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Showing 1-20 of 158 trials
NCT07450846
Acute respiratory distress syndrome (ARDS) is an inflammatory injury of the lungs caused by various serious illnesses, such as a bacterial or viral lung infection. It is treated by artificial ventilation with the application of positive pressure. Pulmonary injury, coupled with artificial ventilation, can lead to right heart failure which hinders the ejection of blood to the pulmonary circulation. Modern mechanical ventilation modalities have reduced the frequency ("incidence") of this right heart failure in acute respiratory distress syndrome. A large-scale study has shown this a few years ago. However, the evolution of right heart failure during artificial ventilation, and the consequences it has on the patient's cardiovascular status are poorly determined. This study is conducted to improve knowledge in this area. In adult patients hospitalized in intensive care presenting acute respiratory distress syndrome, the investigators will collect the data recorded on cardiac ultrasound, doses of cardiovascular drugs as well as variables reflecting hemodynamic status and cell oxygenation. Data will be collected during the course of ARDS and mechanical ventilation, as well as after weaning from artificial ventilation.
NCT07445061
Acute respiratory distress syndrome (ARDS) is a life-threatening condition with high mortality. Prone position ventilation (PPV) is an evidence-based therapy that improves oxygenation and survival in patients with moderate to severe ARDS; however, outcomes remain heterogeneous. Early identification of patients at high risk of mortality after PPV may improve clinical decision-making and individualized management. This retrospective observational study aims to develop and validate a machine learning model to predict intensive care unit (ICU) mortality in ARDS patients receiving prone position ventilation. Clinical, laboratory, and treatment variables collected from ICU electronic medical records will be used to construct prediction models using multiple machine learning algorithms. The performance of these models will be evaluated and compared to identify the optimal model for mortality prediction.
NCT07414056
The aim of this study is to evaluate the role of Neutrophil-to-Lymphocyte and Platelet-to-Lymphocyte Ratios as predictors for development of ARDS in pediatric burn patients.
NCT06701669
This is a Phase 2 multicenter, randomized, double-blinded, placebo-controlled study that will evaluate the safety and efficacy of host-directed therapeutics in hospitalized adults diagnosed with Acute Respiratory Distress Syndrome (ARDS) utilizing a platform trial design. Cohort B: Participants will be randomized to receive either a placebo or paridiprubart. This record describes the default procedures and analyses for Cohort B. Please see NCT06703073 for information on the BP-ARDS-P2-001 Master Protocol.
NCT07262541
Acute respiratory distress syndrome (ARDS) in children is associated with significant morbidity and mortality. Current studies seek to individualize the management of children by defining several phenotypes, based until now mainly on clinical presentation. A better understanding of the respiratory mechanics of each patient could allow the individualization of other phenotypes and adapt their management with individualized ventilation. The method for detecting airway opening pressure (AOP) in children has not yet been validated and the reference methods in adults are difficult to apply in children due to their physiological particularities. The main objective of the study is to evaluate the feasibility of two methods for measuring airway opening pressure in invasively ventilated pediatric patients.
NCT07351435
The project's main goal is to collect baseline clinical and procedural data as well as to assess clinical outcomes for all patients undergoing VV, VA or VAV ECMO implantation in the French West Indies and Guiana. All patients undergoing ECMO implantation will be prospectively registered.
NCT04922814
Many questions about management of COVID-19 are still not answered. So, we recruit this study aiming to evaluate improvement of oxygenation in COVID-19 patients with severe ARDS, to improve morbidity and mortality of ICU covid patients, to participate in understanding of real hidden pathophysiology of COVID-19.
NCT00527813
We project to test the effect of prone position on mortality in severe ARDS patients (PaO2/FiO2\<150 with FiO2 \> or = 0.6 and positive end-expiratory pressure \> or = 5 cmH2O). Ventilator will be set in accordance with current standards aiming at protecting the lungs from VALI. Patients will be randomized into two arms: prone group in which proning will be realized for at least 16 hours a day and supine group in which patients will stay in a semi-recumbent position. Primary end-point is 28-day mortality of all causes. Secondary end-points are 90-day mortality of all causes and incidence of ventilator-acquired pneumonia. Study sample was calculated to detect ability of proning to reduce mortality from 60 to 45% percent, at one-tailed alpha error of 5% and power of 90% and 230 patients are needed in each arm.
