Rapid cycle deliberate practice to improve airway skills and performance of trainees in a pediatric emergency department.

Objective: The study objective was to determine the effect of a rapid cycle deliberate practice (RCDP) program on simulated and actual airway skills by pediatric emergency medicine (PEM) fellows. Methods: We designed and implemented a 12-month RCDP airway skills curriculum for PEM fellows at an academic pediatric institution. The curriculum was designed using airway training literature, RCDP principals, and internal quality assurance airway video review program. Simulation training scenarios increased in complexity throughout the curriculum. PEM fellows participated in monthly sessions. Two PEM faculty facilitated the sessions, utilizing a step-by-step objective structured clinical evaluation (OSCE)-style tool for each scenario. Data were collected for all four levels of the Kirkpatrick Model of Training Evaluation-participant response (reaction, pre-post session survey), skills performance in the simulation setting (learning, pre-post OSCE), skills performance for actual patients (behavior, video review), and patient outcomes (results, video review). Results: During the study period (August 2021 to June 2022), 13 PEM fellows participated in 112 sessions (mean nine sessions per fellow). PEM fellows reported improved comfort in all domains of airway management, including intubation performance. Participant OSCE scores improved posttraining (pretraining median score for trainees 57 [IQR 57-59], posttraining median 61 [IQR 61-62], p = 0.0005). Over the 12 months, PEM fellows performed 45 intubation attempts in the pediatric emergency department (median patient age 4 years [IQR 1-9 years]). Compared to a 5-year historical cohort, participants had higher first-pass success (87% vs. 71%, p = 0.028) and shorter attempt duration (22 s vs. 29 s, p = 0.018). There was no significant difference in the frequency of oxyhemoglobin desaturation in the training period versus the historical period (7% vs. 15%, p = 0.231). Conclusions: At multiple levels of educational outcomes, including participant behavior and patient outcomes, an RCDP program was associated with improved airway skills and performance of PEM fellows.

Structured Callouts, the Shared Mental Model, and Teamwork: A Video-Based Study in a Pediatric Emergency Department.

OBJECTIVES: The shared mental model is essential to high-quality resuscitations. A structured callout (SCO) is often performed to establish the shared mental model, but the literature on SCOs is limited. The objectives of this study are to describe performance of SCOs during pediatric medical emergencies and to determine whether a SCO is associated with better teamwork. METHODS: This was a retrospective study in the resuscitation area of an academic pediatric emergency department, where performance of a SCO is a standard expectation. Only medical or nontrauma patients were eligible for inclusion. Data collection was performed by structured video review by 2 observers and verified by a third blinded observer. A SCO was defined as team leader (Pediatric Emergency Medicine fellow or faculty physician) verbalization of at least 1 element of the patient history/examination or an assessment of patient physiology and 1 element of the diagnostic or therapeutic plan. We independently measured teamwork using the Teamwork Emergency Assessment Measure (TEAM) tool. RESULTS: We reviewed 60 patient encounters from the pediatric emergency department resuscitation area between April 2018 and June 2020. Median patient age was 6 years; the team leader was a Pediatric Emergency Medicine fellow in 55% of encounters. The physician team leader performed a SCO in 38 (63%) of patient encounters. The TEAM scores were collected for 46 encounters. Mean TEAM score (SD) was 42.3 (1.7) in patients with a SCO compared with 40.0 (3.0) in those without a SCO ( P = 0.007). CONCLUSIONS: Performance of a SCO was associated with better teamwork, but the difference was of unclear clinical significance.

Association between the presence of an advanced airway and ventilation rate during pediatric CPR: A report from the Videography in Pediatric Resuscitation (VIPER) collaborative.

