415 Clinical Trials for Various Conditions
The current standard of care (SOC) for treatment of patients with acute respiratory distress syndrome (ARDS), inhalation injury, volume overload, and/or pulmonary dysfunction is mechanical ventilation (MV). However, these techniques are associated with several complications after prolonged use, including risk of infection, increased sedation requirements, pulmonary edema, ventilator-induced lung injury (VILI), barotrauma, and multi-organ failure. Extracorporeal life support (ECLS) has been used to successfully minimize, replace, or avoid the use of MV. This concept is critical as it permits ultra-lung protective MV settings, mobilization, early ambulation of patients, and timely extubation (when appropriate). Conventional ECLS typically requires blood flows of 3-6 L/min, and its cannula sizes range from 21-25 Fr. This is by definition "high-flow" as it constitutes near-complete extracorporeal circulation of patient's circulating blood volume. On the other hand, low-flow ECLS at 1-2.5 L/min has been shown to prevent deleterious shifts in pH and PaCO2 at a lower level of invasiveness, and its cannula sizes range from 19-20 Fr dual lumen cannulas (which are associated with less serial dilation). The investigators propose the use of a low-flow circuit to include the NovaLung system in conjunction with a smaller tubing set and cannula to enable earlier utilization of ECLS with less invasiveness and smaller catheters. Specifically, the study will either utilize the Crescent RA cannula (or equivalent dual-lumen cannula) or use a 15-25 Fr cannula, both with 3/8 tubing/step-down tubing, as needed, for our study. A femoral (fem)-femoral or femoral-internal jugular (IJ) approach may also be used. Carbon dioxide is six times more diffusible than oxygen across the membrane; thus, carbon dioxide transfers can occur with high efficiency at our targeted blood flows of 1-2.5L/min. Oxygen can still transfer at these blood flows, and low flow can improve oxygen levels to some degree. There are three benchtop-based manuscripts that suggest that low-flow ECMO is associated with a potential increase in factors that increase the risk of bleeding complications/circuit changes. However, the manuscripts either tested \<1 L/min blood flow rates, or the effect of cannula size was not considered. None of them included the biological component of endothelial interaction. Mitigating the risk of bleeding complications by will be completed by administering anticoagulants with a target PTT of 40-50 seconds, and by monitoring the patients and their coagulation panels closely. There may be less risk of circuit clotting in our study because of chosen flow rates (1-2.5 L/min).
Acute Hypoxemic Respiratory Failure, Mechanical Ventilation, Acute Respiratory Distress Syndrome (ARDS)
This prospective, open-label randomized controlled pilot trial will enroll participants at the Yale New Haven Hospital. Patients with systolic heart failure, defined as an ejection fraction ≤40%, who require invasive mechanical ventilation (IMV) and are admitted to either the cardiac intensive care unit (CICU) or medical ICU (MICU) will be included. Subjects meeting eligibility criteria will be randomized 1:1 to one of the two treatment groups: * Intervention: Extubation to high-flow nasal cannula (HFNC) * Control: Extubation to non-invasive ventilation (NIV)
Systolic Heart Failure, Respiratory Failure
Point-of-care ultrasound (POCUS) is the use of ultrasound by the bedside provider in real time to answer a specific question and guide medical management. POCUS can be used to diagnose the severity of neonatal respiratory distress syndrome (RDS) through a lung ultrasound score. Lung ultrasound scores have also been shown to predict if an infant is treated with an initial dose of surfactant. Therefore, using lung ultrasound scores to guide surfactant therapy for RDS will likely lead to earlier surfactant therapy and may improve short-term respiratory outcomes. This study will test this theory by comparing lung ultrasound score-guided surfactant therapy for premature infants with RDS with our current surfactant administration guidelines.
Respiratory Distress Syndrome, Newborn, Pulmonary Surfactants, Intensive Care Units, Neonatal
A growing number of patients are surviving a stay in the intensive care unit (ICU) but may experience long-lasting psychological problems, but research evaluating such treatment for ICU patients is scant. The goal of this pilot randomized controlled trial is to evaluate the feasibility, acceptability, and potential benefit of an evidence-based psychological intervention for anxiety and associated outcomes for ICU patients. The main question\[s\] it aims to answer are: * Is this intervention feasible and acceptable in ARF patients? * Is this intervention in the ICU and hospital associated with reduced anxiety symptoms? Participants will participate in a cognitive behavioral therapy informed self-management intervention aimed to reduce anxiety symptoms. Researchers will compare the intervention group to patients who receive usual care to see if the intervention reduces symptoms at the the conclusion of the intervention and at 3 months follow-up.
Respiratory Failure, Anxiety, Critical Illness
The study aims to find if using a Biphasic Cuirass Ventilation is as effective as using a Non invasive Positive Pressure Ventilation in patients admitted with acute hypercapnic respiratory failure.
