Test Characteristics of Cardiac Point-of-Care Ultrasound in Children With Preexisting Cardiac Conditions.

OBJECTIVE: The aim of the study is to assess diagnostic performance of cardiac point-of-care ultrasound (POCUS) performed by pediatric emergency medicine (PEM) physicians in children with preexisting cardiac disease. METHODS: We evaluated the use of cardiac POCUS performed by PEM physicians among a convenience sample of children with preexisting cardiac disease presenting to a tertiary care pediatric ED. We assessed patient characteristics and the indication for POCUS. The test characteristics of the sonologist interpretation for the assessment of both pericardial effusion as well as left ventricular systolic dysfunction were compared with expert POCUS review by PEM physicians with POCUS fellowship training. RESULTS: A total of 104 children with preexisting cardiac disease underwent cardiac POCUS examinations between July 2015 and December 2017. Among children with preexisting cardiac disease, structural defects were present in 72%, acquired conditions in 22%, and arrhythmias in 13% of patients. Cardiac POCUS was most frequently obtained because of chest pain (55%), dyspnea (18%), tachycardia (17%), and syncope (10%). Cardiac POCUS interpretation compared with expert review had a sensitivity of 100% (95% confidence interval [CI], 85.7-100) for pericardial effusion and 100% (95% CI, 71.5-100) for left ventricular systolic dysfunction; specificity was 97.5% (95% CI, 91.3.1-99.7) for pericardial effusion and 98.9% (95% CI, 93.8-99.8) for left ventricular systolic dysfunction. CONCLUSIONS: Cardiac POCUS demonstrates good sensitivity and specificity in diagnosing pericardial effusion and left ventricular systolic dysfunction in children with preexisting cardiac conditions when technically adequate studies are obtained. These findings support future studies of cardiac POCUS in children with preexisting cardiac conditions presenting to the ED.

Development of a Consensus-Based Definition of Focused Assessment With Sonography for Trauma in Children.

Importance: The wide variation in the accuracy and reliability of the Focused Assessment With Sonography for Trauma (FAST) and the extended FAST (E-FAST) for children after blunt abdominal trauma reflects user expertise. FAST and E-FAST that are performed by experts tend to be more complete, better quality, and more often clinically valuable. Objective: To develop definitions of a complete, high-quality, and accurate interpretation for the FAST and E-FAST in children with injury using an expert, consensus-based modified Delphi technique. Design, Setting, and Participants: This consensus-based qualitative study was conducted between May 1 to June 30, 2021. It used a scoping review and iterative Delphi technique and involved 2 rounds of online surveys and a live webinar to achieve consensus among a 26-member panel. This panel consisted of international experts in pediatric emergency point-of-care ultrasonography. Main Outcomes and Measures: Definitions of complete, high-quality, and accurate FAST and E-FAST studies for children after injury. Results: Of the 29 invited pediatric FAST experts, 26 (15 men [58%]) agreed to participate in the panel. All 26 panelists completed the 2 rounds of surveys, and 24 (92%) participated in the live and asynchronous online discussions. Consensus was reached on FAST and E-FAST study definitions, and the panelists rated these 5 anatomic views as important and appropriate for a complete FAST: right upper-quadrant abdominal view, left upper-quadrant abdominal view, suprapubic views (transverse and sagittal), and subxiphoid cardiac view. For E-FAST, the same FAST anatomic views with the addition of the lung or pneumothorax view were deemed appropriate and important. In addition, the panelists rated a total of 32 landmarks as important for assessing completeness. Similarly, the panelists rated 14 statements on quality and 20 statements on accurate interpretation as appropriate. Conclusions and Relevance: This qualitative study generated definitions for complete FAST and E-FAST studies with high image quality and accurate interpretation in children with injury. These definitions are similar to those in adults with injury and may be used for future education, quality assurance, and research. Future research may focus on interpretation of trace volumes of abdominal free fluid and the use of serial FAST.

Use of Cardiac Point-of-Care Ultrasound in the Pediatric Emergency Department.

OBJECTIVES: We sought to describe the test characteristics of cardiac point-of-care ultrasound (POCUS) performed by pediatric emergency medicine (PEM) physicians after structured cardiac POCUS training. METHODS: We evaluated the use of clinically indicated cardiac POCUS by PEM physicians in a single tertiary care pediatric emergency department after implementation of a focused cardiac POCUS training curriculum. The test characteristics of the sonologist interpretation were compared with expert POCUS review, by PEM physicians who have completed PEM POCUS fellowship training, for the assessment of both pericardial effusion and left ventricular systolic dysfunction. RESULTS: A total of 1241 cardiac POCUS examinations were performed between July 2015 and December 2017, of which 456 were clinically indicated and underwent expert POCUS review and comprised the study sample. These examinations were performed by 33 different PEM attending sonologists. Chest pain (52%), dyspnea (20%), and tachycardia (18%) were the most common indications for cardiac POCUS. Prevalence of pericardial effusion and global systolic dysfunction based on expert POCUS review were 11% (48/443) and 4% (16/435), respectively. Real-time cardiac POCUS interpretation had a sensitivity and specificity of 100% and 99.5%, respectively, for both pericardial effusion and left ventricular systolic dysfunction when compared with expert POCUS review. CONCLUSIONS: Cardiac POCUS is both sensitive and specific for identifying pericardial effusion and left ventricular systolic dysfunction when performed by PEM attendings with focused training.