OBJECTIVE: To determine the association between presence of an advanced airway during pediatric cardiopulmonary resuscitation (CPR) and ventilation rates. METHODS: Prospective observational study, January 2017 to June 2020. Patients ≤18 years receiving CC for ≥2 minutes were enrolled. Ventilation rate and type of airway (advanced airway (AA), either endotracheal tube (ETT) or supraglottic airway (SGA); or natural airway (NA)) were collected from video review and analyzed in 'CPR segments' (periods of CPR by individual providers). Ventilation rate (breaths per minute, bpm) was calculated for each segment; hyperventilation was defined as >12 bpm according to 2015 American Heart Association guidelines. Univariate analysis between airway type was done by χ2 testing. Multivariate regression was used to determine the association between the presence of AA with hyperventilation while controlling for within-patient covariance. RESULTS: 779 CPR segments from 94 CPR event were analyzed. The mean ventilation rate per CPR segment across all events was 22 bpm (±16 bpm)). Mean ventilation rates were higher with AA, either ETT (24 ± 17 bpm) or SGA (34 ± 19 bpm), than with NA (17 ± 14, p < 0.001). Hyperventilation occurred more often with AA in place (ETT: 68%; SGA: 96%; NA: 43%; p < 0.001). The presence of AA was independently associated with hyperventilation (AOR 9.3, 95% CI 4.3-20.1). CONCLUSIONS: During pediatric CPR, hyperventilation occurs more often with an AA in place than during CPR with NA. Future research should focus on respiratory physiology during pediatric CPR to determine optimal ventilation rate(s) during pediatric cardiac arrest.

A Video-Based Study of Emergency Medical Services Handoffs to a Pediatric Emergency Department.

BACKGROUND: Emergency medical services (EMS) to emergency department (ED) handoffs are important moments in patient care, but patient information is communicated inconsistently. OBJECTIVE: The aim of this study was to describe the duration, completeness, and communication patterns of patient handoffs from EMS to pediatric ED clinicians. METHODS: We conducted a video-based, prospective study in the resuscitation suite of an academic pediatric ED. All patients 25 years and younger transported via ground EMS from the scene were eligible. We completed a structured video review to assess frequency of transmission of handoff elements, handoff duration, and communication patterns. We compared outcomes between medical and trauma activations. RESULTS: We included 156 of 164 eligible patient encounters from January to June 2022. Mean (SD) handoff duration was 76 (39) seconds. Chief symptom and mechanism of injury were included in 96% of handoffs. Most EMS clinicians communicated prehospital interventions (73%) and physical examination findings (85%). However, vital signs were reported for fewer than one-third of patients. EMS clinicians were more likely to communicate prehospital interventions and vital signs for medical compared with trauma activations (p < 0.05). Communication challenges between EMS clinicians and the ED were common; ED clinicians interrupted EMS or requested information already communicated by EMS in nearly one-half of handoffs. CONCLUSIONS: EMS to pediatric ED handoffs take longer than recommended and frequently lack important patient information. ED clinicians engage in communication patterns that may hinder organized, efficient, and complete handoff. This study highlights the need for standardizing EMS handoff and ED clinician education regarding communication strategies to ensure active listening during EMS handoff.

High-risk criteria for the physiologically difficult paediatric airway: A multicenter, observational study to generate validity evidence.

