Rapid sequence intubation for pediatric emergency patients: higher frequency of failed attempts and adverse effects found by video review

Vital sign monitoring during out-of-hospital pediatric advanced airway management

OBJECTIVE

To evaluate physiologic monitoring in pediatric patients undergoing out-of-hospital advanced airway management.

METHODS

Retrospective case series of pediatric patients (<18 years) with advanced airways placed in the out-of-hospital setting. Patients given cardiopulmonary resuscitation (CPR) or defibrillation before the first advanced airway attempt were excluded. Reviewers abstracted physiologic data from the patient monitor files and patient care reports. The primary outcome was the proportion of time pulse oximetry was in place during airway management. Other outcomes included the proportion of time ECG monitoring and waveform end-tidal capnography were in place as well as the incidence of oxygen desaturation events.

RESULTS

We evaluated 23 pediatric patients with a mean age of 10.7 years (SD 6.5). Eleven of 18 (61%) children with medication-facilitated intubation had pulse oximetry in place when the first medication was documented as given. Eight of 18 (44%) had ECG monitoring, 12 of 18 (66%) had waveform capnography, and 5 of 18 (28%) had a blood pressure check within the 3 minutes before receiving the first medication. In the 3-minute preoxygenation phase, pulse oximetry was in place for an average of 1.4 minutes (47%, SD 0.37) and a visible photoplethysmogram (PPG) waveform obtained from the pulse oximeter was present for 0.6 minutes (20%, SD 0.34). During airway device placement, pulse oximetry was in place 73% (SD 0.39) of the time and 30% (SD 0.41) of the time there was a visible PPG waveform.

CONCLUSIONS

Pediatric patients had critical deficits in physiologic monitoring during advanced airway management.

Identification of the Physiologically Difficult Airway in the Pediatric Emergency Department

BACKGROUND

The risk factors for peri-intubation cardiac arrest in critically ill children are incompletely understood. The study objective was to derive physiologic risk factors for deterioration during tracheal intubation in a pediatric emergency department (PED).

METHODS

This was a retrospective cohort study of patients undergoing emergency tracheal intubation in a PED. Using the published literature and expert opinion, a multidisciplinary team developed high-risk criteria for peri-intubation arrest: 1) hypotension, 2) concern for cardiac dysfunction, 3) persistent hypoxemia, 4) severe metabolic acidosis (pH < 7.1), 5) post-return of spontaneous circulation (ROSC), and 6) status asthmaticus. We completed a structured review of the electronic health record for a historical cohort of patients intubated in the PED. The primary outcome was peri-intubation arrest. Secondary outcomes included tracheal intubation success rate, extracorporeal membrane oxygenation (ECMO) activation, and in-hospital mortality. We compared outcomes between patients meeting one or more versus no high-risk criteria.

RESULTS

Peri-intubation cardiac arrest occurred in 5.6% of patients who met at least one high-risk criterion compared to 0% in patients meeting none (5.6% difference, 95% confidence interval [CI] = 1.0 to 18.1, p = 0.028). Patients meeting at least one criterion had higher rates of any postintubation cardiac arrest in the PED (11.1% vs. 0%, 11.1% difference, 95% CI = 4.1 to 25.3, p = 0.0007), in-hospital mortality (25% vs. 2.3%, 22.7% difference, 95% CI = 11.0 to 38.9, p < 0.0001), ECMO activation (8.3% vs. 0%, 8.3% difference, 95% CI = 2.5 to 21.8, p = 0.004), and lower likelihood of first-pass intubation success (47.2% vs. 66.1%, -18.9% difference, 95% CI = -35.5 to -1.5, p = 0.038), respectively.

CONCLUSIONS

We have developed criteria that successfully identify physiologically difficult airways in the PED. Children with hypotension, persistent hypoxemia, concern for cardiac dysfunction, severe metabolic acidosis, status asthmaticus or who are post-ROSC are at higher risk for peri-intubation cardiac arrest and in-hospital mortality. Further multicenter investigation is needed to validate our findings.

Technical factors associated with first-pass success during endotracheal intubation in children: analysis of videolaryngoscopy recordings

BACKGROUND

First-pass success (FPS) during intubation is associated with lower morbidity for paediatric patients. Using videolaryngoscopy (VL) recordings, we reviewed technical aspects of intubation, including factors associated with FPS in children.

METHODS

We performed a retrospective study of intubation attempts performed using video-assisted laryngoscopy in a paediatric ED between January 2014 and December 2018. Data were abstracted from a quality assurance database, the electronic medical record and VL recordings. Our primary outcome was FPS. Intubation practices were analysed using descriptive statistics. Patient and procedural characteristics associated with FPS in univariate testing and clinical factors identified from the literature were included as covariates in a multivariable logistic regression. An exploratory analysis examined the relationship between position of the glottic opening on the video screen and FPS.

RESULTS

Intubation was performed during 237 patient encounters, with 231 using video-assisted laryngoscopy. Data from complete video recordings were available for 129 attempts (59%); an additional 31 (13%) had partial recordings. Overall, 173 (73%) of first attempts were successful. Adjusting for patient age, placing the blade tip into the vallecula adjusted OR ((aOR) 7.2 (95% CI 1.7 to 30.1)) and obtaining a grade 1 or 2a-modified Cormack-Lehane glottic view on the videolaryngoscope screen (aOR 6.1 (95% CI 1.5 to 25.7) relative to grade 2b) were associated with increased FPS in the subset of patients with complete recordings. Exploratory analysis suggested that FPS is highest (81%) and duration is shortest when the glottic opening is located in the second quintile of the video screen.

CONCLUSIONS

Placement of the blade tip into the vallecula regardless of blade type, sufficient glottic visualisation and locating the glottic opening within the second quintile of the video screen were associated with FPS using video-assisted laryngoscopy in the paediatric ED.

Assessment of Nonroutine Events During Intubation After Pediatric Trauma

BACKGROUND

Intubation in the early postinjury phase can be a high-risk procedure associated with an increased risk of mortality when delayed. Nonroutine events (NREs) are workflow disruptions that can be latent safety threats in high-risk settings and may contribute to adverse outcomes.

MATERIALS AND METHODS

We reviewed videos of intubations of injured children (age<17 y old) in the emergency department occurring between 2014 and 2018 to identify NREs occurring between the decision to intubate and successful intubation ("critical window").

RESULTS

Among 34 children requiring intubation, the indications included GCS≤8 (n = 20, 58.8%), cardiac arrest (n = 6, 17.6%), airway protection (n = 5, 14.7%), and respiratory failure (n = 3, 8.8%). The median duration of the "critical window" was 7.5 min (range 1.4-27.5 min), with a median of six NREs per case in this period (range 2-30). Most NREs (n = 159, 61.9%) delayed workflow, with 31 (12.1%) of these delays each lasting more than one minute. Eighty-seven NREs (33.9%) had a potential for harm but did not lead to direct patient harm. The most common NREs directly related to the intubation process were poor positioning for intubation (n = 23, 8.9%) and difficulty passing the endotracheal tube (n = 5, 1.9%), with most being attributed to the anesthesiologist performing the intubation (n = 51, range 0-7).

CONCLUSIONS

Workflow disruptions related to nonroutine events were frequent during pediatric trauma intubation and were often associated with delays and potential for patient harm. Interventions for improving the efficiency and timeliness of the critical window should focus on adherence to intubation protocol and improving communication and teamwork related to tasks in this phase.

Peri-Intubation Cardiac Arrest in the Pediatric Emergency Department: A Novel System of Care

Patients with physiologic disorders, such as hypoxemia or hypotension, are at high risk of peri-intubation cardiac arrest. Standardization improves emergency tracheal intubation safety, but no published reports describe initiatives to reduce the risk of cardiac arrest. This initiative aims to improve the care of children at risk of peri-intubation cardiac arrest in a pediatric emergency department (PED). We specifically aimed to increase the number of patients between those with peri-intubation cardiac arrest by 50%, from a baseline of 11–16, over 12-months.

