290 Clinical Trials for Various Conditions
The investigators hypothesized that dornase alpha, administered twice a day (BID) by in-line nebulizer, would improve oxygenation, compliance, and time to extubation in adult patients receiving mechanical ventilation.
The purpose of the study is to establish clinical determinants of poor cognitive and physical functional outcome of CCI patients so that the investigators may develop and validate a multi-dimensional clinical prediction model to more effectively inform decision making earlier in the course of the ICU care. The investigators hypothesize that multiple premorbid and acute factors measured early in the course of CCI will have strong independent associations with functional recovery. The investigators further hypothesize that social and economic factors are associated with long-term functional outcomes independent of the acute clinical problems.
Non-invasive positive pressure ventilation (NIV) refers to the provision of mechanical ventilation without an artificial airway (for example, an endotracheal tube). Over the past decade, evidence from randomized control trials has accumulated to demonstrate effectiveness of the technique in avoiding intubation, reducing complications associated with intubation, shortening ICU and hospital lengths of stay, and reducing mortality rates in selected patients with acute respiratory failure. However, NIV is still underutilized at many medical centers. The purposes of this project will be to acquire information related to NIV use, to identify reasons for underutilization, to implement interventions that encourage more appropriate use of NIV, and to evaluate the effectiveness of the interventions. Reliable information on NIV use as well as analysis of reasons for underutilization will provide insight into ways of enhancing NIV use. We will determine utilization rate, technology used, patient diagnoses, duration of ventilator use and hospital stay, and success rates as recorded on case report forms (CRFs). After completing the survey, we will provide an educational program to randomly selected institutions (one-half of the total) aimed at increasing the knowledge and skill of physicians, nurses, and therapists regarding use and implementation of NIV. Data will be gathered for a second round with the same data-gathering instruments used during
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.
Ventilator associated events (VAE) is a quality metric defined by 48 hours of stability followed by 48 hours of escalation of ventilator settings within the ICU. VAE have been associated with poor outcomes and increases the cost of care, yet is not easy to avoid. Operationalizing all the standards of care known to improve outcomes of those requiring mechanical ventilation in the critical care environment requires a comprehensive approach. ICU teams are encouraged to follow best practice protocols to help liberate and prevent VAEs. Yet, compliance with protocols in most ICUs is suboptimal for multiple reasons. With the advent of computerized mechanical ventilators capable of streaming data from breath to breath and biomedical integration systems (BMDI) such as Capsule (UTMB's BMDI system), software systems have been developed to help identify variances in the standard of care. Automation in near real-time ventilator data feedback has been shown to reduce the incidences of VAEs. This quality improvement project will leverage Vyaire's Respiratory Knowledge Portal (RKP) to collect and store meaningful data regarding ventilator-associated events (VAE), alarm policy compliance, ventilator weaning, and lung protective analytics. Goals: 1. To collect quality metrics utilizing RKP from patients requiring mechanical ventilation over a 3-4-month period for a retrospective baseline analysis. 2. Provide the RKP tool to the ICU team to determine if the use of RKP's webportal and Messenger Zebra phone app improves quality of mechanical ventilation and outcomes. 3. To determine a return on investment (ROI) for a software system like RKP.
Prior to surgery the anesthesia team will be putting a breathing tube into the patient's windpipe and attaching it to a mechanical ventilator (breathing machine). This is to provide oxygen and anesthetic gas, and to help the child breathe while they're asleep. The ventilator also controls the amount of air that moves in and out of the lungs with each breath. This is called tidal volume and that amount is programmed into the machine by the anesthesia team. All of this is standard of care. As part of the study the investigators will put a small flow sensor between the patient's breathing tube and the tubing from the ventilator. This will measure the amount of air that is moving in and out of the breathing tube. The study team will record the tidal volume that is set on the ventilator and compare it to the airflow measured by the ventilator and the airflow measured by the sensor and see if there is a difference.
Effective respiratory ventilation is achieved by moving the right amount of air in and out of the lungs while keeping the pressures at a safe level. A disposable safety device, Adult Sotair®, was created to improve manual ventilation delivery. In this non-inferiority study, we will perform a pre-post study design (single group, within-group comparison) to test the non-inferiority of the Adult Sotair® device compared to mechanical ventilation.
