11 Clinical Trials for Various Conditions
The overarching hypothesis of the ARRC trial is that administration of Azithromycin (AZM) during acute, Respiratory Syncytial Virus (RSV)-induced respiratory failure will be beneficial, mediated through the matrix metalloproteinase (MMP)-9 pathway.
This randomized, double-blind, placebo-controlled phase 2 trial will be conducted at a single tertiary pediatric intensive care unit (PICU). The study will include children with RSV infection who were admitted to the pediatric intensive care unit and require respiratory support via positive pressure ventilation (invasive and noninvasive).
Treatment with lucinactant, a peptide-containing synthetic lung surfactant, will be evaluated in young children with acute respiratory failure who require mechanical ventilation (life support), to determine if it is safe and if treatment with lucinactant will reduce the number of days a child needs mechanical ventilation (life support).
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. \[Winner of Stage I\].
In this clinical trial, investigators want to learn more about using non-opioid pain medications for children with acute respiratory failure. Right now, doctors give these children opioids to help with pain while they are on the ventilator, but investigators don't know if this is the best way to manage their pain. Even with strong doses of opioids, more than 90% of these children still feel pain. Other pain medicines, like acetaminophen (also called Tylenol) and ketorolac (also called Toradol), are available but aren't commonly used because we don't know if they help. The goal of this clinical trial is to test if acetaminophen and/or ketorolac can improve pain control and reduce the need for stronger pain medications (opioids) in these children. To learn more about this, participants will be randomly placed in one of four study treatment groups. This means that a computer will decide by chance which group each participant is in, not the doctors running the study. Each group will receive a combination of intravenous acetaminophen, ketorolac or a harmless substance called a placebo. In this clinical trial, placebos help investigators see if the actual medications (acetaminophen and ketorolac) work better than something that doesn't contain medicine. By comparing participants who get the real medicine with those who get the placebo, investigators can find out if these medications effectively decrease pain.
The purpose of this study has two major goals: 1) to measure the amount of two specific hormones interleukin (IL)-10 and interleukin (IL)-12p70 in mucous and blood; and 2) compare the hormone levels in two specific areas of the lung called the trachea (upper airway) and the bronchioles (lower airway). The hormones IL-10 and IL-12p70 are cytokines, special hormones cells use to communicate with each other during inflammation or infection. Cytokines can be measured in mucous and blood. The balance of one cytokine compared to another help doctors to understand how people respond differently to infection. Unfortunately, the amount of IL-10 and IL-12p70 is not known in children, especially children with a lung infection. In addition, we do not know if the balance of these cytokines differ in various regions of the lung. We believe the balance of IL-10 and IL-12p70 is similar whether measured in the upper or lower airways.
Children who need to be on a ventilator often have thick secretions/mucus in their lungs. These secretions can obstruct the breathing tube and their windpipe, which can worsen lung function and prolong the need for the ventilator. Hypertonic saline is a medicine that is used to thin out secretions in patients with cystic fibrosis (and other conditions). We hypothesize that having children on a ventilator inhale this medication will shorten the amount of time that they need to be on the ventilator.
Thyroid hormones are substances naturally made by the body and are important to many of your body's basic functions such as breathing and brain function. We are investigating whether or not these hormones are at lower levels in critically ill children which could lead to further health problems. We hope to get a better understanding of hormone levels and their effects on critically ill children to better help other children in the future.
This study seeks to evaluate a Structured Family Deliberation that will serve as the primary intervention in a multicenter controlled trial involving families considering tracheostomy and home ventilation for the child. In this study, the investigators will evaluate the feasibility, usefulness, face validity, and preliminary impact of this approach on preparedness for decision making among participants.
Severe pediatric acute respiratory distress syndrome (PARDS) is a life-threatening and frequent problem experienced by thousands of children each year. Little evidence supports current supportive practices during their critical illness. The overall objective of this study is to identify the best positional and/or ventilation practice that leads to improved patient outcomes in these critically ill children. We hypothesize that children with high moderate-severe PARDS treated with either prone positioning or high-frequency oscillatory ventilation (HFOV) will demonstrate more days off the ventilator when compared to children treated with supine positioning or conventional mechanical ventilation (CMV).
In the United States, the current standard of prehospital (i.e. outside of hospitals) emergency care for children with life-threatening illnesses in the community includes remote physician support for paramedics providing life-saving therapy while transporting the child to the hospital. Most prehospital emergency medical services (EMS) agencies use radio-based (audio only) communication between paramedics and physicians to augment this care. However, this communication strategy is inherently limited as the remote physician cannot visualize the patient for accurate assessment and to direct treatment. The purpose of this pilot randomized controlled trial (RCT) is to evaluate whether use of a 2-way audiovisual connection with a pediatric emergency medicine expert (intervention = "telemedical support") will improve the quality of care provided by paramedics to infant simulator mannequins with life threatening illness (respiratory failure). Paramedics receiving real-time telemedical support by a pediatric expert may provide better care due to decreased cognitive burden, critical action checking, protocol verification, and error correction. Because real pediatric life-threatening illnesses are rare, high stakes events and involve a vulnerable population (children), this RCT will test the effect of the intervention on paramedic performance in simulated cases of pediatric medical emergencies. The two specific aims for this research are: * Aim 1: To test the intervention efficacy by determining if there is a measurable difference in the frequency of serious safety events between study groups * Aim 2: To compare two safety event detection methods, medical record review, and video review