Optimizing Rapid Sequence Intubation for Medical and Trauma Patients in the Pediatric Emergency Department

Introduction

Rapid sequence intubation (RSI) is a critical procedure for severely ill and injured patients presenting to the pediatric emergency department (PED). This procedure has a high risk of complications, and multiple attempts increase this risk. We aimed to increase successful intubation within two attempts, focusing on medical and trauma patients separately to identify improvement barriers for each group.

Methods

A multifaceted intervention was implemented using quality improvement methods. The analysis included adherence to the standardized process, successful intubation within two attempts, and frequency of oxygen saturations <92% during laryngoscopy. Trauma and medical patients were analyzed separately as team composition differed for each.

Results

This project began in February 2018, and we included 290 patients between April 2018 and December 2019. Adherence to the standardized process was sustained at 91% for medical patients and a baseline of 55% for trauma patients with a trend toward improvement. In May 2018, we observed and sustained special cause variations for medical patients' successful intubations within two attempts (77-89%). In September 2018, special cause variation was observed and sustained for the successful intubation of trauma patients within two attempts (89-96%). The frequency of oxygen saturation of <92% was 21% for medical patients; only one trauma patient experienced oxygen desaturation.

Conclusion

Implementation of a standardized process significantly improved successful intubations within two attempts for medical and trauma patients. Trauma teams had more gradual adherence to the standardized process, which may be related to the relative infrequency of intubations and variable team composition.

Changing the view: Video versus direct laryngoscopy for intubation in the pediatric emergency department

The aim of this study was to compare the success of first-attempt tracheal intubation in pediatric patients >1-year old performed using video versus direct laryngoscopy and compare the frequency of tracheal intubation-associated events and desaturation among these patients.Prospective observational cohort study conducted in an Academic pediatric tertiary emergency department. We compared 50 children intubated with Mcgrath Mac video laryngoscope (VL group) and an historical series of 141 children intubated with direct laryngoscopy (DL group). All patients were aged 1 to 18 years.The first attempt success rates were 68% (34/50) and 37.6% (53/141) in the VL and DL groups (P < .01), respectively. There was a lower proportion of tracheal intubation-associated events in the VL group (VL, 31.3% [15/50] vs DL, 67.8% [97/141]; P < .01) and no significant differences in desaturation (VL, 35% [14/50] vs DL 51.8% [72/141]; P = .06). The median number of attempts was 1 (range, 1-5) for the VL group and 2 (range, 1-8) for the DL group (P < .01). Multivariate logistic regression showed that video laryngoscope use was associated with higher chances of first-attempt intubation with an odds ratio of 4.5 (95% confidence interval, 1.9-10.4, P < 0.01).Compared with direct laryngoscopy, VL was associated with higher success rates of first-attempt tracheal intubations and lower rates of tracheal intubation-associated events.

Point-of-Care Ultrasound in Sternal Notch Confirms Depth of Endotracheal Tube in Children

OBJECTIVES

To determine if a saline-filled cuff seen at the suprasternal notch on ultrasound corresponds to correct endotracheal tube depth on a chest radiograph (tip at/below clavicle AND ≥ 1 cm above carina).

DESIGN

Prospective observational study.

SETTING

Tertiary Care Pediatric hospital.

PATIENTS

Patients between the ages of 0-18 years requiring nonemergent cardiac catheterizations and endotracheal intubation with a cuffed endotracheal tube were included in the study. Children with anticipated or known difficult airways were excluded.

INTERVENTIONS

Ultrasound evaluation of the neck following saline inflation of the endotracheal tube cuff.

MEASUREMENTS AND MAIN RESULTS

Ultrasonography of the patient's neck was performed following intubation by a pediatric anesthesiologist. A linear probe was used in transverse axis to identify the saline-filled cuff starting at the suprasternal notch and moving cephalad. A cine-fluoroscopic image, similar to a chest radiograph, was obtained to ascertain the endotracheal tube depth after the cuff was identified sonographically. Endotracheal tube cuffs seen on ultrasound at the suprasternal notch were compared with the endotracheal tube depth on the cine-fluoroscopic image. A total of 75 children were enrolled in the study. The endotracheal tube was seen sonographically at the suprasternal notch in 70 patients of which 60 had complete data (an adequate chest radiograph available for review). Patient ages ranged from 2 months to 18 years with a median age of 4 years. The median endotracheal tube tip to carina distance was 2.4 cm (interquartile range, 1.75-3.3 cm.) The endotracheal tube tip to carina distance was greater than or equal to 1 cm in 57 out of the 60 patients. Endotracheal tube cuff at the suprasternal notch on ultrasound corresponded with correct endotracheal tube depth on chest radiograph with an accuracy of 95% (CI, 86-98%).

CONCLUSIONS

Visualization of the cuff at the suprasternal notch by ultrasound demonstrates potential as a means of confirming correct depth of the endotracheal tube following endotracheal intubation.

How Much Cardiopulmonary Resuscitation Does a Pediatric Emergency Provider Perform in 1 Year? A Video-Based Analysis

OBJECTIVES

We aimed to quantify time performing chest compressions (CCs) per year of individual providers in a pediatric ED and to project a rate of opportunity for CC based on median clinical hours per provider category.

METHODS

This was an observational study of video-recorded resuscitations in a pediatric ED over 1 year. Events where CCs were performed for more than 2 minutes were included. Identification of providers and duration of CCs per provider were determined by video review. Time of CCs was totaled per provider over the study period. Data were expressed as median and interquartile range (IQR). Rate of opportunity for providing CC to a child was calculated by dividing the median clinical hours per year per provider type by the number of CC events per year.

RESULTS

Twenty-three CC events totaling 340 minutes of CCs were analyzed. Chest compressions were performed by 6 (13%) of 45 attending physicians, 3 (25%) of 12 fellows, 32 (22%) of 143 nurses, and 19 (59%) of 32 technicians. The median amount of time performing CC was 182 seconds (IQR, 91-396 seconds); by provider category, median amount of time was as follows: attending physicians, 83 seconds (IQR, 64-103 seconds); fellows, 45 seconds (IQR, 6-83 seconds); nurses, 128 seconds (IQR, 93-271 seconds); and technicians, 534 seconds (IQR, 217-793 seconds). The projected hours needed for an opportunity to perform CCs was 730 hours (91 shifts) for attending physicians, 243 hours (30 shifts) for fellows, and 1460 hours (121 shifts) for nurses and technicians.

CONCLUSIONS

Performing CCs on children in the ED is a rare event, with a median of 3 minutes per provider per year. Future studies should determine training methods to optimize readiness for these rare occurrences.

Analysis of CPR quality by individual providers in the pediatric emergency department

OBJECTIVES

To describe chest compression (CC) quality by individual providers in two pediatric emergency departments (EDs) using video review and compression monitor output during pediatric cardiac arrests.

METHODS

Prospective observational study. Patients <18 yo receiving CC for >1 min were eligible. Data was collected from video review and CC monitor device in a synchronized fashion and reported in 'segments' by individual providers. Univariate comparison by age (<1 yo, 1-8 yo, >8 yo) was performed by chi-square testing for dichotomous variables ('high-quality' CPR) and nonparametric testing for continuous variables (CC rate and depth). Univariate comparison of ventilation rate (V) was made between segments with an advanced airway versus without.

RESULTS

524 segments had data available; 42/524 (8%) met criteria for 'high-quality CC'. Patients >8 yo had more segments meeting criteria (18% vs. 2% and 0.5%; p < 0.001). Segments compliant for rate were less frequent in <1 yo (17% vs. 24% vs. 27%; p = 0.03). Segments compliant for depth were less frequent in <1 year olds and 1-8 year olds (5% and 9% vs. 20%, p < 0.001.) Mean V for segments with an advanced airway was higher than with a natural airway (24 ± 18 vs. 14 ± 10 bpm, p < 0.001). Hyperventilation was more prevalent in CPR segments with an advanced airway (66% vs. 32%, p < 0.001).

