Point-of-Care Ultrasound for Pulse Checks in Pediatric Cardiac Arrest: Two Illustrative Cases.

ABSTRACT: Cardiac arrest is an infrequent but high-stakes scenario in pediatrics. Manual central pulse checks are unreliable. Point-of-care ultrasound is a noninvasive technique to visualize the heart and central vessels during resuscitation. We describe 2 cases in which point-of-care ultrasound helped aid management decisions in pediatric cardiac arrest.

The Feasibility of Using Point-of-Care Ultrasound During Cardiac Arrest in Children: Rapid Apical Contractility Evaluation.

INTRODUCTION: Resuscitation guidelines emphasize minimal interruption of compressions during cardiopulmonary resuscitation. Point-of-care ultrasound (POCUS) enables the clinician to visualize cardiac contractility and central artery pulsatility. The apical 4-chamber (A4), subxiphoid (SX), and femoral artery views may be used when defibrillator pads or active compressions preclude parasternal cardiac views. We hypothesized that clinicians can rapidly obtain interpretable POCUS views in healthy children from the A4, SX, and femoral positions. METHODS: A prospective study of pediatric emergency medicine providers in an urban academic hospital was performed. Stable patients of 12 years or younger were scanned. Sonologists were each allotted 10 seconds to acquire A4, SX, and femoral views. Two attempts at each view were allowed. The primary outcome was whether cardiac and femoral artery scans were interpretable for contractility and pulsatility, respectively. The secondary outcome was whether cardiac scans were interpretable for effusion or right ventricular strain. A POCUS expert reviewed scans to confirm interpretability. RESULTS: Twenty-two sonologists performed a total of 50 scans on 22 patients. A view that was interpretable for contractility was obtained on the first attempt in 86% of A4 and 94% of SX scans. A femoral view that was interpretable for pulsatility was obtained on the first attempt in 74% of scans. Expert review was concordant with sonologist interpretation. CONCLUSIONS: Pediatric emergency medicine physicians can obtain interpretable cardiac and central artery views within 10 seconds most of the time. Point-of-care ultrasound has the potential to enhance care during pediatric resuscitation. Future studies on the impact of POCUS pulse checks in actual pediatric resuscitations should be performed.

Agreement With Pediatric Suprapatellar Bursa Effusion Assessments by Point-of-Care Ultrasound After Remote Training.

BACKGROUND: The ease of instruction for point-of-care ultrasound (POCUS) to detect suprapatellar bursa (SPB) effusions in pediatric patients is unknown. Considering in person limitations because of the coronavirus pandemic, strategies for POCUS education by remote learning are necessary. METHODS: We crafted a 90-minute didactic training that was presented via a remote learning format. The main outcome of interest was the interobserver reliability of SPB effusion assessment by novice sonologists compared with POCUS faculty. Novice sonologists were pediatric emergency medicine (PEM) fellows. Pediatric emergency medicine fellows interpreted longitudinal SPB examinations obtained in our pediatric emergency department from July 2013 to June 2020. Assessments were performed 2 months after the remote training. Pediatric emergency medicine fellows had a limited experience performing these musculoskeletal scans and were blinded to POCUS faculty and each other's assessments. Interobserver reliability was assessed with Cohen κ coefficient. Second, we calculated test characteristics of knee radiography compared with PEM POCUS faculty determination of SPB effusion by ultrasound. We further explored how effusion size measured by POCUS impacted the diagnosis by knee radiography. A receiver operator characteristic curve of knee radiography diagnosis of SPB effusion was created using the maximal height of SPB effusion by POCUS as the predictor variable. RESULTS: A total of 116 SPB scans in 71 patients were assessed. From this group, 70 scans were of affected knees and 46 scans were of contralateral, asymptomatic knees. The mean age of patients was 10 years and 46% were girl. The prevalence of SPB effusions was 42%. The κ coefficients between the 3 novice sonologists and POCUS faculty were 0.75 (0.62-0.87), 0.77 (0.65-0.89), and 0.83 (0.72-0.93) with 88%, 89%, and 91% agreement. Knee radiography exhibited an overall sensitivity of 65% (95% confidence interval [CI], 46-79%), specificity of 84% (95% CI, 60-97%), negative predictive value of 55% (95% CI, 43-66%), and positive predictive value of 88% (95% CI, 73-96%) to diagnose SPB effusions. The area under the receiver operator characteristic curve was 0.850. With an SPB height cutoff of 4 mm as true positives, radiography had a sensitivity of 81% and a specificity of 83%. CONCLUSIONS: After a remote teleconference didactic session, PEM fellows were able to successfully diagnose SPB effusions using a longitudinal view with substantial interobserver reliability. Knee radiography exhibited limited sensitivity to rule out SPB effusions.

Thyrotoxicosis in a Postpartum Adolescent: A Simulation Case for Emergency Medicine Providers.

Introduction: Thyroid storm is a rare but life-threatening disease process that may be difficult to recognize and mimics other disease processes. It is critical for the emergency medicine clinician to be able to recognize thyroid storm in patients in order to effectively stabilize and treat them. Methods: In this standardized patient case, learners were faced with a 17-year-old postpartum woman presenting to the emergency department with respiratory distress and altered mental status secondary to thyroid storm. The target learners were emergency department providers, including residents, medical students, and advanced practice practitioners. Providers were expected to identify signs and symptoms of thyroid storm and to initiate appropriate diagnostic workup and management of this complex patient. Debriefing followed the simulation using a debriefing guide and PowerPoint presentation. Results: Thirty-four learners participated in this simulation. All learners agreed or strongly agreed that the simulation case was relevant to their work, and 97% agreed or strongly agreed that it was effective in teaching thyroid storm management skills. Eighty-five percent felt that following the simulation, they would be confident in their ability to recognize thyroid storm in a postpartum patient and to recognize and manage respiratory distress and altered mental status in a postpartum patient. Discussion: Learners felt that this case was effective in teaching the skills necessary for caring for postpartum patients with respiratory distress and altered mental status. Future directions include conducting the simulation in situ to include multidisciplinary teams and increasing the learner pool to include OB/GYN residents.