Significance of Sonographic Subcentimeter, Subpleural Consolidations in Pediatric Patients Evaluated for Pneumonia.

OBJECTIVES: To investigate the rates of radiographic pneumonia and clinical outcomes of children with suspected pneumonia and subcentimeter, subpleural consolidations on point-of-care lung ultrasound. STUDY DESIGN: We enrolled a prospective convenience sample of children aged 6 months to 18 years undergoing chest radiography (CXR) for pneumonia evaluation in a single tertiary-care pediatric emergency department. Point-of-care lung ultrasound was performed by an emergency medicine physician with subsequent expert review. We determined rates of radiographic pneumonia and clinical outcomes in the children with subcentimeter, subpleural consolidations, stratified by the presence of larger (>1 cm) sonographic consolidations. The children were followed prospectively for 2 weeks to identify a delayed diagnosis of pneumonia. RESULTS: A total of 188 patients, with a median age of 5.8 years (IQR, 3.5-11.0 years), were evaluated. Of these patients, 62 (33%) had subcentimeter, subpleural consolidations on lung ultrasound, and 23 (37%) also had larger (>1 cm) consolidations. Patients with subcentimeter, subpleural consolidations and larger consolidations had the highest rates of definite radiographic pneumonia (61%), compared with 21% among children with isolated subcentimeter, subpleural consolidations. Overall, 23 children with isolated subcentimeter, subpleural consolidations (59%) had no evidence of pneumonia on CXR. Among 16 children with isolated subcentimeter, subpleural consolidations and not treated with antibiotics, none had a subsequent pneumonia diagnosis within the 2-week follow-up period. CONCLUSIONS: Children with subcentimeter, subpleural consolidations often had radiographic pneumonia; however, this occurred most frequently when subcentimeter, subpleural consolidations were identified in combination with larger consolidations. Isolated subcentimeter, subpleural consolidations in the absence of larger consolidations should not be viewed as synonymous with pneumonia; CXR may provide adjunctive information in these cases.

Yield of Plain Radiography in Addition to Ultrasound Among Children with Hip Pain.

BACKGROUND: Children with limp or hip pain often undergo radiographs and ultrasound as part of their initial evaluation. Previous research suggests that hip radiography may have limited utility, and early use of ultrasound may safely reduce the use of radiographs. OBJECTIVES: We sought to assess the utility of radiography in addition to ultrasound by evaluating the rate of bony abnormalities present on hip radiographs among children with and without effusion on ultrasound. We also assessed the agreement of point-of-care and Radiology-performed ultrasounds for the detection of effusion. METHODS: This is a retrospective cohort study of children presenting to a pediatric emergency department with acute atraumatic limp or hip pain. Data from patients who received both hip ultrasound and hip radiography as part of their evaluation were analyzed. We included both point-of-care and Radiology-performed hip ultrasounds. RESULTS: We identified 134 patients who received both hip ultrasound and hip radiographs. Sixty-eight patients (51%) had a hip effusion present on ultrasound and none of these had bony abnormalities on radiography (0%, 95% confidence interval 0-5.3%). Of the 66 patients (49%) who had no effusion on hip ultrasound, 2 patients were found to have a bony abnormality (3%, 95% confidence interval 0.4-10.5%). For patients who received both point-of-care and Radiology-performed ultrasound, the overall agreement for diagnosis of effusion was 92.6% (kappa = 0.82). CONCLUSIONS: We observed that no children with an effusion on ultrasound had bony pathology on plain radiography, suggesting that the routine performance of hip radiography may not be indicated in all children. Future studies are needed to evaluate the negative predictive value of effusion in larger numbers of patients with known bony abnormalities.

Does Point-of-Care Gastric Ultrasound Correlate With Reported Fasting Time?

OBJECTIVE: Traditionally, patient-reported fasting time has been the primary objective presedation measure of aspiration risk. Recently, gastric ultrasound has been used to assess gastric volume for the determination of aspiration risk in patients undergoing anesthesia in the operative setting. We sought to determine the correlation of gastric volume estimated by point-of-care ultrasound (POCUS) to reported fasting time. METHODS: We included children 4 to 18 years of age who presented with an acute traumatic injury. Enrolled children underwent POCUS to calculate gastric volume, which was calculated using a validated formula: Volume (mL) = -7.8 + (3.5 × Cross-sectional Area [CSA]) + (0.127 × Age in months). The CSA was measured (CSA = (anterior-posterior diameter × craniocaudal diameter × π)/4). We analyzed the relationship between time since last reported oral intake and measured gastric volume using Spearman rank correlation (ρ). RESULTS: A total of 103 patients with a median age of 10.5 years (interquartile range, 7.3-13.7 years) were enrolled. The gastric antrum was identified and measured in 88 (85%) patients; air obstructing the posterior surface of the gastric antrum prevented measurement in 14 of the 15 remaining patients. We observed a weak inverse correlation between fasting time (either liquid or solid) and estimated gastric volume (ρ = -0.33), with no significant difference based on type of intake (solids, ρ = 0.28; liquids, ρ = 0.22). CONCLUSION: Gastric volume can be estimated by POCUS and is not strongly correlated with fasting time in children in the emergency department setting.