CONCLUSIONS

CC depth is rarely guideline compliant in infants. Hyperventilation is more prevalent during CPR periods with an advanced airway in place. Measuring individual provider CPR quality is feasible, allowing future studies to evaluate the impact of CPR training.

Resident Performance of the Rapid Cardiopulmonary Assessment in the Emergency Department

OBJECTIVES

The rapid cardiopulmonary assessment (RCPA) is an essential first step in effective resuscitation of critically ill children. Pediatric residents may not be achieving competency with resuscitative skills, including RCPA. Our objective was to determine how often pediatric residents complete the RCPA for actual patients.

METHODS

This was an observational, cross-sectional study of senior residents (≥postgraduate year 2) performing the RCPA in the resuscitation area of a high-volume pediatric emergency department (PED), where pediatric residents are expected to perform the bedside examination and assessment for all medical (nontrauma) patients. Data were collected primarily by video review on a standard form. The primary outcome was completion of the RCPA, defined as both examination and verbalized assessment of the airway, breathing, and circulation. We explored the association between RCPA completion and both residency year and number of previous PED rotations.

RESULTS

Complete data were collected from one randomly selected patient for 71 (95%) of 75 of eligible senior residents who rotated in the PED between January and June 2013. Two residents (3%) performed a complete RCPA. Verbalized assessment of circulation was especially rare (7/71; 10%). There was no association between RCPA completion and year of training or previous PED experience (P > 0.05).

CONCLUSIONS

Senior pediatric resident performance of the RCPA in the resuscitation area of a high-volume PED was poor. There was no association between RCPA completion and greater resident experience, including in the PED. These findings add to a growing body of literature suggesting that pediatric residents are not achieving competency with the RCPA and resuscitation skills.

The Impact of Videolaryngoscopy on Endotracheal Intubation Success by a Pediatric/Neonatal Critical Care Transport Team

INTRODUCTION

Endotracheal intubation may be required for the transport of critically ill neonates and children. Data suggest that first pass success (FPS) is associated with lower rates of complications. Thus, understanding factors associated with FPS can have important implications for clinical outcomes. We aimed to determine the impact of videolaryngoscopy (VL) on FPS by a pediatric critical care transport team (CCTT). Methods: We performed a retrospective cross-sectional study on pediatric patients (≤ 18 years of age) requiring endotracheal intubation by a tertiary care-based pediatric CCTT between 2011 and 2019. Patients were categorized as neonatal (≤ 28 days of age, either preterm or term) or pediatric (> 28 days of age). All intubation attempts using VL were performed with the C-MAC videolaryngoscope. Our primary outcome was rate of FPS. Descriptive statistics of patient, provider, and procedure characteristics were calculated. Multivariate regression was used to test the association between FPS and type of laryngoscope (video versus direct) adjusting for significant clinical predictors. Results: Over the study period, 135 patients were intubated by the CCTT. Sixty percent of these patients were neonates, and 40% were pediatric. The overall FPS rate was 61%, with lower rates in neonates (54%) and higher rates in pediatric patients (70%). Use of videolaryngoscopy increased over the study period. First pass success rate using the C-MAC videolaryngoscope was 72% compared to 42% for direct laryngoscopy across the whole study population. In adjusted analyses, FPS using VL was significantly higher in the pediatric patient population (aOR 12.42 [95%CI 3.33, 46.29]), but not in neonates (aOR 1.08 [0.44, 2.63]). Use of VL increased significantly over the study period. Conclusion: We found use of a C-MAC videolaryngoscope by a critical care transport team was associated with improved FPS during endotracheal intubation of pediatric patients but not neonates, after controlling for other patient and provider characteristics. In addition to the impact on FPS, use of VL may offer additional educational and quality benefits.

Enhancing CPR During Transition From Prehospital to Emergency Department: A QI Initiative

BACKGROUND AND OBJECTIVES

High-quality cardiopulmonary resuscitation (CPR) increases the likelihood of survival of pediatric out-of-hospital cardiac arrest (OHCA). Maintenance of high-quality CPR during transition of care between prehospital and pediatric emergency department (PED) providers is challenging. Our objective for this initiative was to minimize pauses in compressions, in alignment with American Heart Association recommendations, for patients with OHCA during the handoffs from prehospital to PED providers. We aimed to decrease interruptions in compressions during the first 2 minutes of PED care from 17 seconds (baseline data) to 10 seconds over 12 months. Our secondary aims were to decrease the length of the longest pause in compressions to <10 seconds and eliminate encounters in which time to defibrillator pad placement was >120 seconds.

METHODS

Our multidisciplinary team outlined our theory for improvement and designed interventions aimed at key drivers. Interventions included specific roles and responsibilities, CPR handoff choreography, and empowerment of frontline providers. Data were abstracted from video recordings of patients with OHCA receiving manual CPR on arrival.

RESULTS

We analyzed 33 encounters between March 2018 and July 2019. We decreased total interruptions from 17 to 12 seconds during the first 2 minutes and decreased the time of the longest single pause from 14 to 7 seconds. We saw a decrease in variability of time to defibrillator pad placement.

CONCLUSIONS

Implementation of a quality improvement initiative involving CPR transition choreography resulted in decreased interruptions in compressions and decreased variability of time to defibrillator pad placement.

Videography in Pediatric Emergency Research: Establishing a Multicenter Collaborative and Resuscitation Registry

OBJECTIVES

High-quality clinical research of resuscitations in a pediatric emergency department is challenging because of the limitations of traditional methods of data collection (chart review, self-report) and the low frequency of cases in a single center. To facilitate valid and reliable research for resuscitations in the pediatric emergency department, investigators from 3 pediatric centers, each with experience completing successful single-center, video-based studies, formed the Videography In Pediatric Emergency Research (VIPER) collaborative.

METHODS

Our initial effort was the development of a multicenter, video-based registry and simulation-based testing of the feasibility and reliability of the VIPER registry. Feasibility of data collection was assessed by the frequency of an indeterminate response for all data elements in the registry. Reliability was assessed by the calculation of Cohen κ for dichotomous data elements and intraclass correlation coefficients for continuous data elements.

RESULTS

Video-based data collection was completed for 8 simulated pediatric resuscitations, with at least 2 reviewers per case. Data were labeled as indeterminate by at least 1 reviewer for 18 (3%) of 524 relevant data fields. The Cohen κ for all dichotomous data fields together was 0.81 (95% confidence interval, 0.61-1.0). For all continuous (time-based) variables combined, the intraclass correlation coefficient was 0.88 (95% confidence interval, 0.70-0.96).

CONCLUSIONS

Initial simulation-based testing suggests video-based data collection using the VIPER registry is feasible and reliable. Our next step is to assess feasibility and reliability for actual pediatric resuscitations and to complete several prospective, hypothesis-based studies of specific aspects of resuscitative care, including of cardiopulmonary resuscitation, tracheal intubation, and teamwork and communication.

Success and complications by team composition for prehospital paediatric intubation: a systematic review and meta-analysis

Background

Clinical team composition for prehospital paediatric intubation may affect success and complication rates. We performed a systematic review and meta-analysis to determine the success and complication rates by type of clinical team.

Methods

We searched MEDLINE, EMBASE, and CINAHL for interventional and observational studies describing prehospital intubation attempts in children with overall success, first-pass success, and complication rates. Eligible studies, data extraction, and assessment of risk of bias were assessed independently by two reviewers. We performed a random-effects meta-analysis of proportions.

