50 Clinical Trials for Various Conditions
The authors hypothesized that inhaled sedation, either with isoflurane or sevoflurane, might be associated with improved clinical outcomes in patients with COVID-19-related ARDS, compared to intravenous sedation. The authors therefore designed the "Inhaled Sedation for COVID-19-related ARDS" (ISCA) non-interventional, observational, multicenter study of data collected from the patients' medical records in order to: 1. assess the efficacy of inhaled sedation in improving a composite outcome of mortality and time off the ventilator at 28 days in patients with COVID-19-related ARDS, in comparison to a control group receiving intravenous sedation (primary objective), 2. investigate the effects of inhaled sedation, compared to intravenous sedation, on lung function as assessed by gas exchange and physiologic measures in patients with COVID-19-related ARDS (secondary objective), 3. report sedation practice patterns in critically ill patients during the COVID-19 pandemics (secondary objective).
The primary aim of the study is to evaluate consequences of frailty in critically ill patients. We hypothesize that a higher frailty index (based on published questionnaires) predicts a longer surgical intensive care unit and hospital length of stay, less ventilator-free days and a higher likelihood of an adverse discharge disposition. Our secondary aim is to identify muscle-size derived variables that can be used to predict frailty. We hypothesize that a low skeletal muscle mass measured by ultrasound can be used to quantify frailty, and to also predict the outcome of SICU patients, expressed as longer stay in the surgical intensive care unit and longer stay in the hospital, less ventilator-free days and a higher likelihood of an adverse discharge disposition. Our third aim is to examine potential triggers of muscle wasting in critically ill patients. Muscle wasting will be assessed by repetitive ultrasound measurements of muscle mass. We hypothesize that a significant decrease in skeletal muscle mass predicts longer stay at the surgical intensive care unit and longer hospital length of stay, less ventilator-free days and adverse discharge disposition.
This study using a Delphi methodology, and involving international experts, will help define a training curriculum for physicians involved with airway management in critically ill patients.
The investigators intend to conduct a single-center, prospective, randomized comparative trial of patients admitted to the intensive care unit (ICU) who received continuous glucose monitoring (CGM) vs point of care (POC) glucose monitoring. The study will examine relevant outcomes for patients in the ICU with diabetes mellitus and/or hyperglycemia. The primary outcome of the study will be the proportion of time in target range (blood glucose 70-180 mg/dL).
While mortality in U.S. pediatric intensive care units (PICUs) is improving, surviving children frequently develop persistent physical, cognitive, and psychological impairments. Over half of critically ill children experience potentially preventable PICU-acquired morbidities, with mechanically ventilated children being at greatest risk. In critically ill adults, randomized trials have shown that progressive mobility, started early (within 3 days of initiating mechanical ventilation), decreases muscle weakness and the duration of mechanical ventilation. However, similar randomized studies have not been conducted in the PICU. The investigator's prior studies revealed that less than 10 percent of critically ill children at the highest risk of functional decline are evaluated by a physical or occupational therapist within 3 days of PICU admission. Given the interplay of sedation, delirium, sleep, and immobility in the PICU, single-component interventions, such as sedation protocolization, have not consistently shown benefit for decreasing mechanical ventilation duration. Thus, the investigators developed the first pediatric-specific, interprofessional intervention (PICU Up!) to integrate goal-directed sedation, delirium prevention, sleep promotion, and family engagement into daily PICU care in order to facilitate early and progressive mobility. The investigators have demonstrated the safety and feasibility of this pragmatic, multifaceted strategy in both single-site and multicenter pilot studies. Hence, the next phase of the investigators research is to evaluate the clinical effectiveness and delivery of the PICU Up! intervention across a range of PICU patients and health systems. The investigators propose a pragmatic, stepped-wedge, cluster randomized controlled trial that will include 10 academic and community hospitals in the United States, with the following Aims: 1) Evaluate if the PICU Up! intervention, delivered under real-world conditions, decreases mechanical ventilation duration (primary outcome) and improves delirium and functional status compared to usual care in critically ill children; and 2) Conduct a multi-stakeholder, mixed-methods process evaluation to identify key contextual factors associated with delivery of PICU Up!. If proven effective, the PICU Up! intervention has potential to profoundly change medical care in the PICU and substantially impact public health by improving outcomes for the growing number of pediatric survivors of critical illness.