Interrater reliability of pediatric point-of-care lung ultrasound findings.

OBJECTIVE: We sought to assess interrater reliability (IRR) of lung point-of-care ultrasound (POCUS) findings among pediatric patients with suspected pneumonia. METHODS: A convenience sample of patients between the ages of 6 months and 18 years with a clinical suspicion of pneumonia had a lung ultrasound performed by a POCUS-credentialed emergency medicine physician with subsequent expert review. Each lung zone was assessed as either normal or abnormal, and specific ultrasound findings were recorded. IRR was assessed by intraclass correlation coefficient (ICC) and kappa statistics. RESULTS: Seventy-one patients, with a total of 852 lung zones imaged, were included. The sonographer assessment of normal versus abnormal, across each of the zones, demonstrated moderate agreement with ICC 0.46 (95% CI: 0.41, 0.52) and kappa 0.56. Right-sided zones demonstrated moderate agreement [0.43 (CI 0.35, 0.51)] while left-sided zones, specifically left-sided anterior zones, showed only fair agreement [0.36 (0.28, 0.44)]. IRR varied between specific findings: ICC for B-lines 0.52 (95% CI: 0.46, 0.57), pleural effusion 0.40 (0.34, 0.45), consolidation 0.39 (0.33, 0.44), subpleural consolidation 0.31 (0.25, 0.37), and pleural line irregularity 0.16 (0.10, 0.23). A composite indicator of typical pneumonia findings (consolidation, B-lines, and pleural effusion) demonstrated moderate [ICC 0.52 (0.46, 0.57)] reliability. CONCLUSIONS: We found moderate interrater reliability of lung POCUS findings for the assessment of pediatric patients with suspected pneumonia. B-lines had the highest reliability. Further assessment of lung POCUS is necessary to guide proper training and optimal scanning techniques to ensure adequate reliability of ultrasound findings in the assessment of pediatric pneumonia.

Interventions to Increase Point-of-Care Ultrasound Use in a Pediatric Emergency Department.

OBJECTIVE: We sought to determine which interventions have effectively increased point-of-care ultrasound (US) use in a pediatric emergency department (ED). DESIGN/METHODS: We evaluated the impact of specific interventions conducted over a 5-year period (2010-2015) on point-of-care US performance in a tertiary care pediatric ED. Ultrasound use by attending physicians and fellows was ascertained from a departmental database. Interventions assessed included the following: (1) initiation of an US fellowship, (2) acquisition of a second US machine, (3) performance of an US-related research project in the department, (4) initiation of faculty US curriculum, (5) earlier introduction of US education for pediatric emergency medicine fellows, and (6) administrative mandate dictating faculty requirements for credentialing. Mean monthly US use was trended over time using statistical process control methodology, and the impact of major interventions was analyzed using interrupted time-series analyses. RESULTS: The mean number of US scans increased from 2.0 to 5.9 per attending per month and from 4.3 to 7.1 per fellow per month over the study period. Using interrupted time-series analyses, we observed the only intervention to significantly increase attending US utilization was an administrative credentialing mandate, with an associated increase of 6% per month (incidence rate ratio, 1.06; 95% confidence interval, 1.01-1.11). CONCLUSIONS: Point-of-care US use has increased over time for both fellows and attending physicians. We observed that an administrative mandate led to a significant increase in US use among attending physicians.

Point-of-Care Ultrasound Differentiation of Lung Consolidation and Normal Thymus in Pediatric Patients: An Educational Case Series.

BACKGROUND: There is a growing body of evidence to support the utility of lung point-of-care ultrasound (POCUS) in pediatric patients with multiple pulmonary pathologies, particularly pneumonia. As we increase our use of lung POCUS for pediatric patients with respiratory complaints, we must be mindful of the normal anatomy and sonographic findings within the pediatric chest and aware of how to distinguish normal findings (e.g., thymus) from pathologic findings (e.g., consolidation). CASE REPORTS: We report four cases of pediatric patients who presented to the Emergency Department with respiratory complaints for which POCUS was able to distinguish lung consolidation and normal thymus in the anterior chest. WHY SHOULD AN EMERGENCY PHYSICIAN BE AWARE OF THIS?: The use of lung ultrasound to detect pneumonia is extensively documented in the pediatric literature. Emergency physicians may not be aware of how to discriminate the normal sonographic appearance of the thymus from lung consolidation on POCUS. The ability to identify normal and pathologic findings within the pediatric chest by POCUS will be increasingly important to appropriately reduce the use of plain radiography for pediatric patients with respiratory complaints.