Results

Forty studies (1989 to 2019) described three types of clinical teams: non-physician teams with no relaxants (22 studies, n = 7602), non-physician teams with relaxants (12 studies, n = 2185), and physician teams with relaxants (12 studies, n = 1780). Twenty-two (n = 3747) and 18 (n = 7820) studies were at low and moderate risk of bias, respectively. Non-physician teams without relaxants had lower overall intubation success rate (72%, 95% CI 67–76%) than non-physician teams with relaxants (95%, 95% CI 93–98%) and physician teams (99%, 95% CI 97–100%). Physician teams had higher first-pass success rate (91%, 95% CI 86–95%) than non-physicians with (75%, 95% CI 69–81%) and without (55%, 95% CI 48–63%) relaxants. Overall airway complication rate was lower in physician teams (10%, 95% CI 3–22%) than non-physicians with (30%, 95% CI 23–38%) and without (39%, 95% CI 28–51%) relaxants.

Conclusion

Physician teams had higher rates of intubation success and lower rates of overall airway complications than other team types. Physician prehospital teams should be utilised wherever practicable for critically ill children requiring prehospital intubation.

Success of Pediatric Intubations Performed by a Critical Care Transport Service

Background: Prehospital pediatric endotracheal intubation (ETI) is rarely performed. Previous research has suggested that pediatric prehospital ETI, when performed by ground advanced life support crews, is associated with poor outcomes. In this study, we aim to evaluate the first-attempt success rate, overall success rate and complications of pediatric prehospital ETI performed by critical care transport (CCT) personnel.Methods: We conducted a retrospective observational study in a multi-state CCT service performing rotor wing, ground, and fixed wing missions. We included pediatric patients (<18 years) for whom ETI was performed by CCT personnel (flight nurse or flight paramedic).Our primary outcome of interest was rate of first-attempt ETI. Secondary outcomes were overall rates of successful ETI, complications encountered, and outcomes of patients with unsuccessful intubation.Results: 993 patients were included (63.2% male, median age 12 years, IQR 4-16 years). 807/993 (81.3%) patients were intubated on the first attempt. Lower rates of successful first-attempt intubation were seen in younger ages (42.9% in infants ≤30 days of age). In multivariable logistic regression, lower odds (adjusted odds ratio, 95% confidence interval) of successful first-attempt ETI were associated with ages >30 days to <1 year (0.33, 0.18-0.61) and 2 to <6 years (0.60, 0.39-0.94) compared to patients 12 to <18 years. Patients given an induction agent and neuromuscular blockade (NMB) had a higher odds of first-attempt ETI success (1.53, 1.06-2.15). 13 (1.3%) had immediately recognized esophageal intubation and 33 (3.3%) had vomiting. No episodes of pneumothorax were reported. 962/993 (96.9%) patients were successfully intubated after all attempts. In patients without successful ETI (n = 31), supraglottic airways were used in 24, bag-valve mask ventilation in 5, and surgical cricothyroidotomy in 2, with an overall advanced airway success rate of 988/993 (99.5%).Conclusion: Critical care flight nurses and paramedics performed successful intubations in pediatric patients at a high rate of success. Younger age was associated with lower success rates. Improved ETI training for younger patients and use of an induction agent and NMB may improve airway management in critically ill children.

Breathing Easier: Decreasing Tracheal Intubation-associated Adverse Events in the Pediatric ED and Urgent Care

Supplemental Digital Content is available in the text.

Tracheal intubation is a high-risk procedure in the pediatric emergency department (PED) and pediatric urgent care (PUC) settings. We aimed to develop an airway safety intervention to decrease severe tracheal intubation-associated adverse events (TIAEs) by decreasing process variation.

The midline approach for endotracheal intubation using GlideScope video laryngoscopy could provide better glottis exposure in adults: a randomized controlled trial

Background

Previous studies have demonstrated that the common laryngoscopic approach (right-sided) and midline approach are both used for endotracheal intubation by direct laryngoscopy. Although the midline approach is commonly recommended for video laryngoscopy (VL) in the clinic, there is a lack of published evidences to support this practice. This study aimed to evaluate the effects of different video laryngoscopic approaches on intubation.

Methods

Two hundred sixty-two patients aged 18 years who underwent elective surgery under general anaesthesia and required endotracheal intubation were included in the present prospective, randomized, controlled study. The participants were randomly and equally allocated to the right approach (Group R) or midline approach (Group M). All the intubations were conducted by experienced anaesthetists using GlideScope video laryngoscopy. The primary outcomes were Cormack-Lehane laryngoscopic views (CLVs) and first-pass success (FPS) rates. The secondary outcomes were the time to glottis exposure, time to tracheal intubation, haemodynamic responses and other adverse events. Comparative analysis was performed between the groups.

Results

Finally, 262 patients completed the study, and all the tracheas were successfully intubated. No significant differences were observed in the patient characteristics and airway assessments (P > 0.05). Compared with Group R, Group M had a better CLV (χ2 = 14.706, P = 0.001) and shorter times to glottis exposure (8.82 ± 2.04 vs 12.38 ± 1.81; t = 14.94; P < 0.001) and tracheal intubation (37.19 ± 5.01 vs 45.23 ± 4.81; t = 13.25; P < 0.001), but no difference was found in the FPS rate (70.2% vs 71.8%; χ2 = 0.074; P = 0.446) and intubation procedure time (29.86 ± 2.56 vs 30.46 ± 2.97, t = 1.75, P = 0.081). Between the groups, the rates of hoarseness or sore throat, minor injury, hypoxemia and changes in SBP and HR showed no significant difference (P > 0.05).

Conclusion

Although the FPS rate did not differ based on the laryngoscopic approach, the midline approach could provide better glottis exposure and shorter times to glottis exposure and intubation. The midline approach should be recommended for teaching in VL-assisted endotracheal intubation.

Trial registration

The study was registered on May 18, 2019 in the Chinese Clinical Trial Registry (ChiCTR1900023252).

Physician-staffed helicopter emergency medical services augment ground ambulance paediatric airway management in urban areas: a retrospective cohort study

Objectives

Paediatric intubation is a high-risk procedure for ground emergency medical services (GEMS). Physician-staffed helicopter EMS (PS-HEMS) may bring additional skills, drugs and equipment to the scene including advanced airway management beyond the scope of GEMS even in urban areas with short transport times. This study aimed to evaluate prehospital paediatric intubation performed by a PS-HEMS when dispatched to assist GEMS in a large urban area and examine how often PS-HEMS provided airway intervention that was not or could not be provided by GEMS.

Methods

We performed a retrospective observational study from July 2011 to December 2016 of a PS-HEMS in a large urban area (Sydney, Australia), which responds in parallel to GEMS. GEMS intubate without adjuvant neuromuscular blockade, whereas the PS-HEMS use neuromuscular blockade and anaesthetic agents. We examined endotracheal intubation success rate, first-look success rate and complications for the PS-HEMS and contrasted this with the advanced airway interventions provided by GEMS prior to PS-HEMS arrival.

Results

Overall intubation success rate was 62/62 (100%) and first-look success was 59/62 (95%) in the PS-HEMS-treated group, whereas the overall success rate was 2/7 (29%) for the GEMS group. Peri-intubation hypoxia was documented in 5/65 (8%) of the PS-HEMS intubation attempts but no other complications were reported. However, 3/7 (43%) of the attempted intubations by GEMS were oesophageal intubations, two of which were unrecognised.

Conclusions

PS-HEMS have high success with low complication rates in paediatric prehospital intubation. Even in urban areas with rapid GEMS response, PS-HEMS activated in parallel can provide safe and timely advanced prehospital airway management for seriously ill and injured children beyond the scope of GEMS practice. Review of GEMS airway management protocols and the PS-HEMS case identification and dispatch system in Sydney is warranted.

Quality Improvement Program Outcomes for Endotracheal Intubation in the Emergency Department

OBJECTIVES

We describe our 3-year experience with endotracheal intubation (ETI) outcomes during a multidisciplinary emergency department (ED)-based quality improvement (QI) program.

METHODS

This was a single-center, observational study taking place during a QI program. We used a registry for airway management performed in the ED from April 2014 to February 2017. The QI program focused on procedural standardization, airway management education, and comprehensive preparation of airway equipment. The primary outcome was first-pass success (FPS) rate. The secondary outcomes were multiple-attempts rate and overall rate of complications.