BACKGROUND: Single-center studies have identified risk factors for peri-intubation cardiac arrest in the emergency department (ED). The study objective was to generate validity evidence from a more diverse, multicenter cohort of patients. METHODS: We completed a retrospective cohort study of 1200 paediatric patients who underwent tracheal intubation in eight academic paediatric EDs (150 per ED). The exposure variables were 6 previously studied high-risk criteria for peri-intubation arrest: (1) persistent hypoxemia despite supplemental oxygen, (2) persistent hypotension, (3) concern for cardiac dysfunction, (4) post-return of spontaneous circulation (ROSC), (5) severe metabolic acidosis (pH < 7.1), and (6) status asthmaticus. The primary outcome was peri-intubation cardiac arrest. Secondary outcomes included extracorporeal membrane oxygenation (ECMO) cannulation and in-hospital mortality. We compared all outcomes between patients that met one or more versus no high-risk criteria, using generalized linear mixed models. RESULTS: Of the 1,200 paediatric patients, 332 (27.7%) met at least one of 6 high-risk criteria. Of these, 29 (8.7%) suffered peri-intubation arrest compared to zero arrests in patients meeting none of the criteria. On adjusted analysis, meeting at least one high-risk criterion was associated with all 3 outcomes - peri-intubation arrest (AOR 75.7, 95% CI 9.7-592.6), ECMO (AOR 7.1, 95% CI 2.3-22.3) and mortality (AOR 3.4, 95% 1.9-6.2). Four of 6 criteria were independently associated with peri-intubation arrest: persistent hypoxemia despite supplemental oxygen, persistent hypotension, concern for cardiac dysfunction, and post-ROSC. CONCLUSIONS: In a multicenter study, we confirmed that meeting at least one high-risk criterion was associated with paediatric peri-intubation cardiac arrest and patient mortality.

Coaching the coach: A randomized controlled study of a novel curriculum for procedural coaching during intubation.

Background: Videolaryngoscopy allows real-time procedural coaching during intubation. This study sought to develop and assess an online curriculum to train pediatric emergency medicine attending physicians to deliver procedural coaching during intubation. Methods: Curriculum development consisted of semistructured interviews with 12 pediatric emergency medicine attendings with varying levels of airway expertise analyzed using a constructivist grounded theory approach. Following development, the curriculum was implemented and assessed through a multicenter randomized controlled trial enrolling participants in one of three cohorts: the coaching module, unnarrated video recordings of intubations, and a module on ventilator management. Participants completed identical pre and post assessments asking them to select the correct coaching feedback and provided reactions for qualitative thematic analysis. Results: Content from interviews was synthesized into a video-enhanced 15-min online coaching module illustrating proper technique for intubation and strategies for procedural coaching. Eighty-seven of 104 randomized physicians enrolled in the curriculum; 83 completed the pre and post assessments (80%). The total percentage correct did not differ between pre and post assessments for any cohort. Participants receiving the coaching module demonstrated improved performance on patient preparation, made more suggestions for improvement, and experienced a greater increase in confidence in procedural coaching. Qualitative analysis identified multiple benefits of the module, revealed that exposure to video recordings without narration is insufficient, and identified feedback on suggestions for improvement as an opportunity for deliberate practice. Conclusions: This study leveraged clinical and educational digital technology to develop a curriculum dedicated to the content expertise and coaching skills needed to provide feedback during intubations performed with videolaryngoscopy. This brief curriculum changed behavior in simulated coaching scenarios but would benefit from additional support for deliberate practice.

The Importance of Median Glossoepiglottic Fold Engagement on Laryngeal View and Tracheal Intubation Success in Children.

STUDY OBJECTIVE: Our study objective was to determine if the location of laryngoscope blade tip placement is associated with clinically important tracheal intubation outcomes in a pediatric emergency department. METHODS: We conducted a video-based observational study of pediatric emergency department patients undergoing tracheal intubation with standard geometry Macintosh and Miller video laryngoscope blades (Storz C-MAC, Karl Storz). Our main exposures were direct lifting of the epiglottis versus blade tip placement within the vallecula and median glossoepiglottic fold engagement versus not when the blade tip was placed in the vallecula. Our main outcomes were glottic visualization and procedural success. We compared measures of glottic visualization between successful and unsuccessful attempts using generalized linear mixed models. RESULTS: Proceduralists placed the blade tip in the vallecula (indirectly lifting the epiglottis) during 123 (71.9%) of 171 attempts. When compared with indirectly lifting the epiglottis, directly lifting the epiglottis was associated with improved visualization-by percentage of glottic opening (POGO) (adjusted odds ratio [AOR], 11.0; 95% confidence interval [CI], 5.1 to 23.6) and modified Cormack-Lehane (AOR, 21.5; 95% CI, 6.6 to 69.9). When in the vallecula, engagement of the median glossoepiglottic fold was associated with improved POGO (AOR, 3.6; 95% CI, 1.9 to 6.8), modified Cormack-Lehane (AOR, 3.9; 95% CI, 1.1 to 14.1), and success (AOR, 9.9; 95% CI, 2.3 to 43.7). CONCLUSIONS: Emergency tracheal intubation can be performed in children at a high level by directly or indirectly lifting the epiglottis. If indirectly lifting the epiglottis, median glossoepiglottic fold engagement is helpful in maximizing glottic visualization and procedural success.