The purpose of this study is to determine the effect of methadone on the duration on mechanical ventilation in critically ill patients receiving more than 72 hours of mechanical ventilation (MV) by comparing the number of ventilator free days from enrollment to the time of discharge, to assess the safety of methadone administration in critically ill patients while in the hospital and to determine hospital length of stay from the time of enrollment to the time of discharge
Some children who are born very early or have other congenital conditions may develop severe, long-term lung problems that make them need to use a breathing machine to live at home. There are no studies that identify the best ways to monitor a home breathing machine or adjust its settings. Increasingly, healthcare systems are using information collected at home to make more informed decisions about a patient's healthcare treatment, which is called "remote patient monitoring". This study will ask whether using remote patient monitoring can provide more complete information to a child's team of doctors, nurses, and respiratory therapists to help a child's healthcare team and family make more informed decisions about a child's home ventilator care. The investigators are hypothesizing it can safely decrease the level of breathing support children need while also avoiding emergency and hospital care and supporting their growth, development, and participation in daily life.
This is a clinical trial to compare the oxygenation and ventilation performance between manual ventilation and mechanical ventilation when transporting cardiac patients to the ICU.
The goal of this study is to compare two different ways of helping patients with a condition called sepsis who need help breathing using a machine called a ventilator. The investigators want to study which way of setting the ventilator is better for the lungs. Here are the main questions the investigators want to answer: 1. How does the amount of air in the lungs and the way it moves differ between the two ways? 2. How does the way air spreads out in different parts of the lungs differ between the two ways? In this study, the investigators will take special pictures of the lungs using a machine called a CT scan. The pictures will show us how much the lungs stretch and how much air is in different parts of the lungs. The investigators will compare two different ways of using the ventilator: one personalized for each patient based on their breathing, and another way that is commonly used. By comparing these two ways, the investigators hope to learn which one is better for helping patients with sepsis who need the ventilator. This information can help doctors make better decisions about how to care for these patients and improve their breathing.
OPTI-Oxygen is a single center, stepped wedged, cluster-randomized, un-blinded, pragmatic, comparing the use of a combined inspired oxygen (FiO2) and peripheral oxygen saturation (SpO2) titration strategy utilizing electronic health records (EHR) based electronic alerts (e-alerts) for respiratory therapists in mechanically ventilated critically ill adults. All eligible mechanically ventilated patients, FiO2 titration and SpO2 goal range will be based on the correlation between SpO2 and arterial oxygen saturation (SaO2). E-alerts will be sent in the intervention arm as reminders for FiO2 titration. In the control arm, patients will have oxygen titrated per current standard of care (SpO2=88-92%, titrate FiO2 at least every 4 hours).
The objective of this study is to evaluate the efficacy of the VentFree Respiratory Muscle Stimulator (VentFree) in critically ill adult patients who require invasive mechanical ventilation, when compared to sham.
The goal of this study is to evaluate the impact of a clinical decision support system (CDSS) in children receiving mechanical ventilation (MV) after surgery for congenital heart disease (CHD). The main question it aims to answer is: -What is the impact of a CDSS designed to facilitate weaning and discontinuation of MV on the duration of MV in post-operative congenital cardiac surgery patients? Participants will be identified as eligible to initiate weaning from mechanical ventilation. Providers will decide whether or not to initiate weaning based on recommendations provided by the CDSS. Researchers will compare patients exposed to the CDSS with a historical cohort to see if the CDSS facilitated a decrease in MV duration.
The present study will utilize esophageal manometry to measure the presence and magnitude of persistent patient effort during lung protective ventilation, allowing identification and mitigation of occult lung stress.
This study will look at whether accounting for the amount of pressure generated by the chest wall and abdomen in a obese patient, using a measurement called transpulmonary pressure, can help shorten the amount of time patients spend on the ventilator. By decreasing the amount of time patients spend on the ventilator, they are less likely to develop complications such as infections, weakness or more procedures.
The aim of this study is to identify and determine the levels of oxidized lipids and lipid mediators following exposure to oxygen supplementation during mechanical ventilation by oxidative lipidomics. The investigators will include patients with mechanical ventilation and have received FiO2=\>0.5 atleast 90 minutes and collected two sequential mini bronchoalveolar lavage on them 24 hours apart. Mass Spectrometry Lipid chromatography will be conducted and clinical data will be analyzed.
This study will be conducted as a randomized trial of the TransAeris system for the prevention and treatment of ventilator-induced diaphragm dysfunction (VIDD) in patients identified prior to surgery to be at greater risk of prolonged mechanical ventilation (PMV).