NCT07086755
The objective of this study is to assess the efficacy and safety of vadadustat for treating hospitalized patients with nonintubated Acute Respiratory Distress Syndrome (ARDS) secondary to pathogen-associated lung injury.
NCT06876415
In its most severe form, Acute Respiratory Distress Syndrome (ARDS) may require the use of veno-venous ECMO (vvECMO). While the criteria for vvECMO indication, ECMO settings, and ventilator management are relatively well-defined after the publication of the EOLIA trial and subsequent national or international guidelines, few studies have assessed the criteria and methods for weaning from vvECMO. Besides, advances in the understanding of the pathophysiology of mechanical ventilation (MV) weaning process have led to the development of specific monitoring tools for this phase. Schematically, respiratory drive can be evaluated via the ventilator by measuring the pressure generated during a 100-millisecond expiratory occlusion (P0.1) and respiratory efforts through the measurement of esophageal pressure variation (delta Poeso). Recent retrospective studies conducted on COVID-19 ARDS patients supported by vvECMO suggest a longer duration of mechanical ventilation for patients whose weaning and decannulation process was "forced," i.e., performed under conditions of significant respiratory drive and effort. High values of P0.1 and delta Poeso were associated with prolonged MV duration. Self-inflicted lung injury (P-SILI) and elevated transpulmonary pressure related to these uncontrolled respiratory efforts likely explain the negative impact on MV duration. Therefore, this randomized study proposes to assess these monitoring tools, which are regularly used in clinical practice, to guide vvECMO weaning and decannulation decisions.
NCT06181539
Patients with ARDS often suffer a gravity-dependent alveolar collapse, resulting in a reduction of tidal volume, residual alveolar excessive distension, and ventilator-related lung injury(VILI) induced by unreasonable ventilator setting.Prone ventilation (PPV) improves the gravity-dependent alveolar ventilation and promotes lung recruitment in the gravity-dependent area and improves lung compliance. Previous studies showed that prolonged PPV combined with low tidal volume(LTV) lung protected ventilation can significantly reduce the mortality of patients with moderate to severe ARDS.Although more than 60% of patients with moderate to severe ARDS due to COVID-19 has been widely implemented PPV,studies showed an improvement in oxygenation in patients with ARDS(the P/F radio improved by more than 20% before and after PPV) was 9-77%, that is, That is, some patients are unresponsive to PPV. In addition, some patients showed CO2 responsiveness after PPV(ventilation rate (VR) decreased significantly after PPV).The tools for monitoring the effects of PPV on ventilation and blood flow at bedside are still lacking, Electrical impedance tomography (EIT) is a non-invasive, non-radiative, real-time bedside lung imaging technique that can monitor local lung ventilation distribution. This study intends to use EIT to evaluate pulmonary ventilation, blood flow distribution and local V/Q ratio before and after PPV, as well as to monitor the changes in pulmonary physiology before and after PPV, explore the mechanism of PPV improving oxygenation by combined with the changes in oxygenation, and explore the factors that predict and affect PPV responsiveness.
NCT03799874
This study will be a multi-center, prospective, randomized, partially double-blind, placebo-controlled Phase II clinical trial of inhaled CO (iCO) for the treatment of ARDS. The trial will be conducted at 7 tertiary care medical centers including Weill Cornell Medicine/NewYork-Presbyterian Hospital, Brigham and Women's Hospital (BWH), Massachusetts General Hospital (MGH), Duke University Hospital, Durham Veterans Administration Medical Center, New York-Presbyterian Brooklyn Methodist Hospital, and Duke Regional Hospital. The purpose of this study is to evaluate the safety, tolerability, and efficacy of inhaled carbon monoxide (iCO) for the treatment of ARDS and to examine the biologic readouts of low dose iCO therapy in patients with ARDS
NCT03870009
This study aims to validate a semi-automatized method to quantify cyclic hyperinflation on CT-scan of ARDS patients. The gold standard will be cyclic hyperinflation assessed on the same CT scan, using manual segmentation of the lung.
