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The purpose of the study is to implement a patient-provider dyad tailored, Electronic Health Record (EHR)-informed, digitized Smart Checklist as a Quality Improvement (QI) intervention to support bedside clinician teams to reduce Adverse Airway Outcomes (AAO) across 6 diverse pediatric intensive care units (ICUs).
The investigators' overall objective is to assess the incidence of critical events related to tracheal intubation at all international study sites. Furthermore, the study will investigate the used intubation techniques and identify possible improvement measures to increase patient safety.
The purpose of this clinical study is to determine the effectiveness and safety of Infasurf® administered through the InfasurfAero™, a novel oral airway delivery device specifically designed to give Infasurf in a less complicated way and without the need for a breathing tube or interrupting nasal respiratory support.
The purpose of the study is to assess the impact of a personalized intubation planning tool, the Personalized INtubation Safety (PINS) Bundle on intubation procedural safety and clinical outcomes among patients intubated in the neonatal intensive care unit (NICU) setting.
The investigators will screen all mechanically ventilated ED patients for study eligibility and will enroll all consecutive patients satisfying inclusion and exclusion criteria. The study design is a pragmatic, multicenter, stepped wedge cluster randomized trial, enrolling at five sites over a 3-year period, divided into six time periods of six months. Prior to the study, each site will be randomized to their position within the design. One site will cross to the intervention period (i.e. succinylcholine as default neuromuscular blocker) every six months from the 2nd to 6th time period. Cluster order will be determined by computer-based randomization. To begin, each site will be exposed to control conditions; by the end of the study, each site will be exposed to intervention conditions. Patients in the control phase will receive usual care, and this phase will be entirely observational. After six months, a site will enter a 2-month transition phase. In this phase, the investigators will implement the intervention, similar to how they have implemented other ED-based interventions for mechanically ventilated patients. The investigators will engage and educate ED clinicians on the importance of AWP prevention and the study objectives. The intervention framework relies on the use of "nudges", without restricting choice. The use of neuromuscular blockers (i.e. "paralytic" medications) is already part of routine care in the ED in order to facilitate endotracheal intubation and initiation of mechanical ventilation for patients with acute respiratory failure. The two most common neuromuscular blockers used in the ED are succinylcholine and rocuronium. The preliminary data show a strong association between rocuronium (a longer-acting neuromuscular blocker) use and AWP. Therefore, this study aims to improve care by educating caregivers on AWP and the use of the neuromuscular blockers, which are already routinely used, and studying that process in a rigorous fashion. The default neuromuscular blocker in the intervention phase will be succinylcholine. Succinylcholine will be the default over rocuronium because: 1) it has safely been the default neuromuscular blocker of choice in the ED for \>40 years ; 2) its 5-minute duration of action greatly reduces AWP risk; 3) the preliminary data regarding an increased risk of AWP with rocuronium and 4) ED rocuronium use has increased despite no patient-centered studies showing benefit over succinylcholine. Passive alerts (i.e. graphics, pocket cards) will also be strategically placed in the ED, and active alerts will be used as reminders before every nursing shift (i.e. "the huddle"). After this transition phase, the site will begin the intervention phase, and patients will again receive clinician-directed care, just after the intervention.
Examining the effectiveness of cricoid pressure using ultrasound imaging. Pulmonary aspiration of gastric contents during tracheal intubation, although rare in pediatrics, is a potentially catastrophic complication of anesthesia. Cricoid pressure is applied during rapid sequence induction to occlude the esophagus and prevent aspiration of gastric contents. Accumulating evidence in adults suggests that cricoid pressure often is not effective, either because the esophagus normally lies lateral to the cricoid cartilage, or because downward pressure on the cricoid cartilage laterally displaces (rather than compresses) the esophagus. The investigator proposes to examine the effectiveness of cricoid pressure in children in the peri-operative setting using non-invasive ultrasound imaging. Using this approach, the investigator will investigate the normal anatomical relationship of the esophagus and the cricoid cartilage, as well as how cricoid pressures influences this relationship. Further, the investigator will examine whether alternatives to downward cricoid pressure, such as laterally directed pressure, are more effective at occluding the esophagus.
Advanced airway interventions are common high risk, high stakes events for children in intensive care units (ICU) and emergency departments (ED), with risk for life and health threatening consequences.