RESULTS

A total of 1087 emergent ETIs were included. The FPS rate significantly increased from 68% in the first year to 74% in the second year and 79% in the third year (P for trend <0.01). The multiple-attempts rate in the first year was 12%, followed by 7% and 6% in the second and third years, respectively (P for trend <0.01). The overall complication rate was 16% in the first year, 8% in the second year, and 8% in the third year (P for trend <0.01).

CONCLUSIONS

We observed improved ETI outcomes in the ED, including increased FPS rate and decrease in multiple-attempt rate and overall complication rate during the multidisciplinary QI program to enhance patient safety.

Apneic Oxygenation for Pediatric Endotracheal Intubation: A Narrative Review

Apneic oxygenation (ApOx) has shown to be effective in adult populations in a variety of settings, including prehospital, emergency departments, intensive care units, and elective surgery. This review aims to assess the available literature for ApOx in the pediatric population to determine its effects on hypoxemia, safe apnea times, and flow rates employed safely.

Pauses in compressions during pediatric CPR: Opportunities for improving CPR quality

OBJECTIVE

Minimizing pauses in chest compressions during cardiopulmonary resuscitation (CPR) is recommended by the American Heart Association (AHA) and is associated with improved patient outcomes. We studied the quality of pediatric CPR performed in a tertiary pediatric emergency department (ED) with a focus on pauses in chest compressions.

METHODS

We conducted an observational study of CPR quality in two pediatric EDs using video review during pediatric cardiac arrest. Events were reviewed for AHA guideline adherence. Parameters of CPR performance were described according to individual compressor segment. Pauses in compressions were analyzed for duration and pause activities.

RESULTS

From a 30-month period, 81 cardiac arrests were analyzed, including 1003 individual compressor segments and 900 pauses. Median chest compression fraction was 91%, with a median pause duration of 4 s (IQR 2, 10); 22% of pauses were prolonged (>10 s). Pulse checks occurred in 23% of pauses; 62% were prolonged. Checking a single pulse site (p < 0.001) and having fingers ready pre-pause (p = 0. 001) were associated with significantly shorter pause duration. Pause duration was correlated with the number of pause tasks (r = 0.559, p < 0.001). "Coordinated pauses" (pulse check, rhythm check and compressor change) were rare (6%) and long in duration (19 s; IQR 11, 30).

CONCLUSIONS

Prolonged pauses in chest compressions occurred frequently during CPR and were associated with pulse checks and multiple simultaneous tasks. Checking a single pulse site with fingers ready on the pulse site pre-pause could decrease pause duration and improve CPR quality.

A Survey Assessment of Perceived Importance and Methods of Maintenance of Critical Procedural Skills in Pediatric Emergency Medicine

OBJECTIVE

The aim of this study was to delineate pediatric emergency medicine provider opinions regarding the importance of, and to ascertain existing processes by which practitioners maintain, the following critical procedural skills: oral endotracheal intubation, intraosseous line placement, pharmacologic and electrical cardioversion, tube thoracostomy, and defibrillation.

METHODS

A customized survey was administered to all members of the Listserv for the American Academy of Pediatrics Section on Emergency Medicine. Perceived importance of maintaining critical pediatric procedural skills was measured using a 5-point Likert-type scale. Secondary outcomes included presence and type of mandatory training, availability of on-site backup, and perceived barriers to maintenance of skills.

RESULTS

Two hundred sixty-two members (25%) responded representing 106 different institutions, 70% of freestanding children's hospitals that received graduate medical education payments in 2014, and 68% of pediatric emergency medicine fellowship programs. More than 90% of respondents felt it was either very or extremely important to maintain competency for 5 of the 6 critical procedures, but no more than 49% of respondents felt that clinical care alone provided opportunity to maintain skills. The proportion of respondents indicating no mandatory training for each critical procedural skill was as follows: oral endotracheal intubation (23%), intraosseous line placement (30%), pharmacologic cardioversion (32%), electrical cardioversion (32%), tube thoracostomy (40%), and defibrillation (32%).

CONCLUSIONS

Critical procedural skills are perceived by emergency providers who care for children as extremely important to maintain. Direct care of pediatric patients likely does not provide sufficient opportunity to maintain these skills. There are widespread deficiencies relating to mandatory maintenance of critical procedural skill training.

Process conformance is associated with successful first intubation attempt and lower odds of adverse events in a paediatric emergency setting

BACKGROUND

Intubation is an essential, life-saving skill but associated with a high risk for adverse outcomes. Intubation protocols have been implemented to increase success and reduce complications, but the impact of protocol conformance is not known. Our study aimed to determine association between conformance with an intubation process model and outcomes.

METHODS

An interdisciplinary expert panel developed a process model of tasks and sequencing deemed necessary for successful intubation. The model was then retrospectively used to review videos of intubations from 1 February, 2014, to 31 January, 2016, in a paediatric emergency department at a time when no process model or protocol was in existence.

RESULTS

We evaluated 113 patients, 77 (68%) were successfully intubated on first attempt. Model conformance was associated with a higher likelihood of first attempt success when using direct laryngoscopy (OR 1.09, 95% CI 1.01 to 1.18). The use of video laryngoscopy was associated with an overall higher likelihood of success on first attempt (OR 2.54, 95% CI 1.10 to 5.88). Thirty-seven patients (33%) experienced adverse events. Model conformance was the only factor associated with a lower odds of adverse events (OR 0.94, 95% CI 0.88 to 0.99).

CONCLUSIONS

Conformance with a task-based expert-derived process model for emergency intubation was associated with a higher rate of success on first intubation attempt when using direct laryngoscopy and a lower odds of associated adverse events. Further evaluation of the impact of human factors, such as teamwork and decision-making, on intubation process conformance and success and outcomes is needed.

Improvement in the Safety of Rapid Sequence Intubation in the Emergency Department with the Use of an Airway Continuous Quality Improvement Program

Introduction

Airway management in the critically ill is associated with a high prevalence of failed first attempts and adverse events which negatively impacts patient care. The purpose of this investigation is to describe an airway continuous quality improvement (CQI) program and its effect on the safety of rapid sequence intubation (RSI) in the emergency department (ED) over a 10-year period.

Methods

An airway CQI program with an ongoing airway registry was initiated in our ED on July 1, 2007 (Academic Year 1) and continued through June 30, 2017 (Academic Year 10). Data were prospectively collected on all patients intubated in the ED during this period using a structured airway data collection form. Key data points included method of intubation, drugs and devices used for intubation, operator specialty and level of training, number of intubation attempts, and adverse events. Adult patients who underwent RSI in the ED with an initial intubation attempt by emergency medicine (EM) resident were included in the analysis. The primary outcome was first pass success which was defined as successful tracheal intubation with a single laryngoscope insertion. The secondary outcome was the prevalence of adverse events associated with intubation. Educational and clinical interventions were introduced throughout the study period with the goal of optimizing these outcomes. Data were analyzed by academic year and are reported descriptively with 95% confidence intervals (CI) of the difference of means.

Results

EM residents performed RSI on 342 adult patients during Academic Year 1 and on 445 adult patients during Academic Year 10. Over the 10-year study period, first pass success increased from 73.1% to 92.4% (difference = 19.3%, 95% CI 14.0% to 24.6%). The percentage of patients who experienced an adverse event associated with intubation decreased from 22.5% to 14.4% (difference = −7.9%, 95% CI −13.4% to −2.4%). The percentage of patients with first pass success without an adverse event increased from 64.0% to 80.9% (difference = 16.9%, 95% CI 10.6% to 23.1%).

Conclusion

The use of an airway CQI program with an ongoing airway registry resulted in a substantial improvement in the overall safety of RSI in the ED as evidenced by an increase in first pass success and a decrease in adverse events.