NCT06001645
Barotrauma (pneumothorax, pneumomediastinum) is a well-described complication of Acute Respiratory Distress Syndrome (ARDS), especially in patients with coronavirus disease 2019 (COVID-19) (16.1% in COVID-19, and about 6% in non-COVID-19 ARDS). Macklin effect was recently discovered by our group as an accurate radiological predictor of barotrauma in COVID-19 ARDS; the Investigators also found that density histograms automatically extracted from chest CT images provide a reliable insight into lung composition . Since lung frailty is a major issue also in non-COVID-19 ARDS, the Investigators want to confirm the predictive role of Macklin effect also in this setting. In addition, the Investigators aim to explore inflammatory profiling to decipher different biological aspects of the same clinical issue. Finally, the Investigators want to develop a specific management algorithm for patients diagnosed, according to our findings, with a specific ARDS sub phenotype characterized by increased lung frailty
NCT07109310
This study adopted a prospective, single-center, open-label design, aiming to evaluate the efficacy of the RTI clinical outcome prediction model in predicting clinical outcomes in subjects with acute respiratory tract infections. In this study, the subjects were divided into the community-acquired pneumonia group and the sepsis group, including one baseline visit, one visit on the 7th day, and one visit on the 28th day. During the research process, blood samples will be collected at the corresponding visiting points for the validation of the predictive model.
NCT04009330
Patients prospectively classified to the hyper-inflammatory ARDS phenotype on the basis of clinical characteristics and a novel POC biomarker assay will have worse clinical outcomes than the hypo-inflammatory phenotype. Study Aim The purpose of this project is to prospectively identify hyper- and hypo-inflammatory phenotypes in patients with ARDS and determine clinical outcomes associated with each phenotype. The primary objective of this study is to assess the clinical outcomes in patients with ARDS according to their prospectively defined inflammatory phenotype determined using a POC assay. Results of group allocation will be blinded to clinical and research staff until database lock. Secondary Objectives The secondary objectives of this study are to: (i) Assess the agreement of the phenotype allocation using the POC assay and the clinical study dataset. (ii) Assess the stability of phenotype allocation over time (iii) To test feasibility of delivering a POC assay in the NHS intensive care setting.
NCT06814340
The CALMDOWN trial is a prospective, open-label, multicenter, comparative, controlled trial randomizing patients who received near apneic ventilation vs usual care on ECMO (ultra-protective lung ventilation). The study goal is to investigate the benefit of early apneic ventilation in the most severe forms of acute respiratory distress syndrome (ARDS) rescued by ECMO. Indeed, our hypothesis is that that early (near) apneic ventilation on venovenous ECMO for severe ARDS can enhance ventilator injury prevention and therefore reduce ECMO duration and mortality at Day 60.
NCT04402957
To evaluate the proportion of subjects alive and free of respiratory failure (e.g. need for non-invasive or invasive mechanical ventilation, high flow oxygen, or ECMO) and free of the need for continued renal replacement therapy (RRT) on Day 28. The need for continued RRT at Day 28 will be defined as either dialysis in the past 3 days (Day 26, 27, or 28) or an eGFR on Day 28 \<10 mL/min/1.73 m2.
NCT03591796
Acute respiratory distress syndrome (ARDS) in neonates has been defined in 2017.The death rate is over 50%. HFOV and CMV are two main invasive ventilation strategies. However, which one is better needing to be further elucidated.
NCT04777760
In preterm infants with neonatal respiratory distress syndrome (NRDS), exogenous pulmonary surfactant(PS) replacement therapy is one of the most important therapeutic breakthrough to reduce neonatal mortality. Nowadays, PS is commonly used in newborn infants with respiratory distress, but the incidences of bronchopulmonary dysplasia(BPD) and/or death are inconsistent. The result indicates that not all preterm infants with respiratory distress can be beneficial from PS. In 2017, the international neonatal ARDS (NARDS) collaborative group provides the first consensus definition for NARDS. And whether or not PS being beneficial for preterm infants with NARDS remains unknown.