The purpose of the study is to characterize various healthcare practitioners' perspectives on implementation of beta-lactam therapeutic drug monitoring in critical care practice.
Patients in end-stage cardiac failure and/or respiratory failure may be started on a rescue therapy known as Extracorporeal Membrane Oxygenation (ECMO). One of the major clinical questions is how to manage the ventilator when patients are on ECMO therapy. Ventilator Induced Lung Injury (VILI) can result from aggressive ventilation of the lung during critical illness. VILI and lung injury such as Acute Respiratory Distress Syndrome (ARDS) can further increase the total body inflammation and stress, this is known as biotrauma. Biotrauma is one of the mechanisms that causes multi-organ failure in critically ill patients. One advantage of ECMO is the ability to greatly reduce the use of the ventilator and thus VILI by taking control of the patient's oxygenation and acid-base status. By minimizing VILI during ECMO we can reduce biotrauma and thus multi-organ failure. Since the optimal ventilator settings for ECMO patients are not known, we plan to study the impact of different ventilator settings during ECMO on patient's physiology and biomarkers of inflammation and injury.
The objective is to determine the effectiveness of a multimodal educational intervention to reduce supplemental oxygen use in critically injured patients. Investigators will also evaluate the safety and clinical effectiveness of the more targeted use of oxygen therapy.
This study evaluates a novel arm restraint compared with traditional soft wrist restraints in older critically ill patients. The primary outcome is upper extremity mobility measured by actigraphy, and secondary outcomes include sedation, agitation, satisfaction, and acceptability.
Noise in the ICU can worsen patient outcomes through factors such as increased cardiovascular stress, alteration in sleep, and increased discomfort or pain The purpose of this study is to determine the benefit of therapeutic music in the ICU on patients, their families, and ICU staff.
Recent decreases in Pediatric Intensive Care Unit (PICU) mortality rates have been offset by increased morbidity and length of stay for vulnerable young patients. Heavy sedation, bedrest, and delirium contribute to a PICU culture of immobility. While studies in adult ICU patients demonstrate the clinical benefits of early mobilization, fewer than 25% of critically ill children mobilize early in the children's PICU stay. The investigators have demonstrated the safety and feasibility of the 'PICU Up!' Mobility Program, which integrates sleep promotion, delirium prevention, sedation optimization as a bundle to increase mobilization. However, the generalizability and broader impact on patient- and family-centered outcomes is unknown. Therefore, there is an urgent need for trials that blend both clinical effectiveness and implementation research to create a PICU culture of mobility and improve the value of PICU care. The overall objective of the proposed research is to determine the impact of a transdisciplinary and multifaceted early mobility program on clinical outcomes and ICU-acquired morbidities in critically ill children. Additionally, the investigators will identify barriers and facilitators to high-performance bundle adoption.
The objective of this study is to conduct an observational pre/post study to evaluate the clinical impact oxygen guideline implementation on oxygen utilization and oxygenation in critically ill trauma patients.
The purpose of this study is to investigate the effect of location of feeding on glycemic control in critically ill patients. The investigators hypothesize that glycemic control in critically ill patients who receive enteral nutrition through postpyloric location (beyond stomach) will have better glycemic control compared to critically ill patients fed gastrically.
The purpose of this study is to assess the treatment effect of intravenous TAK-954 in improving the average daily protein adequacy received through enteral nutrition in critically-ill participants developing EFI.
This study evaluates the effects of either Pediasure or Nourish formulas on the gastrointestinal microbiome in critically-ill children. Patients will be randomized to received either Pediasure or Nourish.
The primary aim of the study is to assess the mobility dose in neurocritical care patients with ischemic stroke or intracranial hemorrhage and its effects on discharge disposition and patient outcomes. The investigators hypothesize that patients' mobilization dose in the intensive care unit (ICU) predicts discharge disposition, 90 day Barthel Index and other outcomes like muscle wasting (expressed as decrease in rectus femoris cross sectional area (RF-CSA) in the paretic and non-paretic limb measured by bedside ultrasound), and ICU length of stay (LOS).
