic brain injury on CT consistently, with the only other significant factor being nonfrontal scalp hematoma (odds ratio 19.0; 95% confidence interval 8.2 to 43.9). Clinically important traumatic brain injury was also associated with nonfrontal scalp hematoma (odds ratio 11.7; 95% confidence interval 2.4 to 58.6) and suspicion of depressed fracture (odds ratio 19.7; 95% confidence interval 2.1 to 182.1). Conclusion: Delayed presentation after head injury, although infrequent, is significantly associated with traumatic brain injury. Evaluation of delayed presentations must consider identified factors associated with this increased risk

Mild Traumatic Brain Injury Characteristics and Symptoms in Preschool Children: How Do They Differ to School Age Children? A Multicenter Prospective Observational Study

Objective: To investigate if preschool children differ to school age children with mild traumatic brain injury (TBI) with respect to injury causes, clinical presentation, and medical management. Design: A secondary analysis of a dataset from a large, prospective and multisite cohort study on TBI in children aged 0-18 years, the Australian Paediatric Head Injury Rules Study. Setting: Nine pediatric emergency departments (ED) and 1 combined adult and pediatric ED located across Australia and New Zealand. Participants: 7080 preschool aged children (2-5 years) were compared with 5251 school-age children (6-12 years) with mild TBI (N= (N=12,331) MAIN OUTCOME MEASURES: Clinical report form on medical symptoms, injury causes, and management. Results: Preschool children were less likely to be injured with a projectile than school age children (P<.001). Preschool children presented with less: loss of consciousness (P<.001), vomiting (P<.001), drowsiness (P=.002), and headache (P<.001), and more irritability and agitation (P=.003), than school-age children in the acute period after mild TBI. Preschool children were less likely to have neuroimaging of any kind (P<.001) or to be admitted for observation than school age children (P<.001). Conclusions: Our large prospective study has demonstrated that preschool children with mild TBI experience a different acute symptom profile to older children. There are significant clinical implications with symptoms post-TBI used in medical management to aid decisions on neuroimaging and post-acute intervention

Penetrating head injuries in children presenting to the emergency department in Australia and New Zealand: A PREDICT prospective study

© 2018 Paediatrics and Child Health Division (The Royal Australasian College of Physicians) Aim: Penetrating head injuries (pHIs) are associated with high morbidity and mortality. Data on pHIs in children outside North America are limited. We describe the mechanism of injuries, neuroimaging findings, neurosurgery and mortality for pHIs in Australia and New Zealand. Methods: This was a planned secondary analysis of a prospective observational study of children 24 h, admission >2 days and abnormal computed tomography). Results: Of 20 137 evaluable patients with a head injury, 21 (0.1%) were identified to have sustained a pHI. All injuries were of non-intentional nature, and there were no gunshot wounds. The mechanisms of injuries varied from falls, animal attack, motor vehicle crashes and impact with objects. Mean Glasgow Coma Scale on ED arrival was 10; 10 (48%) had a history of loss of consciousness, and 7 (33%) children were intubated pre-hospital or in the ED. Fourteen (67%) children underwent neurosurgery, two (10%) craniofacial surgery, and five (24%) were treated conservatively; four (19%) patients died. Conclusions: Paediatric pHIs are very rare in EDs in Australia and New Zealand but are associated with high morbidity and mortality. The absence of firearm-related injuries compared to North America is striking and may reflect Australian and New Zealand firearm regulations

Imaging and admission practices in paediatric head injury across emergency departments in Australia and New Zealand: A PREDICT study

Objectives Variation in the management of paediatric head injury has been identified worldwide. This prospective study describes imaging and admission practices of children presenting with head injury across 10 hospital EDs in Australia and New Zealand. Methods Prospective observational multicentre study of 20 137 children (under 18 years) as a planned secondary analysis of the Australasian Paediatric Head Injury Rules Study. All presentations with head injury without prior imaging were eligible for inclusion. Variations in rates of computed tomography of the brain (CTB) and admission practices between sites, ED type and country were investigated, as were clinically important traumatic brain injuries (ciTBIs) and abnormal CTBs within CTBs. Results Among the 20 137 enrolled patients, the site adjusted CTB rate was 11.2% (95% confidence interval [CI] 7.8-14.6); individual sites ranged from 2.6 to 18.6%. ciTBI was found in 0.4-2.2%, with abnormal scans documented in 0.7-6.5%. As a percentage of CTBs undertaken, ciTBIs were found in 12.8% (95% CI 10.8-14.7) with individual site variation of 8.8-16.9%, and no statistically significant difference noted, and traumatic abnormalities in 29.3% (95% CI 26.2-32.3) with individual site variation between 19.4 and 35.6%. Among those under 2 years,traumatic abnormalities were found in greater than 50% of CTBs at 90% of sites. Admission rate overall was 24.0% (site adjusted) with wide variation between sites (5.0-48.9%). Conclusion Across the 10 largely tertiary EDs included in this study, the overall CTB rate was low with no significant variation between sites when adjusted for ciTBIs