193 Clinical Trials for Various Conditions
Many extremely premature infants, born before 28 weeks' gestation age, require immediate help with breathing after birth. Positive pressure ventilation (PPV) using a device called a T-piece resuscitator is a common method. PPV is needed to establish proper lung function, improve gas exchange, and encourage the infant to breathe spontaneously. However, T-piece resuscitators have limitations, like a lack of visual feedback and variable settings, which may result in reduced effectiveness of PPV. Improving PPV effectiveness may reduce the need for more invasive procedures, such as intubation, which pose an increased risk of complications and death for these fragile infants. A novel approach, that may overcome the above limitations and deliver PPV with precise settings through a nasal mask, is to use a ventilator to deliver PPV (V-PPV) using a respiratory mode called nasal intermittent positive pressure ventilation (NIPPV). While NIPPV is commonly used in neonatal intensive care units to support breathing in premature infants, the impact of V-PPV use during immediate post-birth stabilization needs to be studied. Preliminary data from our recent single-center study confirmed the feasibility of using V-PPV for resuscitation of extremely premature babies and indicated its potential superiority with a 28% decrease in the need for intubation compared to historical use of T-piece. This promising innovation may enhance outcomes for these vulnerable infants by refining the way we provide respiratory support in their critical first moments. The research objective is to compare the clinical outcomes of extremely premature infants receiving manual T-piece versus V-PPV during immediate post-birth stabilization. The primary aim is to evaluate the impact of V-PPV on major health complications or death. This study seeks to provide insights into improving the care and outcomes of these infants during a critical stage of transition from fetus to newborn.
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.
This is a randomized trial to determine if a visible respiratory function monitor (RFM) displaying realtime measurements of delivered inflations improves clinical providers ability to perform positive pressure ventilation (PPV) within a pre-defined target tidal volume in preterm infants after birth.
This is a prospective, non-interventional, observational study of consecutive burn patients admitted to 20 selected burn centers in North America. Primarily, data collection will be continuous "real-time" documentation of fluid infusion rates, vital signs and laboratory values of patients receiving fluid resuscitation during the first 48 hours following burn injury. All aspects of the resuscitation and all investigations performed will be according to the participating center's regular protocol, as this is purely an observational and non-interventional study. Further data collection on outcomes (organ function, ventilation duration, length of stay, and survival) will be collected at 72h, 96 h, and at hospital discharge.
The purpose of this study is to determine whether using electrocardiograms (ECGs) during resuscitation of preterm infants (less than 31 weeks gestation) will decrease the amount of time it takes from birth for heart rate (HR) to be above 100 beats per minute and oxygen saturations to be in the goal range, in other words to stabilize the infant. A few studies have been conducted which showed that ECGs are faster at detecting HR than pulse oximetry (PO). Sample sizes, however, have been small and only few extremely low birthweight infants have been included. It is unclear if use of ECG in these tiny preterm infants in addition to traditional techniques to determine HR will be beneficial and impact resuscitation and outcomes. The investigators propose a study where infants will be randomized to either using ECG in addition to PO ± auscultation versus PO ± auscultation only to assess HR during neonatal resuscitation. The investigators hypothesize that the group of infants randomized to ECG will be able to stabilize faster, i.e. achieve HR \> 100 beats per minute and oxygen saturation in goal range faster.
The most appropriate initial oxygen concentration for the resuscitation of the extremely low birth weight infant has not been established using large well designed, randomized, blinded, prospective trials and the level of oxygen utilized by practitioners in this situation is highly variable. This proposed trial will use targeted oxygen saturation levels over the first 15 to 20 minutes of life to compare a low and a higher initial oxygen level for the resuscitation of such infants, and will be large enough to evaluate short term outcomes of survival without oxygen at 36 weeks and survival without retinopathy of prematurity, and the long term outcome of survival without significant neurodevelopmental impairment at 2 years of age. Such information is urgently required to provide an evidence basis for the initial oxygen concentration for resuscitation of these very preterm infants.
The purpose of this study is to compare rapid thrombelastography (r-TEG) with conventional coagulation testing for diagnosing and treating coagulation abnormalities in severely injured patients who are likely to require transfusion therapy.
The purpose of this study is to assess the ability of an empiric resuscitation strategy compared to standard care to decrease the incidence of organ failure in normotensive sepsis patients.
The short term goal of this study is to evaluate a non-invasive approach that optimizes intravenous (IV) fluid administration according to heart performance and results in surrogate improvements in morbidity and mortality via lactate clearance. Additional objectives include comparative assessments of methods for determining volume responsiveness and establishing a prevalence of volume responsive shock in the Emergency Department (ED).