The effect of hand position on chest compression quality during CPR in young children: Findings from the Videography in Pediatric Resuscitation (VIPER) collaborative.

OBJECTIVE: To determine the effect of hand position on chest compression (CC) quality during CPR in young children. METHODS: Prospective observational exploratory study. Patients < 8 years receiving CC for > 2 minutes were enrolled. Data was collected from video review and CC monitor device and analyzed in 'CC segments' (periods of CC by individual providers). Four techniques were compared: two thumbs (2 T), hands encircling the chest; two fingers (2F) on the sternum; one hand on sternum (1H); two hands on sternum (2H). Univariate analysis of CC rate and depth between hand positions was performed through nonparametric testing, stratified by age category. RESULTS: 47 patients received 824 minutes of CC. Among 270 CC segments in infants < 1 yo, 2 T was used in 27%; 2F 3%; 1H 18%; 2H 26%. Among 189 CC segments in children aged 1 to 8 yo, 1H was used in 26%; 2H 74%. Across all segments, median CC rate was 117 cpm (IQR 110-125). Median depth was 2.92 cm (IQR 2.44 - 4.04) in infants < 1 yo, 3.56 cm (IQR 2.92 - 4.14) in children 1 to 8 yo. 1H achieved greater depth than 2 T in infants (p < 0.01), and 2H achieved greater depth than 1H in children > 1 (p < 0.001). CONCLUSIONS: In infants, 1H resulted in greater CC depth than 2 T. In children 1 to 8 yo, 2H resulted in greater depth than 1H.. These data suggest that different hand position during CPR in young children from what is currently recommended may result in better CPR quality.

The Concise Assessment of Leader Management Tool: Evaluation of Healthcare Provider Leadership During Real-Life Pediatric Emergencies.

INTRODUCTION: Resuscitation events in pediatric critical and emergency care are high risk, and strong leadership is an important component of an effective response. The Concise Assessment of Leadership Management (CALM) tool, designed to assess the strength of leadership skills during pediatric crises, has shown promising validity and reliability in simulated settings. The objective of this study was to generate further validity and reliability evidence for the CALM by applying it to real-life emergency events. METHODS: A prospective, video-based study was conducted in an academic pediatric emergency department. Three reviewers independently applied the CALM tool to the assessment of pediatric emergency department physicians as they led both a cardiac arrest and a sepsis event. Time to critical event (epinephrine, fluid, and antibiotic administration) was collected via video review. Based on Kane's framework, we conducted fully crossed, person × event × rater generalizability (G) and decision (D) studies. Interrater reliability was calculated using Gwet AC 2 and intraclass correlation coefficients. Time to critical events was correlated with CALM scores using Spearman coefficient. RESULTS: Nine team leaders were assessed in their leadership of 2 resuscitations each. The G coefficient was 0.68, with 26% subject variance, 20% rater variance, and no case variance. Thirty-three percent of the variance (33%) was attributed to third-order interactions and unknown factors. Gwet AC 2 was 0.3 and intraclass correlation was 0.58. The CALM score and time to epinephrine correlated at -0.79 ( P = 0.01). The CALM score and time to fluid administration correlated at -0.181 ( P = 0.64). CONCLUSIONS: This study provides additional validity evidence for the CALM tool's use in this context if used with multiple raters, aligning with data from the previous simulation-based CALM validity study. Further development may improve reliability. It also serves as an exemplar of the rigors of conducting validity work within medical simulation.