Primary Research Question for the Full ULTIMATE Randomized Clinical Trial (RCT): What is the effect of ultra-protective ventilation facilitated by extracorporeal membrane oxygenation (ECMO) versus best current conventional ventilation (CV) on all-cause hospital mortality among patients with early moderate-severe acute respiratory distress syndrome (ARDS)? Secondary Research Questions: Among patients with early moderate-severe ARDS, what is the effect of ultra-protective ventilation versus CV on: (1) duration of mechanical ventilation; (2) duration of ICU and hospital stay; (3) organ dysfunction; (4) barotrauma; and (5) mortality at other time-points (ICU discharge, 28-day, 60-day)? The ULTIMATE Pilot Study: Before embarking on a definitive multinational trial to address the questions listed above, the ULTIMATE Pilot Study has these 3 specific feasibility objectives: 1. To assess adherence to our explicit mechanical ventilation protocols, with particular focus on delivered tidal volumes in both groups; 2. To estimate the rate of patient recruitment and understand barriers to recruitment; and 3. To measure and understand the reasons for crossovers or rescue by ECMO in the control group. In addition, we will monitor safety issues, recording serious adverse events in both groups.
The purpose of this study is to use CBT strategies in assisting patients hospitalized in intensive care units in ventilation wean through a case series of 2 patients.
The purpose of this Pilot Study is to establish a hypothesis of whether or not intravenous immunoglobulin (IVIG) may impact the hospital length of stay, if started within 48 of mechanical ventilation in patients infected with SARS-CoV-2 virus.
Prospective, Randomized, Double-Blind, Placebo-Controlled Phase II Trial of Intravenous L-Citrulline (Turnobi) to Delay and Potentially Prevent the Need for Invasive Mechanical Ventilation for Acute Hypoxemic Respiratory Failure in Patients with COVID-19 (SARS-CoV2) Illness. To evaluate safety and efficacy of a bolus loading dose and continuous intravenous infusion of L-Citrulline compared to placebo in patients hospitalized with COVID-19 infection (SARS-CoV-2).
The purpose of the proposed pilot study is to determine if core warming improves respiratory physiology of mechanically ventilated patients with COVID-19, allowing earlier weaning from ventilation, and greater overall survival.
Fractional oxygen during mechanical ventilation, is a life sustaining therapy in the intensive care unit , used for about a million patients annually. Oxygen therapy needs to be tightly balanced as both hypoxia and hyperoxia are harmful. Establishing precision in oxygenation has significant implications for improving patient outcomes, resource utilization and reducing iatrogenic harm to a vulnerable population. The investigators propose an approach using a oxygen titration protocol consisting of electronic health records based alerts to guide oxygen adjustment.
The purpose of this study is to investigate whether inhaled epoprostenol given via a breath actuated delivery system will help improve oxygen levels and treatment outcomes in patients with COVID-19 who are on mechanical ventilation.
This is a phase 1b randomized, double-blind, placebo-controlled study in adult subjects with Coronavirus Disease 2019 (COVID-19). This clinical trial will evaluate the preliminary safety and efficacy of BM-Allo.MSC vs placebo in treating subjects with severe disease requiring ventilator support during COVID 19 infection.
The purpose of this study is to evaluate the efficacy and safety of ruxolitinib in the treatment of participants with COVID-19-associated Acute Respiratory Distress Syndrome (ARDS) who require mechanical ventilation.
This study will be conducted as a pilot trial of the TransAeris system for the prevention and treatment of ventilator-induced diaphragm dysfunction (VIDD) in patients identified prior to surgery to be at greater risk of prolonged mechanical ventilation (PMV).
Perform a pilot study of quality improvement interventions for critical care physicians (intensivists) and respiratory therapists (RTs) to improve application of low tidal volume mechanical ventilation (LTVV) for patients with the acute respiratory distress syndrome (ARDS) using the computerized mechanical ventilation protocols currently available in the investigator's Cerner electronic health record (EHR).
Background: The requirement for ventilator support is a defining feature of critical illness. Weaning is the process during which the work of breathing is transferred from the ventilator back to the patient. Approximately 40% of the total time spent on ventilators is dedicated to weaning. The extent of practice variation in how this complex and expensive technology is discontinued from critically ill patients is unknown. Meanwhile, practice variation has been shown to adversely impact upon patient safety and clinical outcomes. Purpose: To characterize practice pattern variation in weaning and the consequences of weaning variation by implementing an international, prospective observational study in Canada, the United States, the United Kingdom, Europe, India and Australia/New Zealand. Primary Objectives: To describe 1. weaning practice variation among regions in 5 domains (the use of daily screening, preferred methods of support used before initial discontinuation attempts, use of written protocols, preferred methods of evaluating spontaneous breathing, and sedation and mobilization practices). 2. the assocation between selected discontinuation strategies and important clinical outcomes (length of stay, mortality, duration of ventilation). Methods: The investigators propose to conduct a large scale, observational study involving critically ill adults requiring ventilator support for at least 24 hours to evaluate practices in discontinuing ventilators in 150 centres. The investigators will classify each new admission over the observation period according to the initial strategy that precipitated or facilitated ventilator discontinuation. Relevance: This novel study will build collaborations with critical care investigators from around the world and industry