The purpose of the study is to help determine if either crystalloid solution or colloid solution is more advantageous as a resuscitative fluid in post-operative pediatric cardiac patients.
The purpose of this study is to determine if there is equivalence between two different methods of treating patients with severe bloodstream infection called sepsis. We will randomly assign patients to one of two treatment methods. One of the treatment methods is the current standard of care and uses an infrared sensor on the end of a catheter to determine the adequacy of treatment. The second treatment method is identical to the first but instead of the infrared sensor a blood test that is performed as a part of standard care (with blood drawn from the catheter) will be used to determine the adequacy of treatment. This study will attempt to determine an easier method of guiding treatment.
We propose a preliminary trial to evaluate the safety and efficacy of using more restricted oxygen during resuscitation for VLBW infants than is utilized currently in an effort to reduce the oxidant stress of such treatment, and to possibly reduce associated multi-system organ related dysfunction. In attempting to design a trial comparing higher versus lower oxygen during neonatal resuscitation with the potential for benefit to the enrolled infants, and a minimal level of risk, and acknowledging that the use of Room Air may be considered premature in view of the lack of any safety data in this population, we are proposing to utilize an oxygen blender and a pulse oximeter in the delivery room in the treated group. The treated group will have their fraction of inspired oxygen increased from 21%, as necessary, to achieve a target oxygen saturation of 85 to 90% at 5 minutes of life, compared with the standard of care group who will receive 100% oxygen without the use of a blender, which is the current approach in most centers in this country. The targeted saturation of 85% will provide enough oxygen to treat any ventilation/perfusion mismatch, while exposing the infants to significantly less inspired oxygen. Hypothesis: We hypothesize that the use of restricted inspired oxygen during resuscitation will result in a significant reduction in oxidant stress without any harmful clinical effects.
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.
This study is designed to answer one of the fundamental gaps in knowledge in the resuscitation of preterm infants at birth: What is the optimal target oxygen saturation (SpO2) range that increases survival without long-term morbidities? Oxygen (O2) is routinely used for the stabilization of preterm infants in the delivery room (DR), but its use is linked with mortality and several morbidities including bronchopulmonary dysplasia (BPD). To balance the need to give sufficient O2 to correct hypoxia and avoid excess O2, the neonatal resuscitation program (NRP) recommends initiating preterm resuscitation with low (≤ 30%) inspired O2 concentration (FiO2) and subsequent titration to achieve a specified target SpO2 range. These SpO2 targets are based on approximated 50th percentile SpO2 (Sat50) observed in healthy term infants. However, the optimal SpO2 targets remain undefined in the preterm infants. Recent data suggest that the current SpO2 targets (Sat50) may be too low. The investigators plan to conduct a multicenter RCT of Sat75 versus Sat50 powered for survival without BPD. The investigators will randomize 700 infants, 23 0/7- 30 6/7 weeks' GA, to 75th percentile SpO2 goals (Sat75, Intervention) or 50th percentile SpO2 goals (Sat50, control). Except for the SpO2 targets, all resuscitations will follow NRP guidelines including an initial FiO2 of 0.3. In Aim 1, the investigators will determine whether targeting Sat75 compared to Sat50 increases survival without lung disease (BPD). In addition, the investigators will compare the rates of other major morbidities such as IVH. In Aim 2, the investigators will determine whether targeting Sat75 compared to Sat50 increases survival without neurodevelopmental impairment at 2 years of age. In Aim 3, the investigators will determine whether targeting Sat75 compared to Sat50 decreases oxidative stress.
There is need for a whole blood analog for use when banked blood is unavailable or undesirable. In civilian trauma, hemorrhage accounts for \~ 35% of pre-hospital deaths; moreover, \~ 20% of military casualties are in hemorrhagic shock on arrival to field hospitals and an additional 5% require urgent transfusion. A recent review concluded that hemorrhage accounted for \~ 90% of potentially survivable battlefield deaths - lives that could be saved with better hemorrhage control capabilities and improved, field-ready blood, blood components, or blood substitutes. While study of ideal composition for resuscitative fluids is ongoing, it is evident that for those in hemorrhagic shock, volume replenishment alone (without O2 carrying capacity) is insufficient. Alternatively, with massive blood loss or with ongoing bleeding from non-compressible injuries, resuscitation with an O2 carrier alone may be complicated by acquired coagulopathy (either dilutional or trauma-induced). Development of a balanced resuscitation fluid that treats both shock and coagulopathy (comprising a field-deployable O2 carrier with lyophilized humoral hemostatic components and platelets) is essential to allow on-scene treatment during the critical 'golden-hours' after injury. As such, the whole blood analog described herein could be this product, thus transforming care in both civilian and military settings.The scientific purpose of this study is to develop a combined whole blood substitute from individual artificial prototypes that have been separately developed for each blood component (i.e., combining an artificial oxygen carrier, with an artificial plasma analogue and an artificial platelet analogue). Together, these combined components will recapitulate the composition and performance of natural whole blood. Blending and combination experiments of the individual artificial prototypes will be performed to test compatibility and optimize efficacy. State of the art in vitro (bench top) assays will be performed to assess physicochemical and functional performance (hemodynamics, oxygen delivery, hemostasis), with data being compared to experiments performed on fresh and stored whole blood.