The investigator will investigate the effects of higher protein/amino acid dosing (≥2.2 g/kg/d) vs usual protein/amino acid dosing (≤1.2 g/kg/d) on clinical outcomes in nutritionally high risk ill patients.
Mechanical ventilation can be life saving strategy for patients with respiratory failure due to a variety of reasons. Once the underlying illness has resolved, intensive care doctors have to take a decision on when the patient is safe to get off the ventilator or be extubated. They use clinical assessment of the patient's ability to breathe spontaneously and make use of some breathing parameters to make the judgment. Most of the time, a patient can come off the ventilator and do well, but sometimes muscle weakness from sickness can affect the patient's ability to breathe adequately once ventilator support is discontinued. If that occurs, the patient may have to be put back on the ventilator and the physician will suggest some changes to help muscles get stronger. A simple, non-invasive test that can assess respiratory muscle state before taking patients off the ventilator to see if their muscles look healthy can help distinguish which patients may not be ready to be extubated. There are currently several tests available to assess muscle strength, in particular muscles that help in breathing like the intercostal muscles and diaphragm. The study will test the use of Ultrasonography (Ultrasound) as a non-invasive test to assess the muscles of respiration. This test will also help the investigators test physical therapies and interventions of mechanical ventilation that can help patients strengthen the muscles while waiting for extubation.
Each year, millions of Americans are admitted to an intensive care unit (ICU). For more than half of them, ICU admission initiates a cascade of decisions about treatment and end-of-life care.This is particularly the case for patients with chronic critical illness, a life-limiting syndrome. Most (74%-82%) ICU patients who require mechanical ventilation have transient or persistent cognitive impairment that precludes them from making their own healthcare decisions. Among ICU patients, the chronically critically ill (CCI) are at highest risk for cognitive impairment and thus require a surrogate decision maker (SDM), usually a family member. SDMs for the critically ill often describe high states of psychological stress associated with the uncertainty of the patient's condition and their decision making role. The purpose of this study is to test the effectiveness of two decision support interventions for end-of-life care delivered to SDMs of CCI patients. This will be the first study to test interventions tailored to the unique needs of the SDMs of CCI patients delivered using an interactive avatar based format.
For family members of chronically critically ill (CCI) patients, an ICU admission marks a significant milestone in the patient's illness trajectory that highlights the onset of end of-life issues and an abrupt need for family members to assume the caregiver role for the first time. Assuming the caregiver role can have devastating and longstanding health consequences for family members, which can impair their ability to sustain caregiving behaviors for a CCI patient. The unrelenting psychological distress perceived by caregivers of CCI patients is linked to significant reductions in their self-management and health outcomes. The purpose of this study is to evaluate a theoretically-derived Adaptive SenSor-Based Intervention for Caregiver Self-ManagemenT (ASSIST) intervention compared to an attention control condition for first time caregivers of CCI patients discharged to an extended care facility. One group will be exposed to the ASSIST intervention and will wear the sensor-based technology for 30 days and receive a daily dose of MMT. Biophysical sensor data (blood pressure, heart-rate variability, pedometry, and actigraphy) will be continuously acquired and analyzed using anomaly detection and machine learning techniques to vary the dose intensity (number of doses per day) of the two components of ASSIST adding a real-time, adaptive feature to promote caregiver self-management. The other group will wear the sensor-based technology for 30 days but will not receive the daily dose of MMT. The investigators will randomly assign participants to each group.
A retrospective study of protein intake and needs as well as outcomes in critically ill adult patients. Data will be collected for up to 7 days of ICU stay.
The goal of the project is to determine the effects of noise masking and noise reduction on stress related physiological parameters in critically ill patients admitted to the intensive care unit.
Patients who are admitted to the intensive care unit and require mechanical ventilation frequently develop profound respiratory and limb muscle weakness. Studies show that the development of weakness during the ICU stay results in poor outcomes. Currently there are no treatments for this muscle weakness, but it has been suggested that this weakness might improve with physical therapy. Electrical stimulation is a method to provide direct stimulation to the muscles potentially enhancing function and improving strength. The purpose of this study is to test the hypothesis that neuromuscular electrical stimulation of the quadriceps muscle will improve muscle strength in patients who are critically ill on mechanical ventilation.