Quality improvement and crisis resource management in pediatric resuscitation

PURPOSE OF REVIEW

The pediatric resuscitation environment is a high-stakes, environment in which a multidisciplinary team must work together with patient outcomes dependent, at least in part, on the performance of that team. Given constraints of the environment and the nature of these events, quality improvement work in pediatric resuscitation can be challenging. Ongoing collection of accurate and reliable data on team performance is necessary to inform and evaluate change.

RECENT FINDINGS

Despite the relative difficulty of quality improvement analysis and intervention implementation in the resuscitation environment, these efforts can have significant impact on patient outcomes. Although there are barriers to accurate data collection in real-life resuscitation, team performance of both technical and nontechnical skills can be reliably measured in video-based quality improvement programs. Training of nontechnical skills, using crisis resource management principles, can improve care delivery in resuscitation.

SUMMARY

Striving toward a learning healthcare system model in resuscitation care delivery can allow for efficient performance improvement. Given the possible impacts on mortality and quality of life of care delivered in the resuscitation environment, all providers who could possibly face a resuscitation event - no matter how rare - should consider how they are evaluating the quality of their care delivery in this arena.

C-MAC Video Laryngoscope versus Conventional Direct Laryngoscopy for Endotracheal Intubation During Cardiopulmonary Resuscitation

Background and objectives: To compare the first pass success (FPS) rate of the C-MAC video laryngoscope (C-MAC) and conventional Macintosh-type direct laryngoscopy (DL) during cardiopulmonary resuscitation (CPR) in the emergency department (ED). Materials and Methods: This study was a single-center, retrospective study conducted from April 2014 to July 2018. Patients were categorized into either the C-MAC or DL group, according to the device used on the first endotracheal intubation (ETI) attempt. The primary outcome was the FPS rate. A multiple logistic regression model was developed to identify factors related to the FPS. Results: A total of 573 ETIs were performed. Of the eligible cases, 263 and 310 patients were assigned to the C-MAC and DL group, respectively. The overall FPS rate was 75% (n = 431/573). The FPS rate was higher in the C-MAC group than in the DL group, but there was no statistically significant difference (total n = 431, 79% compared to 72%, p = 0.075). In the multiple logistic regression analysis, the C-MAC use had higher FPS rate (adjusted odds ratio: 1.80; 95% CI, 1.17-2.77; p = 0.007) than that of the DL use. Conclusions: The C-MAC use on the first ETI attempt during cardiopulmonary resuscitation in the emergency department had a higher FPS rate than that of the DL use.

Advancing emergency airway management practice and research

Emergency airway management is one of the vital resuscitative procedures undertaken in the emergency department (ED). Despite its clinical and research importance in the care of critically ill and injured patients, earlier studies have documented suboptimal intubation performance and high adverse event rates with a wide variation across the EDs. The optimal emergency airway management strategies remain to be established and their dissemination to the entire nation is a challenging task. This article reviews the current published works on emergency airway management with a focus on the use of airway management algorithms as well as the importance of first‐pass success and systematic use of rescue intubation strategies. Additionally, the review summarizes the current evidence for each of the important airway management processes, such as assessment of the difficult airway, preparation (e.g., positioning and oxygenation), intubation methods (e.g., rapid sequence intubation), medications (e.g., premedications, sedatives, and neuromuscular blockades), devices (e.g., direct and video laryngoscopy and supraglottic devises), and rescue intubation strategies (e.g., airway adjuncts and rescue intubators), as well as the airway management in distinct patient populations (i.e., trauma, cardiac arrest, and pediatric patients). Well‐designed, rigorously conducted, multicenter studies that prospectively and comprehensively characterize emergency airway management should provide clinicians with important opportunities for improving the quality and safety of airway management practice. Such data will not only advance research into the determination of optimal airway management strategies but also facilitate the development of clinical guidelines, which will, in turn, improve the outcomes of critically ill and injured patients in the ED.

Advances in Emergent Airway Management in Pediatrics

Airway management is the cornerstone to resuscitation efforts for many critically ill pediatric patients presenting for emergency care. Pediatric endotracheal intubation is uncommon in emergency medicine, making it challenging to maintain comfort with this critical procedure. This article offers strategies to facilitate pediatric airway management by addressing predictable anatomic and physiologic differences in children. Also reviewed are alternative approaches to airway management (eg, noninvasive ventilation and videolaryngoscopy) that might be used in cases of recognized difficult airways. Finally, recommendations for maintaining procedural skills in providers who may have limited clinical exposure to critically ill children requiring airway interventions are provided.

A BRILL idea? The benefits, risks, insights, learning and limitations of an emergency airway registry in pre-hospital and retrieval medicine

Airway management is a cornerstone of emergency care. Development of a robust evidence base to support the practice of pre-hospital emergency anaesthesia is key to the safety and evolution of this common but high-risk procedure. This paper discusses the benefits, risks, insights, learning and limitations of the use of an airway registry in pre-hospital and retrieval medicine, for both research and quality improvement purposes.

Transnasal Humidified Rapid Insufflation Ventilatory Exchange in children requiring emergent intubation (Kids THRIVE): a protocol for a randomised controlled trial

INTRODUCTION

Emergency intubation of children with abnormal respiratory or cardiac physiology is a high-risk procedure and associated with a high incidence of adverse events including hypoxemia. Successful emergency intubation is dependent on inter-related patient and operator factors. Preoxygenation has been used to maximise oxygen reserves in the patient and to prolong the safe apnoeic time during the intubation phase. Transnasal Humidified Rapid Insufflation Ventilatory Exchange (THRIVE) prolongs the safe apnoeic window for a safe intubation during elective intubation. We designed a clinical trial to test the hypothesis that THRIVE reduces the frequency of adverse and hypoxemic events during emergency intubation in children and to test the hypothesis that this treatment is cost-effective compared with standard care.

METHODS AND ANALYSIS

The Kids THRIVE trial is a multicentre randomised controlled trial performed in participating emergency departments and paediatric intensive care units. 960 infants and children aged 0-16 years requiring emergency intubation for all reasons will be enrolled and allocated to THRIVE or control in a 1:1 allocation with stratification by site, age (<1, 1-7 and >7 years) and operator (junior and senior). Children allocated to THRIVE will receive weight appropriate transnasal flow rates with 100% oxygen, whereas children in the control arm will not receive any transnasal oxygen insufflation. The primary outcomes are defined as follows: (1) hypoxemic event during the intubation phase defined as SpO₂ <90% (patient-dependent variable) and (2) first intubation attempt success without hypoxemia (operator-dependent variable). Analyses will be conducted on an intention-to-treat basis.

ETHICS AND DISSEMINATION

Ethics approval for the protocol and consent process has been obtained (HREC/16/QRCH/81). The trial has been actively recruiting since May 2017. The study findings will be submitted for publication in a peer-reviewed journal.

TRIAL REGISTRATION NUMBER

ACTRN12617000147381.

Development of a novel reference nomogram for endotracheal intubation in neonatal emergency transport setting

AIM

Neonatal endotracheal intubation is a challenging procedure during transport. The aim of this study was to evaluate the effectiveness of the emergency intubation guidelines followed by our Neonatal Emergency Transport Service (NETS).

METHODS

Our transport intubation guidelines follows a weight-based nomogram for nasal intubation, and the tube position is clinically verified after intubation, while the postintubation chest X-ray is postponed to Neonatal Intensive Care Unit (NICU) admission. Data on postnatal age, weight and tube insertion depth were obtained from the online NETS clinical database, and the postintubation chest X-ray images were assessed.

RESULTS

During the study period, 161 newborn infants were nasally intubated during transport, and received a postintubation radiograph at NICU admission. A total of 130 neonates (80.7%) had the endotracheal tube (ETT) correctly positioned between T1 and T2 vertebrae, while 12 (7.5%) was at C7 vertebrae level and 19 (11.8%) at T3. No patients had ETT tip positioned at T4 vertebrae level or below. No adverse events related to intubation were observed.