More than 80% of the 3 million women who labor and deliver each year in the United States undergo continuous electronic fetal monitoring (EFM) during labor in order to fetal hypoxia and prevent the transition to acidemia, expedited operative delivery, and/or neonatal morbidity. Category II EFM is the most commonly observed group of fetal heart rate features in labor. One common response to Category II EFM is maternal oxygen (O2) supplementation. The theoretic rationale for O2 administration is that it increases O2 transfer to a hypoxic fetus. There are conflicting national guidelines regarding O2 administration - the American College of Obstetricians and Gynecologists suggest O2 is ineffective, whereas the Association of Women's Health, Obstetric, and Neonatal Nurses recommend continued use given lack of definitive data on safety and efficacy. A recent national survey of nearly 600 Labor \& Delivery providers in February 2022 revealed that 49% still use O2 . Thus, there remains equipoise on the topic and high-quality data on the safety of intrapartum O2 is needed. None of the trials to date have studied the effect of intrapartum O2 on important clinical measures of neonatal or maternal morbidity. This safety data is imperative because the field of obstetrics must hold supplemental O2 to the same rigorous standards applied to any drug used in pregnancy. Without data on these definitive outcomes, it will be challenging to implement evidence-based recommendations for supplemental O2 use on Labor \& Delivery. The investigators will conduct a large, multicenter, randomized noninferiority trial of O2 supplementation versus room air in patients with Category II EFM in labor.
The goal of this clinical trial is to compare the effectiveness of unseparated whole blood (referred to as Low-Titer Group O Whole Blood) and the separate components of whole blood (including red cells, plasma, platelets, and cryoprecipitate) in critically injured patients who require large-volume blood transfusions.
The Non-Invasive Cardiac Output Monitor (NICOM) is a non-invasive monitor capable of measuring cardiac output (CO) and cardiac index (CI), and stroke volume (SV) and stroke volume index (SVI) based on heart rate. Conceptually NICOM is a technology that utilizes a dynamic response characteristic in assessing the need for fluid administration, whereby SVI is measured before and after a fluid challenge with more fluid given only if SVI increases significantly with administered fluid. Dynamic response technologies are intended to replace older, "static" measures such as central venous pressure (CVP) and pulmonary capillary wedge pressures (PCWP) which are single point measurements utilized to assess the need to administer fluid. The aim is to pilot and evaluate the effectiveness of using The Non-Invasive Cardiac Output Monitor (NICOM) technology for goal-directed fluid resuscitation in adult inpatients with sepsis associated acute hypotension and/or evidence of septic shock (Lactate \>= 4.0).
The Hospital Airway Resuscitation Trial (HART) is a cluster-randomized, pragmatic trial of advanced airway management with a strategy of first choice supraglottic airway vs. first choice endotracheal intubation during in-hospital cardiac arrest.
Aortic occlusion (AO) for trauma has traditionally been accomplished by supra-diaphragmatic clamping of the descending thoracic aorta via emergent thoracotomy or as an initial step during laparotomy.
It is a retrospective study. Patients, who presented with either traumatic or general surgery emergencies, undergone exploratory laparotomy, had an open abdomen management and received Direct Peritoneal Resuscitation in addition to standard resuscitation will be considered as meeting the criteria to collect the data.
This study is being conducted to assess the safety of Direct Peritoneal Resuscitation (DPR) in high-risk liver transplant patients. The investigators want to also identify if this method of recovery after large surgery has the same benefits in liver transplant patients as have been appreciated in other surgical patients. The combination of elevated BMI and impaired kidney function increases the risk of 1) needing intensive care unit (ICU) admission after surgery, 2) slow function of the new liver \[technically termed Early Allograft Dysfunction (EAD)\] and 3) need for more than one operation. The study team also aims to identify if DPR can reduce these risks and not cause other unexpected complications following surgery. DPR involves the infusion of a solution into the abdomen and has been shown to reduce edema and improve blood flow in organs. The solution used in this study is a commercially available peritoneal dialysate, a dextrose containing solution that is infused into the abdominal cavity and is routinely used in patients with end-stage renal disease requiring dialysis.