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The goal of this clinicial trial is to test the acceptability and feasibility of linear cognitive aid intervention to support EMS teams in responding to pediatric emergencies. We are testing the hypothesis that cognitive aids with linear logic will be feasible to use and acceptable to EMS teams in urban and rural areas. Researchers will compare technical performance, teamwork, and self-assessed cognitive load of participants to see the difference between performing resuscitations using their current standard with existing cognitive aids and using our linear cognitive aid. Participants' teams will: * perform in situ high-fidelity simulation of two critical children's resuscitation scenarios * be randomized to 1) perform both resuscitations with their current standard with existing cognitive aids or 2) perform both resuscitations using our linear cognitive aid.
The purpose of this study is to evaluate the impact of real-time audio-video telemedicine consults with a neonatologist (termed teleneonatology) on the early health outcomes of at-risk neonates delivered in community hospitals.
The purpose of this study is to design, develop, validate and pilot test an interactive Maternal Resuscitation Navigation Application (MARINA) for the purpose of providing information and guidance about the expected events that a premature infant will experience during initial resuscitation upon delivery. This information will be shared via computer app prior to the time that the mother would be in distress due to active labor. The application will be pilot tested for functionality, usability and feasibility of future use and research in clinical settings. Focused aspects of the application will include simulated video of the active delivery environment, explanation of each team member's role in resuscitation and specific activities involved in premature infant resuscitation. To assure the application addresses key information mothers would desire, the application will include content developed with input from a consulting group of mothers who have experienced premature infant resuscitation in the delivery room. Additionally, prior research by the research team will inform the build of this application. The application will have the ability for mothers to choose whether to view close up procedures (bag/mask positive pressure oxygen delivery, intubation, line placement, etc.). She may alternatively select to only view the broader view of the room while listening to the description of activities occurring at that time. The mother will be able to choose her level of interactivity depending on her comfort level. The application will go through multiple levels of testing throughout the development process. After an iterative process, when the research team finds the application acceptable, a small group of consulting parents and experienced clinicians will review the application for functionality (ease of use) and content validity. Aim 2: To pilot test the functionality, usability and feasibility of the interactive Maternal Resuscitation Navigation Application (MARINA) for future use and research in clinical settings to reduce maternal distress associated with premature infant resuscitation.
Premature babies often need help immediately after birth to open their lungs to air, start breathing and keep their hearts beating. Opening their lungs can be difficult, and once open the under-developed lungs of premature babies will often collapse again between each breath. To prevent this nearly all premature babies receive some form of mechanical respiratory support to aid breathing. Common to all types of respiratory support is the delivery of a treatment called positive end-expiratory pressure, or PEEP. PEEP gives air, or a mixture of air and oxygen, to the lung between each breath to keep the lungs open and stop them collapsing. Currently, clinicians do not have enough evidence on the right amount, or level, of PEEP to give at birth. As a result, doctors around the world give different amounts (or levels) of PEEP to premature babies at birth. In this study, the Investigators will look at 2 different approaches to PEEP to help premature babies during their first breaths at birth. At the moment, the Investigators do not know if one is better than the other. One is to give the same PEEP level to the lungs. The others is to give a high PEEP level at birth when the lungs are hardest to open and then decrease the PEEP later once the lungs are opened and the baby is breathing. Very premature babies have a risk of long-term lung disease (chronic lung disease). The more breathing support a premature baby needs, the more likely the risk of developing chronic lung disease. The Investigators want to find out whether one method of opening the baby's lungs at birth results in them needing less breathing support. This research has been initiated by a group of doctors from Australia, the Netherlands and the USA, all who look after premature babies.
This is a prospective randomized multi-center study which will compare acute fluid resuscitation using a colloid strategy (LR + 5% Albumin) to a crystalloid strategy (LR alone), in adults with an acute burn involving at least 25% of their total body surface area.
The goal of this interventional study is to evaluate two strategies for how to provide intravenous (IV) fluids for treating patients with acute kidney injury (AKI) in cirrhosis. The main question it aims to answer is: what is the safety, efficacy, and feasibility of providing a recommendation to use a Volume Assessment Guidance Algorithm (VAGA) or give standard of care doses of IV albumin? Patients will be randomly assigned where their treating teams will receive a VAGA-based recommendation or a standard of care IV albumin recommendation.
This study is a Phase 3, multi-center, Bayesian Adaptive Sequential Platform Trial testing the effectiveness of different prehospital airway management strategies in the care of critically ill children. Emergency Medical Services (EMS) agencies affiliated with the Pediatric Emergency Care Applied Research Network (PECARN) will participate in the trial. The study interventions are strategies of prehospital airway management: \[BVM-only\], \[BVM followed by SGA\] and \[BVM followed by ETI\]. The primary outcome is 30-day ICU-free survival. The trial will be organized and executed in two successive stages. In Stage I of the trial, EMS personnel will alternate between two strategies: \[BVM-only\] or \[BVM followed by SGA\]. The \[winner of Stage I\] will advance to Stage II based upon results of Bayesian interim analyses. In Stage II of the trial, EMS personnel will alternate between \[BVM followed by ETI\] vs. \[Winner of Stage I\].
Fluids are one of the most common treatments given to patients in the hospital. Fluids are especially important in treating patients with sepsis. Multiple clinical studies have compared the two main types of fluids used in sepsis (normal saline and balanced crystalloids). However, these studies have not found a clear benefit of one type of fluid versus the other. Which fluid should be given to which patient is an essential question because of the ubiquity of this intervention. Even a small difference in mortality could drastically change the standards of care given the national (and worldwide) scale of this intervention. The investigators have developed an algorithm that uses bedside vital signs (temperature, heart rate, respiratory rate, and blood pressure) to identify a group of patients (Group D) who have a significant mortality benefit from balanced crystalloids. The study randomizes adult patients admitted through emergency departments across 6 Emory hospitals belonging to Group D to intervention versus usual care. The intervention arm involves a prompt to clinicians to use balanced crystalloids rather than normal saline.
The objective is to evaluate the effectiveness of a Just in Time (JiT) video as compared to the AHA Heartsaver® Course and no training (control) in ability to correctly perform CPR. The secondary objective is to assess skill retention 3-9 months after the AHA Heartsaver course with and without JiT Video use. The goal of this work is to study the effectiveness of this new JiT video to improve objective knowledge- and performance-based measures of effective OHCA response, as well as subjective ratings of preparedness and likeliness to respond, compared to the standard AHA Heartsaver® CPR AED Training course.
The CAlcium and VAsopressin following Injury Early Resuscitation (CAVALIER) Trial is a proposed 4 year, double-blind, mutli-center, prehospital and early in hospital phase randomized trial designed to determine the efficacy and safety of prehospital calcium and early in hospital vasopressin in patients at risk of hemorrhagic shock.