CONCLUSION

Our intubation procedure showed a good reliability and safety in neonatal critical care transport, although chest X-ray to confirm the tube placement is postponed to NICU arrival. Based on our results, we suggest a revised version of weight-based nomogram for nasal intubation.

A comparison of two hyperangulated video laryngoscope blades to direct laryngoscopy in a simulated infant airway: a bicentric, comparative, randomized manikin study

Background

In infants, securing the airway is time-critical because of anatomical and physiological differences related to airway management in children less than 1 year old. The aim of this study was to compare the time to ventilation using two different hyperangulated video laryngoscope blades with the time to ventilation via conventional direct laryngoscopy in a normal airway [NA] and in a simulated difficult airway [DA].

Methods

This study was a comparative, bicentric, open-label, randomized controlled evaluation. An infant high-fidelity simulator (SimBaby™; Laerdal® Medical, Stavanger, Norway) was used, and two scenarios were proposed, as follows: NA and DA evoked with tongue edema and cervical collar. After theoretical and practical briefing, each participant compared in the two airway scenarios the novel King Vision™ Pediatric aBlade (KV) (Ambu® A/S, Bad Nauheim, Germany) video laryngoscope and the C-MAC™ D-blade Ped (DB) (Karl Storz® SE & Co. KG, Tuttlingen, Germany) video laryngoscope to conventional laryngoscopy using the Miller Blade (MiB) and the Macintosh Blade (MaB) in a random sequence.

Results

Eighty physicians (65 AN and 15 PCCM staff) were included. In the NA scenario, the median [IQR] time to successful time to ventilation (TTV) was significantly shorter for the KV at 13 s [12–15 s] than for the MaB at 14.5 s [13–16 s], DB at 14.5 s [13–16] and MiB at 16 s [14–19] (p < 0.001). In DA, the KV also shortened TTV to 14 s [13–16], whereas TTV was 23 s with the MaB [20–26], 19 s with the DB [16–21], and 27 s with the MiB [22–31] (p < 0.001). There were no differences in first-pass intubation success rates (FPAs) between hyperangulated blades and direct laryngoscopes in NA. In DA, the hyperangulated blades enabled 92 (DB) to 100% (KV) FPAs compared with 65 (MiB) to 76% (MaB) for conventional laryngoscopy (p < 0.001).

Conclusion

Video laryngoscopes with hyperangulated blades were associated with shorter TTV in normal and difficult infant airway situations. The higher FPAs of hyperangulated blades in DA may avoid desaturations and decrease adverse events in pediatric airway management.

Electronic supplementary material

The online version of this article (10.1186/s12871-018-0580-y) contains supplementary material, which is available to authorized users.

Adolescent tracheal intubation in an adult urban emergency department: a retrospective, observational study

OBJECTIVES

Tracheal intubation is the cornerstone of advanced emergency airway management in children and adults and there is good-quality data characterizing intubation in both groups. There are, however, few published studies on emergency tracheal intubation in adolescents. We carried out an observational study to characterize tracheal intubation in adolescents.

METHODS

We analysed data from a previously collected Emergency Department Intubation Registry. We included all attempts at tracheal intubation performed in our adult emergency department between 1999 and 2011. We recorded the indication for intubation, the staff involved, the technique and drugs used, and the rates of successful intubation and adverse events. We classified patients into three age groups: 13-16 years (adolescent), 17-24 years (young adult) and at least 25 years (older adult).

RESULTS

Trauma was the most common indication for intubation in adolescents, and rapid sequence induction was used in 88% of cases. Ninety-nine percent of tracheal intubations in adolescent patients were successful on the first or the second attempt, no adolescent underwent more than three attempts and none required a surgical airway. The initial intubation attempt in adolescents was more likely to be performed by an anaesthetist (P<0.005). The first attempt success rate was higher (P<0.01) and adverse event rate was lower (P<0.05) in adolescents than in adults. Hypotension was the only adverse event recorded in adolescents; this occurred in three patients (4.5%).

CONCLUSION

Our findings suggest that the airway in adolescent patients can be managed successfully and safely in an adult emergency department where there is close collaboration between anaesthetists and emergency physicians.

Videographic Assessment of Pediatric Tracheal Intubation Technique During Emergency Airway Management

OBJECTIVES

To examine technical aspects of pediatric tracheal intubation using video recording and to determine the association between tracheal intubation technique and procedural outcomes.

DESIGN

Prospective observational study.

SETTING

Emergency department resuscitation bay in single tertiary pediatric center.

PATIENTS

Children undergoing emergent tracheal intubation under videorecorded conditions.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

A published scoring tool for characterizing patient positioning, intubator kinematics, and adjunctive maneuvers during tracheal intubation was applied to videorecorded pediatric resuscitations when tracheal intubation was performed. Procedural outcomes were measured from video review. Seventy-one children underwent 109 tracheal intubation attempts with an overall first attempt success rate of 69% and a median laryngoscopy duration of 34 seconds (interquartile range, 24-47 s). A significant subset of tracheal intubation attempts were made with the patient's bed at a height below the level of intubator's umbilicus (61%), the patient in a supine position without head elevation (55%), the intubator bent at the waist to greater than 45° (66%), less than 1 cm of mouth opening by the intubator's right hand prior to laryngoscopy (46%), and with the intubator's face less than 12 inches away from the patient's mouth (65%). Adjunctive maneuvers were used in a minority of attempts (cricoid pressure 48%, external laryngeal manipulation 11%, retraction of the right corner of the patient's mouth 26%). On multivariate analysis, including controlling for patient age category and intubator background, retraction of the right corner of the patient's mouth by an assistant showed an independent association with successful tracheal intubation. No other technical aspects were associated with tracheal intubation success.

CONCLUSIONS

Intubators commonly exhibited suboptimal technique during tracheal intubation such as bending deeply at the waist, having their eyes close to the patient's mouth, failing to widely open the patient's mouth, and not elevating the occiput in older children. Retraction of the right corner of the patient's mouth by an assistant during laryngoscopy and intubation was associated with TI success.

Intubation Success in Critical Care Transport: A Multicenter Study

INTRODUCTION

Tracheal intubation (TI) is a lifesaving critical care skill. Failed TI attempts, however, can harm patients. Critical care transport (CCT) teams function as the first point of critical care contact for patients being transported to tertiary medical centers for specialized surgical, medical, and trauma care. The Ground and Air Medical qUality in Transport (GAMUT) Quality Improvement Collaborative uses a quality metric database to track CCT quality metric performance, including TI. We sought to describe TI among GAMUT participants with the hypothesis that CCT would perform better than other prehospital TI reports and similarly to hospital TI success.

METHODS

The GAMUT Database is a global, voluntary database for tracking consensus quality metric performance among CCT programs performing neonatal, pediatric, and adult transports. The TI-specific quality metrics are "first attempt TI success" and "definitive airway sans hypoxia/hypotension on first attempt (DASH-1A)." The 2015 GAMUT Database was queried and analysis included patient age, program type, and intubation success rate. Analysis included simple statistics and Pearson chi-square with Bonferroni-adjusted post hoc z tests (significance = p < 0.05 via two-sided testing).

RESULTS

Overall, 85,704 patient contacts (neonatal n [%] = 12,664 [14.8%], pediatric n [%] = 28,992 [33.8%], adult n [%] = 44,048 [51.4%]) were included, with 4,036 (4.7%) TI attempts. First attempt TI success was lowest in neonates (59.3%, 617 attempts), better in pediatrics (81.7%, 519 attempts), and best in adults (87%, 2900 attempts), p < 0.001. Adult-focused CCT teams had higher overall first attempt TI success versus pediatric- and neonatal-focused teams (86.9% vs. 63.5%, p < 0.001) and also in pediatric first attempt TI success (86.5% vs. 75.3%, p < 0.001). DASH-1A rates were lower across all patient types (neonatal = 51.9%, pediatric = 74.3%, adult = 79.8%).