Acute Hypercapnic Respiratory Failure
Artificial intelligence (AI) shows promising in identifying abnormalities in clinical images. However, systematically biased AI models, where a model makes inaccurate predictions for entire subpopulations, can lead to errors and potential harms. When shown incorrect predictions from an AI model, clinician diagnostic accuracy can be harmed. This study aims to study the effectiveness of providing clinicians with image-based AI model explanations when provided AI model predictions to help clinicians better understand the logic of an AI model's prediction. It will evaluate whether providing clinicians with AI model explanations can improve diagnostic accuracy and help clinicians catch when models are making incorrect decisions. As a test case, the study will focus on the diagnosis of acute respiratory failure because determining the underlying causes of acute respiratory failure is critically important for guiding treatment decisions but can be clinically challenging. To determine if providing AI explanations can improve clinician diagnostic accuracy and alleviate the potential impact of showing clinicians a systematically biased AI model, a randomized clinical vignette survey study will be conducted. During the survey, study participants will be shown clinical vignettes of patients hospitalized with acute respiratory failure, including the patient's presenting symptoms, physical exam, laboratory results, and chest X-ray. Study participants will then be asked to assess the likelihood that heart failure, pneumonia and/or Chronic Obstructive Pulmonary Disease (COPD) is the underlying diagnosis. During specific vignettes in the survey, participants will also be shown standard or systematically biased AI models that provide an estimate the likelihood that heart failure, pneumonia and/or COPD is the underlying diagnosis. Clinicians will be randomized see AI predictions alone or AI predictions with explanations when shown AI models. This survey design will allow for testing the hypothesis that systematically biased models would harm clinician diagnostic accuracy, but commonly used image-based explanations would help clinicians partially recover their performance.
Acute Respiratory Failure
There has been increasing use of venoarterial (VA) extracorporeal membrane oxygenation (ECMO) for infants with respiratory failure, up to 92% of neonatal respiratory support in 2021. This study seeks to leverage the increased use of VA ECMO in this cohort to enrich an evaluation of the differences in rate of intracranial hemorrhage and ischemic stroke between venovenous (VV) and VA ECMO among infants with respiratory failure where clinicians may choose either strategy. This project is a retrospective review of data in the ELSO registry.
Respiratory Failure
The goal of this study is to compare two different modes of noninvasive ventilation in hypercapnic respiratory failure. The investigators will compare AVAPS and BIPAP S/T and hypothesize that AVAPS will result in a decreased length of stay in the ICU or on telemetry. Currently, noninvasive ventilation is the standard of care for hypercapnic respiratory failure. However, the most effective mode for patients with hypercapnic respiratory failure is unclear.
Hypercapnic Respiratory Failure
This study is being conducted to evaluate if wearing a non-invasive breathing support device over the chest/abdomen improves markers of breathing in patients with lung injury requiring high-flow oxygen. The breathing support device consists of a plastic shell that sits over the chest and abdomen and connects to a vacuum that helps the chest expand with breathing. This breathing support is known as continuous negative external pressure (CNEP). Study findings will help determine if this breathing support device might be useful for patients with acute hypoxemic respiratory failure (AHRF).
Acute Hypoxemic Respiratory Failure
The aim of this proposal is to study whether proning, a technique that has previously been shown to improve lung function in patients with acute respiratory distress syndrome (ARDS), can prevent those with mild to moderate symptoms of COVID-19 from progressing to severe disease when initiated early, thereby averting intubation, reducing hospitalization, and, ultimately, decreasing mortality.
Covid19, Respiratory Failure
The purpose of this study is to learn more about problems with swallowing that could develop in patients who are very sick and need a machine to help them breathe.
Dysphagia, Aspiration
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.
Respiratory Syncytial Virus Infections
The purpose of this research is to evaluate two oxygen saturation goals for newborns with pulmonary hypertension. Participation in this research will involve random assignment to one of two oxygen saturation goals, review of the medical record and targeted echocardiograms.
Persistent Pulmonary Hypertension of the Newborn, Hypoxemic Respiratory Failure
The objective of the current study is to investigate the utilization of nebulized heparin to circumvent pathologic changes in COVID-19 and prevent harmful effects possible with systemic anticoagulation.
Covid19
The goal is to evaluate the trends in MouthLab parameters (respiration rate, temperature, pulse rate, electrocardiogram rhythm, blood pressure, oxygen saturation heart rate and basic lung function measures) in patients with decompensated heart failure and how these measurements change in response to decongestion. The research will test the ability of the MouthLab device to predict clinical decompensation in patients with known heart failure and to reduce the number of hospital readmissions based on the treatment guided by MouthLab device data.
Heart Failure
This is a phase 3 study designed to evaluate whether the administration of ganciclovir increases ventilator-free days in immunocompetent patients with sepsis associated acute respiratory failure. Our hypothesis is that IV ganciclovir administered early in critical illness will effectively suppress CMV reactivation in CMV seropositive adults with sepsis-associated acute respiratory failure thereby leading to improved clinical outcomes
Acute Respiratory Failure
The primary objectives of this study are to evaluate the safety, tolerability, and efficacy of BGE-175 in participants ≥ 50 years of age hospitalized with documented COVID-19.
