Simulation-based assessment of care for an infant with cardiogenic shock in the emergency department.

BACKGROUND: Congenital heart disease (CHD) is the leading cause of infant deaths associated with birth defects. Neonates with undiagnosed CHD often present to general emergency departments (GEDs) for initial resuscitation that are less prepared than paediatric centres, resulting in disparities in the quality of care. Neonates with undiagnosed CHD represent a challenge; thus, it is necessary for GEDs to be prepared for this population. AIM: To evaluate the process of resuscitative care provided to a neonate in cardiogenic shock due to CHD in the GEDs in a simulated setting and to describe the impact of teams and GED variables on the process of care. METHODS: This is a prospective simulation-based assessment of the process of care provided to a neonate with coarctation of the aorta in cardiogenic shock. Simulation sessions were conducted at participating GEDs utilizing each GED's interdisciplinary team and resources. The primary outcome was adherence to best practice, as measured by a 15-item overall composite adherence score (CAS). In addition, we stratified the overall CAS into CHD-critical items and the general resuscitation items CAS. The secondary outcome was the impact of the team's and GED's characteristics on the scores. RESULTS: This study enrolled 32 teams from 12 GEDs. Among 161 participants, 103 (63.97%) were registered nurses, 33 (20.50%) were physicians, 17 (10.56%) were respiratory therapists, and 8 (4.97%) were other medical professionals. The overall median CAS was 84, with the CHD-critical items having a median CAS of 34.5. The most underperformed tasks are checking pulses on the upper and lower extremities (44%), obtaining blood pressure in the upper and lower extremities (25%), and administering prostaglandin E1 (22%). CONCLUSIONS: Using in situ simulation in a set of GEDs, we revealed gaps in the resuscitation care of neonates with CHD in cardiogenic shock. RELEVANCE TO CLINICAL PRACTICE: These findings highlight the importance of targeted improvement programs for high-stakes illnesses in GED.

Quality of Resuscitative Care Provided to an Infant With Abusive Head Trauma in Community Emergency Departments: An In Situ, Prospective, Simulation-Based Study.

OBJECTIVES: Abusive head trauma (AHT) is a very common and serious form of physical abuse, and a major cause of mortality and morbidity for young children. Early Recognition and supportive care of children with AHT is a common challenge in community emergency department (CEDs). We hypothesized that standardized, in situ simulation can be used to measure and compare the quality of resuscitative measures provided to children with AHT in a diverse set of CEDs. METHODS: This prospective, simulation-based study measured teams' performance across CEDs. The primary outcome was overall adherence to AHT using a 15-item performance assessment checklist based on the number of tasks performed correctly on the checklist. RESULTS: Fifty-three multiprofessional teams from 18 CEDs participated in the study. Of 270 participants, 20.7% were physicians, 65.2% registered nurses, and 14.1% were other providers. Out of all tasks, assessment of airway/breathing was the most successfully conducted task by 53/53 teams (100%). Although 43/53 teams (81%) verbalized the suspicion for AHT, only 21 (39.6%) of 53 teams used hyperosmolar agent, 4 (7.5%) of 53 teams applied cervical spine collar stabilization, and 6 (11.3%) of 53 teams raised the head of the bed. No significant difference in adherence to the checklist was found in the CEDs with an inpatient pediatric service or these with designated adult trauma centers compared with CEDs without. Community emergency departments closer to the main academic center outperformed CEDs these that are further away. CONCLUSIONS: This study used in situ simulation to describe quality of resuscitative care provided to an infant presenting with AHT across a diverse set of CEDs, revealing variability in the initial recognition and stabilizing efforts and provided and targets for improvement. Future interventions focusing on reducing these gaps could improve the performance of CED providers and lead to improved patient outcomes.

Prevention of Withdrawal in Pediatric Patients Receiving Long-term Dexmedetomidine Infusions.

OBJECTIVE: Determine if the addition of clonidine was associated with a decreased incidence of dexmedetomidine withdrawal in patients who received prolonged dexmedetomidine infusions. METHODS: This was a retrospective observational cohort study conducted at a single-center PICU in an academic children's hospital. Children 1 month to 18 years of age who received dexmedetomidine infusion for 5 days or longer were included in the study. RESULTS: Fifty patients met the inclusion criteria with 15 patients who received clonidine and 35 who received a dexmedetomidine wean alone. Withdrawal criteria included blood pressure changes, heart rate changes, and documented agitation. Overall, there was no difference in change in blood pressure or documented agitation between groups. Patients who did not receive clonidine had a greater number of heart rate readings above normal for age following discontinuation of the infusion, yet this was not statistically significant. Potentially more importantly, the addition of clonidine did not impact the duration of dexmedetomidine wean or the PICU length of stay after dexmedetomidine discontinuation. CONCLUSIONS: The addition of clonidine while weaning a long-term dexmedetomidine infusion did not lead to lower blood pressures or agitation, but did lead to decreased percentage of heart rates above the age-appropriate range. The clinical significance of this is unknown, and further investigation is warranted. The addition of clonidine did not decrease time to weaning off dexmedetomidine or shorten PICU length of stay.

Improving Adherence to a Pediatric Advanced Life Support Supraventricular Tachycardia Algorithm in Community Emergency Departments Following in Situ Simulation.