CONCLUSIONS

CCT TI is not uncommon, and rates of TI and DASH-1A success are higher in adult patients and adult-focused CCT teams. TI success rates are higher in CCT than other prehospital settings, but lower than in-hospital success TI rates. Identifying factors influencing TI success among high performers should influence best practice strategies for TI.

Frequency and Characterization of Tracheal Intubation Adverse Events in Pediatric Sepsis

OBJECTIVES

Intubation in critically ill pediatric patients is associated with approximately 20% rate of adverse events, but rates in the high-risk condition of sepsis are unknown. Our objectives were to describe the frequency and characteristics of tracheal intubation adverse events in pediatric sepsis.

DESIGN

Retrospective cohort study of a sepsis registry.

SETTING

Two tertiary care academic emergency departments and four affiliated urgent cares within a single children's hospital health system.

PATIENTS

Children 60 days and older to 18 years and younger who required nonelective intubation within 24 hours of emergency department arrival. Exclusion criteria included elective intubation, intubation prior to emergency department arrival, presence of tracheostomy, or missing intubation chart data.

INTERVENTIONS

Not applicable.

MEASUREMENTS AND MAIN RESULTS

The outcome was tracheal intubation adverse event as defined by the National Emergency Airway Registry Tool 4 KIDS. During the study period, 118 of 2,395 registry patients met inclusion criteria; 100% of intubations were successful. First attempt success rate was 57% (95% CI, 48-65%); 59% were intubated in the emergency department, and 28% were intubated in the PICU. First attempts were by a resident (30%), a fellow (42%), attending (6%), and anesthesiologist (13%). Tracheal intubation adverse events were reported in 61 (43%; 95% 43-61%) intubations with severe tracheal intubation adverse events in 22 (17%; 95 CI, 13-27%) intubations. Hypotension was the most common severe event (n = 20 [17%]) with 14 novel occurrences during intubation. Mainstem bronchial intubation was the most common nonsevere event (n = 28 [24%]). Residents, advanced practice providers, and general pediatricians in urgent care settings had the lowest rates of first-pass success.

CONCLUSIONS

The rates of tracheal intubation adverse events in this study are higher than in nonelective pediatric intubations in all conditions and highlight the high-risk nature of intubations in pediatric sepsis. Further research is needed to identify optimal practices for intubation in pediatric sepsis.

Evaluation of Physiologic Alterations during Prehospital Paramedic-Performed Rapid Sequence Intubation

OBJECTIVE

Physiologic alterations during rapid sequence intubation (RSI) have been studied in several emergency airway management settings, but few data exist to describe physiologic alterations during prehospital RSI performed by ground-based paramedics. To address this evidence gap and provide guidance for future quality improvement initiatives in our EMS system, we collected electronic monitoring data to evaluate peri-intubation vital signs changes occurring during prehospital RSI.

METHODS

Electronic patient monitor data files from cases in which paramedic RSI was attempted were prospectively collected over a 15-month study period to supplement the standard EMS patient care documentation. Cases were analyzed to identify peri-intubation changes in oxygen saturation, heart rate, and blood pressure.

RESULTS

Data from 134 RSI cases were available for analysis. Paramedic-assigned prehospital diagnostic impression categories included neurologic (42%), respiratory (26%), toxicologic (22%), trauma (9%), and cardiac (1%). The overall intubation success rate (95%) and first-attempt success rate (82%) did not differ across diagnostic impression categories. Peri-intubation desaturation (SpO₂ decrease to below 90%) occurred in 43% of cases, and 70% of desaturation episodes occurred on first-attempt success. The incidence of desaturation varied among patient categories, with a respiratory diagnostic impression associated with more frequent, more severe, and more prolonged desaturations, as well as a higher incidence of accompanying cardiovascular instability. Bradycardia (HR decrease to below 60 bpm) occurred in 13% of cases, and 60% of bradycardia episodes occurred on first-attempt success. Hypotension (systolic blood pressure decrease to below 90 mmHg) occurred in 7% of cases, and 63% of hypotension episodes occurred on first-attempt success. Peri-intubation cardiac arrest occurred in 2 cases, one of which was on first-attempt success. Only 11% of desaturations and no instances of bradycardia were reflected in the standard EMS patient care documentation.

CONCLUSIONS

In this study, the majority of peri-intubation physiologic alterations occurred on first-attempt success, highlighting that first-attempt success is an incomplete and potentially deceptive measure of intubation quality. Supplementing the standard patient care documentation with electronic monitoring data can identify unrecognized physiologic instability during prehospital RSI and provide valuable guidance for quality improvement interventions.

Declining Procedures by Pediatric Critical Care Medicine Fellowship Trainees

Background: Pediatric Critical Care Medicine Fellowship trainees need to acquire skills to perform procedures. Over the last several years there have been advances that allowed for less invasive forms of interventions. Objective: Our hypothesis was that over the past decade the rate of procedures performed by Pediatric Critical Care Medicine Fellowship trainees decreased. Methods: Retrospective review at a single institution, tertiary, academic, children's hospital of patients admitted from July 1, 2007-June 30, 2017 to the Pediatric Intensive Care Unit and Cardiothoracic Intensive Care Unit. A Poisson regression model with a scale adjustment for over-dispersion estimated by the square root of Pearson's Chi-Square/DOF was applied. Results: There has been a statistically significant decrease in the average rate of central venous lines (p = 0.004; -5.72; 95% CI: -9.45, -1.82) and arterial lines (p = 0.02; -7.8; 95% CI: -13.90, -1.25) per Fellow per years in Fellowship over the last 10 years. There was no difference in the rate of intubations per Fellow per years in Fellowship (p = 0.27; 1.86; 95% CI:-1.38, 5.24). Conclusions: There has been a statistically significant decrease in the rate of central venous lines and arterial lines performed by Pediatric Critical Care Medicine Fellowship trainees per number of years in Fellowship over the last 10 years. Educators need to be constantly reassessing the clinical landscape in an effort to make sure that trainees are receiving adequate educational experiences as this has the potential for an impact on the education of trainees and the safety of the patients that they care for.

Airway emergencies presenting to the paediatric emergency department requiring advanced management techniques

BACKGROUND

Airway emergencies presenting to the emergency department (ED) are usually managed with conventional equipment and techniques. The patient group managed urgently in the operating room (OR) has not been described.

AIMS

This study aims to describe a case series of children presenting to the ED with airway emergencies managed urgently in the OR, particularly the anaesthetic equipment and techniques used and airway findings.

METHODS

A retrospective cohort study undertaken at The Royal Children's Hospital, Melbourne, Australia. All patients presenting to the ED between 1 January 2012 and 30 July 2015 (42 months) with an airway emergency who were subsequently managed in the OR were included. Patient characteristics, anaesthetic equipment and technique and airway findings were recorded.

RESULTS

Twenty-two airway emergencies in 21 patients were included over the study period, on average one every 2 months. Median age was 18 months and 43% were male. Inhalational induction was used in 77.3%, combined inhalational and intravenous induction in 9.1%, and intravenous induction alone in 13.6%. The most commonly used inhalational induction agent was sevoflurane, and the most commonly used intravenous induction agents were ketamine and propofol. Ten airway emergencies did not require intubation, seven for removal of inhaled foreign body, two with progressive tracheal stenosis requiring emergent dilatation and one examination under anaesthesia to rule out inhaled foreign body. Of the 12 airway emergencies that required immediate intubation, direct laryngoscopy was used in 9 and fibre-optic intubating bronchoscopy in 3. For intubations performed by direct laryngoscopy, one was difficult (Cormack and Lehane grade 3). First pass success was 83.3%. Adverse events occurred in 3/22 (13.6%) cases.

CONCLUSION

Advanced airway techniques, including inhalational induction and intubation via fibre-optic intubating bronchoscope, are rarely but predictably required in the management of patients presenting to the ED. Institutions caring for children should prepare in advance where such patients should be managed, by whom, and provide equipment and training for their care.