The hypothesis of this study is that a Ketamine / Propofol mixture will produce more stable hemodynamics as compared to Etomidate during emergent intubations in the intensive care unit. Patients that require a breathing tube to be placed in the ICU will be randomized to receIve either a Ketamine / Propofol mixture or Etomidate for sedation in order to place the breathing tube.
Critically ill surgical patients are observed to have a functional iron deficiency which contributes to anemia, iron-deficient erythropoiesis, and an increased red blood cell transfusion requirement. Previously, iron supplementation has been studied in this population with the administration of enteral ferrous sulfate and intravenous iron sucrose but without robust results in resolving serum and bone marrow iron debts. Ferric carboxymaltose (FCM) is novel iron-containing complex that allows for the administration of a large dose of iron over a short infusion period to allow for sustained delivery of iron to target tissues with minimal hypersensitivity reactions. While there has been reported increased efficacy and comparable safety of FCM when compared to iron sucrose in the outpatient setting, there is no data comparing these two medications in surgical critical illness. The aim of this pilot trial is to compare two novel dosing schemes of these medications for treatment of functional iron deficiency in surgical ICU patients. The investigators hypothesize that iron supplementation with FCM, as compared to both iron sucrose and placebo, is more effective and equally safe for replacing the serum iron debt.
The objective of this study is to determine the effect of thiamine therapy on oxygen consumption (VO2) in critically-ill patients. We will evaluate this by measuring VO2 before and after thiamine or placebo administration in patients admitted to the ICU and requiring mechanical ventilation. A secondary aim is to evaluate the effect of thiamine vs. placebo on the metabolic profile of the patients.
It is well accepted that during critical illness there is an increase in protein breakdown and loss of lean body mass. Previous studies have shown that during critical illness muscle breakdown increases dramatically. The aim of our study is to test the hypothesis that critically ill patients have improved outcomes with higher protein supplementation.
The purpose of this study is to compare the effects of intravenous acetaminophen to placebo on body temperature and hemodynamic (heart rate and blood pressure) responses in febrile critically ill adult patients. There are limited data to explain the variable and unpredictable antipyretic and hemodynamic response to acetaminophen in febrile ICU patients. The complex pathophysiology of critically ill patients, co-morbid conditions, the effect of multiple pharmacologic and non-pharmacologic care interventions, and/or the potential interferences with absorption of enteral or rectal formulations may be related to variations in the antipyretic response to acetaminophen. It is necessary for clinicians to have a better understanding of the therapy response and potential adverse effects of this commonly administered medication, especially the recently available IV formulation, in critically ill patients. Further research of the antipyretic response to acetaminophen in critically ill patients is warranted to inform evidence-based practice guidelines for fever management. Further randomized, placebo-controlled studies of hemodynamic responses to IV acetaminophen are also warranted. Primary Hypothesis: There is a significant reduction in time-weighted average core body temperature over 4 hours after administration of IV acetaminophen compared to placebo in febrile critically ill patients. Secondary Hypotheses: 1. There is a significant reduction in time-weighted average heart rate over 4 hours after administration of IV acetaminophen compared to placebo in febrile critically ill patients. 2. There is a significant reduction in time-weighted mean arterial pressure over 4 hours after administration of IV acetaminophen compared to placebo in febrile critically ill patients. Adult patients with fever (≥ 38.3ºCentigrade/101ºFarenheit) in the intensive care unit will be screened for eligibility and enrolled after informed consent. Patients will be randomized to receive IV acetaminophen 1 gram or normal saline 100 mLs. Body temperature, heart rate, and blood pressure will be measured at baseline and during the 4 hours post study drug administration.
The premise of this study is that enteral tranexamic acid will help to maintain small bowel integrity, which is often compromised by critical illness due to inadequate cardiovascular perfusion (i.e., shock), and that maintenance of small bowel integrity will decrease morbidity in critically ill patients.
The purpose of this study is to compare the accuracy and precision of two non-invasive methods of measuring cardiac output in critically ill children (\<18 yrs). The participants will include any patient admitted to Pediatric intensive care unit (PICU) requiring a trans-thoracic ECHO (TTE) as part of their treatment plan. Measurements of intermittent cardiac output will be obtained and compared on participants using standard 2-D TTE and Ultrasound Cardiac Output Monitor (USCOM).