BACKGROUND: Recognition and management of pediatric dysrhythmias is challenging for community emergency department (CED) providers, given their infrequent exposure to these cases. METHOD: A prospective, interventional study measured adherence of CEDs to pediatric supraventricular tachycardia (SVT) algorithm pre- and postimplementation of an in situ simulation-based collaborative program. CED teams' adherence was scored using a composite adherence score (CAS) based on the number of actions scored correctly on the performance checklist. RESULTS: A total of 74 multiprofessional teams from nine CEDs participated in simulated sessions. Of 367 participants, 12.3% were physicians, 62.1% were RNs, and 25.6% were other providers. The mean CAS improved from 57% to 71%. The ability to identify an SVT rhythm, stable versus unstable SVT, and the correct performance of synchronized cardioversion significantly improved. CONCLUSION: This study demonstrated improvement in overall adherence of CEDs to pediatric SVT algorithm following a collaborative program in simulated setting. This approach could be adapted to improve the quality of care provided to children. [J Contin Educ Nurs. 2019;50(9):404-410.].

Improving Simulated Pediatric Airway Management in Community Emergency Departments Using a Collaborative Program With a Pediatric Academic Medical Center.

BACKGROUND: Pediatric airway management is a challenging process at community emergency departments (CEDs) due to lower pediatric volume, a lack of pediatric expertise among staff, and a lack of pediatric-specific equipment and resources. This has contributed to increased mortality in pediatric patients presenting to CEDs in comparison to pediatric academic medical centers (AMCs). We hypothesized that a collaborative program between CEDs and the state AMC would improve the quality of pediatric airway management provided by CEDs in simulated settings and the CEDs' pediatric emergency readiness scores. METHODS: This prospective, pre- and post-intervention study utilized in situ simulation and was conducted in 10 CEDs in the state of Indiana. A team from the pediatric AMC led a multi-faceted improvement program, which included post-simulation debriefing, addressing pediatric airway management issues, targeted assessment reports, access to pediatric resources, and ongoing communication with the AMC. The primary outcome of the study was improvement of simulated pediatric airway management in the CEDs. The secondary outcome was improvement of the CEDs' pediatric emergency readiness scores score. RESULTS: A total of 35 multidisciplinary teams participated in pre-intervention sessions, and 40 teams participated in post-intervention sessions. Overall adherence to a critical action checklist improved from 52% at the pre-intervention visits to 71% post-intervention (P = .003). There were significant improvements in the use of appropriate endotracheal tube (ETT) size (from 67% to 100%, P = .02), cuffed ETT (from 8% to 71%, P < .001), appropriate blade size (from 58% to 100%, P = .03), and availability of suction catheter (from 10% to 42%, P = .049). The CEDs' total pediatric emergency readiness scores score improved from 58.8 ± 15.6 pre-intervention to 75.8 ± 9.3 post-intervention (P = .01). CONCLUSIONS: A collaborative improvement program between a pediatric AMC and CEDs improved the CEDs' simulated pediatric emergency airway management. This model can be utilized to improve management of other pediatric critical conditions in these CEDs.

Efficacy and Safety of Pediatric Critical Care Physician Telemedicine Involvement in Rapid Response Team and Code Response in a Satellite Facility.

OBJECTIVES: Satellite inpatient facilities of larger children's hospitals often do not have on-site intensivist support. In-house rapid response teams and code teams may be difficult to operationalize in such facilities. We developed a system using telemedicine to provide pediatric intensivist involvement in rapid response team and code teams at the satellite facility of our children's hospital. Herein, we compare this model with our in-person model at our main campus. DESIGN: Cross-sectional. SETTING: A tertiary pediatric center and its satellite facility. PATIENTS: Patients admitted to the satellite facility. INTERVENTIONS: Implementation of a rapid response team and code team model at a satellite facility using telemedicine to provide intensivist support. MEASUREMENTS AND MAIN RESULTS: We evaluated the success of the telemedicine model through three a priori outcomes: 1) reliability: involvement of intensivist on telemedicine rapid response teams and codes, 2) efficiency: time from rapid response team and code call until intensivist response, and 3) outcomes: disposition of telemedicine rapid response team or code calls. We compared each metric from our telemedicine model with our established main campus model. MAIN RESULTS: Critical care was involved in satellite campus rapid response team activations reliably (94.6% of the time). The process was efficient (median response time 7 min; mean 8.44 min) and effective (54.5 % patients transferred to PICU, similar to the 45-55% monthly rate at main campus). For code activations, the critical care telemedicine response rate was 100% (6/6), with a fast response time (median 1.5 min). We found no additional risk to patients, with no patients transferred from the satellite campus requiring a rapid escalation of care defined as initiation of vasoactive support, greater than 60 mL/kg in fluid resuscitation, or endotracheal intubation. CONCLUSIONS: Telemedicine can provide reliable, timely, and effective critical care involvement in rapid response team and Code Teams at satellite facilities.

Genetic diversity of paired middle-ear and pharyngeal nontypeable Haemophilus influenzae isolates from children with acute otitis media.

Pulsed-field gel electrophoresis was used to determine genetic diversities of multiple nontypeable Haemophilus influenzae isolates from throat and ear specimens of eight children with otitis media. From five children, all ear and throat isolates were identical. The bacterial populations in these specimens showed less diversity than populations in throat isolates of healthy children.