Making a move: Using simulation to identify latent safety threats before the care of injured patients in a new physical space.

BACKGROUND: In today's rapidly changing health care environment, hospitals are expanding into newly built spaces. Preserving patient safety by identifying latent safety threats (LSTs) in advance of opening a new physical space is key to continued excellent care. At our level 1 pediatric trauma center, the hospital undertook a 5-year project to build a critical care tower, including a new emergency department with five trauma bays. To allow for identification and mitigation of LSTs before opening, we performed simulation-based clinical systems testing. METHODS: Eight simulation scenarios were developed, based on actual patient presentations, incorporating a variety of injury patterns. Scenarios included workflow and movement from the helipad and squad entrance as well as to radiology, the operating room, and the pediatric intensive care unit. A multiple resuscitation scenario was also designed to test the use of all five bays simultaneously. Multidisciplinary high-fidelity simulations were conducted in the new tower. Key trauma and emergency department stakeholders facilitated all sessions, using a structured framework for systems integration debriefing framework and failure mode and effect analysis to identify and prioritize LSTs, respectively. RESULTS: Eight sessions were conducted for 2 months. A total of 201 staff participated, including trauma surgeons, respiratory therapists, nurses, emergency physicians, x-ray technicians, pharmacists, emergency medical services, and operating room staff. In total, 118 LSTs (average of 14.8/session) were identified. Latent safety threats were categorized. An action plan for mitigation was developed after applying failure mode and effects analysis prioritization scores (based on severity, probability, and ease of detection). CONCLUSION: Systems-focused trauma simulations identified a large number of LSTs before the opening of a new critical care building. Identification of LSTs is feasible and facilitates mitigation before actual patient care begins, improving patient safety. LEVEL OF EVIDENCE: Therapeutic/Care Management; Level IV.

Video-Assisted Laryngoscopy for Pediatric Tracheal Intubation in the Emergency Department: A Multicenter Study of Clinical Outcomes.

STUDY OBJECTIVE: To explore the association between video-assisted laryngoscopy (use of a videolaryngoscope regardless of where laryngoscopists direct their gaze), first-attempt success, and adverse airway outcomes. METHODS: We conducted an observational study using data from 2 airway consortiums that perform prospective surveillance: the National Emergency Airway Registry for Children (NEAR4KIDS) and a pediatric emergency medicine airway education collaborative. Data collected included patient and procedural characteristics and procedural outcomes. We performed multivariable analyses of the association of video-assisted laryngoscopy with individual patient outcomes and evaluated the association between site-level video-assisted laryngoscopy use and tracheal intubation outcomes. RESULTS: The study cohort included 1,412 tracheal intubation encounters performed from January 2017 to March 2021 across 11 participating sites. Overall, the first-attempt success was 70.0%. Video-assisted laryngoscopy was associated with increased odds of first-attempt success (odds ratio [OR] 2.01; 95% confidence interval [CI], 1.48 to 2.73) and decreased odds of severe adverse airway outcomes (OR 0.70; 95% CI, 0.58 to 0.85) including decreased severe hypoxia (OR 0.69; 95% CI, 0.55 to 0.87). Sites varied substantially in the use of video-assisted laryngoscopy (range from 12.9% to 97.8%), and sites with high use of video-assisted laryngoscopy (> 80%) experienced increased first-attempt success even after adjusting for individual patient laryngoscope use (OR 2.30; 95% CI, 1.79 to 2.95). CONCLUSION: Video-assisted laryngoscopy is associated with increased first-attempt success and fewer adverse airway outcomes for patients intubated in the pediatric emergency department. There is wide variability in the use of video-assisted laryngoscopy, and the high use is associated with increased odds of first-attempt success.

See one, see one, teach one - Decisions on allocating intubation opportunities in pediatric emergency medicine.