Covid19
To evaluate the use of Life2000® Ventilator, a novel proportional open ventilation system in critical care use of acute onset of respiratory failure (ARF) and mild to moderate forms of acute respiratory distress syndrome (ARDS) in COVID-19 patients and its ability to provide effective ventilatory benefits and or delay patients from progressing to more aggressive forms of invasive mechanical ventilation (IMV).
Acute Respiratory Failure, Covid19
The aim of this study will test the safety, tolerability, and efficacy of RLS-0071 for approximately 28 days in comparison to a placebo control in patients with acute lung injury due to COVID-19 pneumonia in early respiratory failure. Patients will be randomized and double-blinded for two parts, a single-ascending dose (SAD) part and a multiple-ascending dose (MAD) part. The name of the study drug involved in this study is: RLS-0071.
Acute Lung Injury, ALI, COVID-19
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).
Acute Hypoxemic Respiratory Failure
The purpose of this prospective, Phase 2, multicenter, blinded, randomized placebo controlled study is to demonstrate that early treatment with mavrilimumab prevents progression of respiratory failure in patients with severe COVID-19 pneumonia and clinical and biological features of hyper-inflammation.
COVID 19, SARS-CoV 2, Pneumonia
The purpose of this prospective, Phase 2, multicenter, blinded, randomized placebo controlled study is to demonstrate that early treatment with mavrilimumab prevents progression of respiratory failure in patients with severe COVID-19 pneumonia and clinical and biological features of hyper-inflammation.
COVID-19, Sars-CoV2, Pneumonia
This Phase 2 Randomized Placebo Controlled Trial will determine if administering nebulized Dornase Alpha (rhDNase) to COVID-19 patients with respiratory failure is safe and will reduce 28-day mortality.
Covid19
The purpose of this study is to retrospectively review clinical data to determine whether awake proning improves oxygenation in spontaneously breathing patients with COVID-19 severe hypoxemic respiratory failure.
Oxygen Deficiency, Coronavirus Infection
The purpose of this prospective, Phase 2, multicenter, blinded, randomized placebo controlled study is to demonstrate that early treatment with mavrilimumab prevents progression of respiratory failure in patients with severe COVID-19 pneumonia and clinical and biological features of hyper-inflammation.
COVID 19, SARS-CoV 2, Pneumonia
This was a randomized, double-blind, placebo-controlled Phase 2/3 study to evaluate the safety and efficacy of dociparstat sodium in adult patients with acute lung injury (ALI) due to Coronavirus Disease 2019 (COVID-19). This study was designed to determine if dociparstat sodium could accelerate recovery and prevent progression to mechanical ventilation in patients severely affected by COVID-19.
Coronavirus Disease 2019 (COVID-19), Acute Lung Injury, Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2)
The purpose of this study is to find out whether the study drug tocilizumab is an effective treatment for COVID-19 infection.
COVID-19
Coronavirus disease 2019 (COVID-19) is an infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Lung failure is the main cause of death related to COVID-19 infection. The main objective of this study was to evaluate if ibrutinib is safe and can reduce respiratory failure in participants with COVID-19 infection.
CoronaVirus Induced Disease-2019 (COVID-19)
This study is being done because researchers want to learn more about genes that control the immune response in the participant's lungs and blood when the participant have lung disease leading to respiratory failure. Primary Objective To evaluate the feasibility of performing single cell gene expression analyses on tracheal aspirates from immunocompromised pediatric patients with immune compromising conditions, including HCT recipients. Secondary Objectives * To assess whether cell composition and activation states in longitudinally obtained tracheal aspirate and blood samples are able to distinguish unique immunopathology for each of the early post-HCT lung diseases. * To assess whether cell composition and activation states in longitudinally obtained tracheal aspirate and blood samples are different between two immunodeficient patient populations (alloHCT vs non alloHCT) with lung disease and respiratory failure. * To test the hypothesis that allogeneic T cell responses are implicated in the pathogenesis of early post-HCT lung diseases. Exploratory Objectives To correlate immune cell signaling in the lower respiratory tract and blood of patients with early post-HCT lung diseases with the presence or absence of pathogenic microbes at each site. To explore HLA testing in Tracheal Aspirates in samples where enough cells are present.
Respiratory Failure, Respiratory Disease
This study will assess the feasibility of administering multiple doses of convalescent plasma (from people who have recovered form SARS-CoV-2) to Covid-19 positive patients in the Intensive Care Unit receiving mechanical ventilation. Donor plasma will not be obtained under this protocol, but all plasma used will follow FDA guidelines for Investigational COVID-19 Convalescent Plasma use. Patients may receive single or double plasma units infused on days 0, 3, and 6. This decision may be based on availability of blood plasma. The primary objective of this study is feasibility. Feasibility will be assessed based on the proportion of subjects who consent and receive at least one dose of convalescent plasma. The study will be declared 'feasible' if at least 80% of subjects who consent receive at least one dose. The secondary study endpoint is overall survival at day 60 after first dose of convalescent plasma. Respiratory status and overall clinical status will be reviewed during follow up on days 14, 28, and 60.
Covid-19, Sars-CoV2