Background: Decisions about who should perform tracheal intubation in academic settings must balance the needs of trainees to develop competency in pediatric intubation with patient safety. Airway protocols during the COVID-19 pandemic may have reduced opportunities for trainees, representing an opportunity to examine the impact of shifting laryngoscopy responsibilities away from trainees. Methods: This observational study combined data from 11 pediatric emergency departments in North America participating in either the National Emergency Airway Registry for Children (NEAR4KIDS) or a national pediatric emergency medicine airway education collaborative. Sites provided information on airway protocols, patient and procedural characteristics, and clinical outcomes. For the pre-pandemic (January 2017 to March 2020) and pandemic (March 2020 to March 2021) periods, we compared tracheal intubation opportunities by laryngoscopist level of training and specialty. We also compared first-attempt success and adverse airway outcomes between the two periods. Results: There were 1129 intubations performed pre-pandemic and 283 during the pandemic. Ten of 11 sites reported a COVID-19 airway protocol-8 specified which clinician performs tracheal intubation and 10 advocated for videolaryngoscopy. Both pediatric residents and pediatric emergency medicine fellows performed proportionally fewer tracheal intubation attempts during the pandemic: 1.1% of all first attempts versus 6.4% pre-pandemic for residents (p < 0.01) and 38.4% versus 47.2% pre-pandemic for fellows (p = 0.01). Pediatric emergency medicine fellows had greater decrease in monthly intubation opportunities for patients <1 year (incidence rate ratio = 0.35, 95% CI: 0.2, 0.57) than for older patients (incidence rate ratio = 0.79, 95% CI: 0.62, 0.99). Neither the rate of first-attempt success nor adverse airway outcomes differed between pre-pandemic and pandemic periods. Conclusions: The COVID-19 pandemic led to pediatric institutional changes in airway management protocols and resulted in decreased intubation opportunities for pediatric residents and pediatric emergency medicine fellows, without apparent change in clinical outcomes.

Fraction of Expired Oxygen as a Measure of Preoxygenation Prior to Rapid Sequence Intubation in the Pediatric Emergency Department.

BACKGROUND: Pulse oximetry (SpO2) is a flawed measure of adequacy of preoxygenation prior to intubation. The fraction of expired oxygen (FeO2) is a promising but understudied alternative. OBJECTIVE: To investigate FeO2 as a measure of preoxygenation prior to intubation in a pediatric emergency department. METHODS: We conducted a prospective, observational study of patients 18 and younger. We collected data using video review, and FeO2 was measured via inline sampling. The main outcomes were FeO2 and SpO2 at the start of preoxygenation, end of preoxygenation/start of intubation attempt, and the end of intubation attempt. We compared FeO2 and SpO2 at the end of preoxygenation for patients with and without oxyhemoglobin desaturation. RESULTS: We enrolled 85 of 88 eligible patients during the 14-month study period. FeO2 data were available at the start of preoxygenation for 53 of 85 patients (62%), and for the end of preoxygenation for 59 of 85 patients (69%). Median FeO2 at the start and end of preoxygenation was 90% (interquartile range [IQR] 88, 92) and 90% (IQR 88, 92). Median SpO2 at the start and end of preoxygenation was 100% (IQR 100, 100). There were 11 episodes of desaturation, with median FeO2 at the start of intubation attempt of 89.5 (IQR 54.5, 91.5) and median SpO2 of 100 (IQR 99, 100). Patients who did not have a desaturation event had a median FeO2 of 90.0 (IQR 88.0, 92.0). CONCLUSIONS: Measuring FeO2 during rapid sequence intubation is challenging with feasibility limitations, but may be a more discriminatory metric of adequate preoxygenation.

Implementation of a Pediatric Emergency Department Cardiopulmonary Resuscitation Quality Bundle.

BACKGROUND AND OBJECTIVES: We have previously demonstrated that standardized handoff from prehospital to hospital clinicians can improve cardiopulmonary resuscitation performance for out-of-hospital cardiac arrest (OHCA) patients in a pediatric emergency department (ED). We leveraged our previous quality improvement initiative to standardize performance of a bundle of 5 discrete aspects of resuscitation for OHCA patients: intravenous or intraosseous catheter (IV/IO) access, epinephrine administration, advanced airway placement, end-tidal capnography (ETCO2) application, and cardiac rhythm verbalization. We aimed to reduce time to completion of the bundle from 302 seconds at baseline to less than 120 seconds within 1 year. METHODS: A multidisciplinary team performed video-based review of actual OHCA resuscitations in our pediatric ED. We designed interventions aimed at key drivers of bundle performance. Interventions included specific roles and responsibilities and a standardized choreography for each bundle element. To assess the effect of the interventions, time to performance of each bundle element was measured by standardized review of video recordings from our resuscitation bay. Balancing measures were time off the chest and time to defibrillator pad placement. RESULTS: We analyzed 56 cases of OHCA from May 2019 through May 2021. Time to bundle completion improved from a baseline of 302 seconds to 147 seconds. Four of 5 individual bundle elements also demonstrated significant improvement. These improvements were sustained without any negative impact on balancing measures. CONCLUSIONS: Standardized choreography for the initial minutes of ED cardiac arrest resuscitation shows promise to decrease time to crucial interventions in children presenting to the pediatric ED with OHCA.

Emergency Department Visits Before Sudden Unexpected Infant Death: A Touchpoint for Unsafe Sleep Reduction.

OBJECTIVES: Unsafe sleep remains a leading cause of preventable sudden unexpected infant death (SUID). Infants frequently visit emergency departments (EDs), but the frequency of visits before SUID is unknown. The objective of this study was to determine how often SUID infants visited a pediatric ED or urgent care (UC) before death. METHODS: We performed a retrospective study of infant deaths in the county of a large, academic pediatric institution. We linked institutional records with coroner reports and death scene investigations. We excluded deaths associated with childbirth, prematurity, injury, or underlying medical condition. We characterized all SUID infants, focusing on unsafe sleep factors detailed in the medical record and scene reports. The main outcome was ED/UC visit(s) before the visit for SUID. RESULTS: Seventy-three of 122 infant deaths met inclusion criteria for SUID over 76 months (April 2014-July 2020). Median age at death was 87 days (IQR 58, 137); 68 (93%) died before 6 months-of-age. Twenty infants (27%) had an ED/UC visit before SUID; mean visits for these infants were 1.7 (SD 0.8). Median days between the last ED/UC visit and SUID was 39; five infants visited the ED/UC within 2 weeks of SUID. Most visits were for minor medical conditions. All 73 SUID infants had at least one unsafe sleep factor; 88% had ≥2 and 56% ≥3. CONCLUSIONS: Many SUID infants visited a pediatric ED/UC before death, and unsafe sleep factors were found in every case. Early infancy ED/UC visits may present an opportunity for targeted prevention efforts.

Don't Hold Your Breath-A Video-Based Study of Procedural Intervals During Pediatric Rapid Sequence Intubation.

OBJECTIVE: Develop a framework for data collection to determine the contributions of both laryngoscopy and tube delivery intervals to the apneic period in unsuccessful and successful attempts among patients undergoing rapid sequence intubation (RSI) in a pediatric emergency department (PED). DESIGN: This was a retrospective, observational study of RSI. SETTING: An academic PED. PATIENTS: A consecutive sample of all intubations attempts of first provider physicians performing RSI in the shock trauma suite over a 10-month period in 2018-2019. MEASUREMENT AND MAIN RESULTS: Data were collected by structured video review. The main outcome was the duration of the laryngoscopy and tube delivery intervals per attempt. We compared interval duration between successful and unsuccessful attempts, adjusting for age, accounting for repeated measures, and clustering by provider. There were 69 patients with 89 total intubation attempts. Sixty-three patients were successfully intubated by the first provider (91%). Pediatric emergency medicine fellows performed 54% of the attempts. The median duration of the apneic period per attempt was longer in unsuccessful attempts (57 vs 44 seconds; median of difference, -10.5; 95% confidence interval [CI], -17.0 to -4.0). The duration of laryngoscopy was similar (18 vs 13 seconds; median of difference, -3.5; 95% CI, -8.0 to 1.0), but tube delivery was longer in unsuccessful attempts (25.5 vs. 11 seconds; median of difference, -12.5; 95% CI, -17.0 to -4.0). These results did not change when adjusting for age or clustering by provider. CONCLUSIONS: We successfully developed a specific, time-based framework for the contributors to prolonged apnea in RSI. Prolonged tube delivery accounted for more of the apneic period. Future studies and improvement should focus on problems during tube delivery in the PED.

Videographic Assessment of Tracheal Intubation Technique in a Network of Pediatric Emergency Departments: A Report by the Videography in Pediatric Resuscitation (VIPER) Collaborative.

STUDY OBJECTIVE: We sought to describe the tracheal intubation technique across a network of children's hospitals and explore the association between intubation technical adjuncts and first-attempt success as well as between laryngoscopy duration and the incidence of hypoxemia. METHODS: We conducted a prospective observational study in 4 tertiary pediatric emergency departments of the Videography in Pediatric Resuscitation Collaborative. Children undergoing tracheal intubation captured on video were eligible for inclusion. Data on intubator background, patient characteristics, technical characteristics (eg, use of videolaryngoscopy and apneic oxygenation), and procedural outcomes were obtained through a video review. RESULTS: We obtained complete data on first attempts in 494 patients. The first-attempt success rate was 67%, the median laryngoscopy duration was 35 seconds (interquartile range 25 to 40), and hypoxemia occurred in 15% of the patients. Videolaryngoscopy was used for at least a part of the procedure in 48% of the attempts, and it had no association with success or the incidence of hypoxemia. Attempts in which videolaryngoscopy was used for the entire procedure (compared with direct laryngoscopy for the entire procedure) had a longer duration (the difference between the medians was 6 seconds; 95% confidence interval, 1 to 12 seconds). Intubation attempts longer than 45 seconds had a greater incidence of hypoxemia (29% versus 6%). Furthermore, apneic oxygenation was used in 8% of the first attempts. CONCLUSION: Among children undergoing tracheal intubation in a group of pediatric emergency departments, first-attempt success occurred in 67% of the patients. Videolaryngoscopy use was associated with longer laryngoscopy durations but was not associated with success or the incidence of hypoxemia.

Video screen visualization patterns when using a video laryngoscope for tracheal intubation: A systematic review.

OBJECTIVE: Published studies of video laryngoscopes are often limited by the lack of a clear definition of video laryngoscopy (VL). We performed a systematic review to determine how often published studies of VL report on video screen visualization. METHODS: We searched PubMed, EMBASE and Scopus for interventional and observational studies in which a video laryngoscope equipped with a standard geometry blade was used for tracheal intubation. We excluded simulation based studies. Our primary outcome was data on video laryngoscope screen visualization. Secondary outcomes were explicit methodology for screen visualization. RESULTS: We screened 4838 unique studies and included 207 (120 interventional and 87 observational). Only 21 studies (10% of 207) included any data on video screen visualization by the proceduralist, 19 in a yes/no fashion only (ie, screened viewed or not) and 2 with detail beyond whether the screen was viewed or not. In 11 more studies, visualization patterns could be inferred based on screen availability and in 16 more studies, the methods section stated how screen visualization was expected to be performed without reporting data collection on how the proceduralist interacted with the video screen. Risk of bias was high in the majority of included studies. CONCLUSIONS: Published studies of VL, including many clinical trials, rarely include data on video screen visualization. Given the nuances of using a video laryngoscope, this is a critical deficiency, which largely prevents us from knowing the treatment effect of using a video laryngoscope in clinical practice. Future studies of VL must address this deficiency.