View clinical trials related to Respiratory Distress Syndrome.
Filter by:This study is a multi-center, randomized, partially double-blind, and placebo-controlled Phase Ib clinical trial of inhaled CO (iCO) for the treatment of sepsis-induced acute respiratory distress syndrome (ARDS). The purpose of this study is to evaluate the safety and accuracy of a Coburn-Forster-Kane (CFK) equation-based personalized iCO dosing algorithm to achieve a target carboxyhemoglobin (COHb) level of 6-8% in patients with sepsis-induced ARDS. We will also examine the biologic readouts of low dose iCO therapy in patients with sepsis-induced ARDS.
Acute respiratory insufficiency is one of the principal causes of intensive care admission for COVID 19 positive patients. This may determine a variable mortality rate ranging from 25-30%. In these patients, many days of non-invasive or invasive mechanical ventilation are needed to correct severe hypoxemia. Mechanical ventilation is not a direct therapy but allows the clinicians to prolong the "time-to-recovery" interval necessary for COVID 19 respiratory insufficiency treatment. Long intensive care stay, mechanical ventilation, the use of steroids and sedatives have an impact on the survivors. Previous studies demonstrated that patients admitted to intensive care with non-COVID acute respiratory distress syndrome had a reduction in the quality of life even up to one year after discharge. The aim of this study is to understand if COVID-19 related acute respiratory distress syndrome has a worse impact on the quality of life one year after discharge when compared with non-COVID-19 acute respiratory distress syndrome.
The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causing the coronavirus disease 2019 (COVID-19) affect at late march 2021 more than 127 millions of persons worldwide (including more than 4.5 millions in France, according to John Hopkins University https://coronavirus.jhu.edu/map.html, consulted 2021/3/25). Among these persons, 17% of the confirmed cases the COVID-19 develop an acute respiratory distress syndrome (ARDS) (Chen et al., 2020), requiring an hospitalization in intensive care unit with mechanical ventilation for prolonged periods (in median up to 21 days whereas 3.3 is the usual mean length of stay). This prolonged period of inactivity causes dramatical muscles and cardio-respiratory losses. These patients experience a dramatical decrease in the physical ability which is reinforce by the protective isolation measures and containment to prevent the further spread of the virus. Rehabilitation of patients with a severe form of the COVID-19 faced new challenges due to the novelty of the disease and protective isolation measures to prevent the further spread of the virus. Rehabilitation target a recovery of the cardio-respiratory, muscle deficits and improvement in activity. Functional electrical stimulation (FES) is one innovative technique, among other. FES have been shown as effective to improve the respiratory function in patients with a severe chronic obstructive pulmonary disease (Acheche et al., 2020; Maddocks et al., 2016), reduce the muscle loss due to zero gravity in space for astronauts (Maffiuletti et al., 2019), or increase strength in persons with incomplete spinal cord injury (de Freitas et al., 2018). FES has been recently delivered during cycling to restore pedaling movements with an adequate rhythm of muscle contraction. To date, FES cycling has been successfully administered in patients with spinal cord injury, and has been shown to be more effective in patient with severe COPD for improving the exercising intensity; reducing fatigue and improving quality of life in persons with multiple sclerosis (Backus et al., 2020). In a pilot study, we shown that 4 week of physical therapy incluing FES cycling resulted in a fasten recovery of active postures as compared to physical therapy including cycling alone. (Mateo et al., under revision). Therefore, we hypothesize that a 4-week period of rehabilitation based on physical therapy with FES cycling would result in a significantly increase of activity profile (decrease in inactive posture duration) in patient with a severe form of COVID-19 (i.e., with an ARDS requiring mechanical ventilation).
Secondary infections remain a major cause of mortality in critically ill patients, mainly because of high prevalence of multidrug-resistant microorganisms. Therefore strategies aimed to reduce the incidence of ventilator-associated pneumoniae (VAP) and bloodstream infections are of utmost important. There is robust data on selective digestive decontamination (SDD) efficacy in reduction of secondary infections in intensive care units (ICU) with low rates of antibacterial resistance. However the data received from hospitals with moderate-to-high rates of resistance is equivocal. This as an interventional parallel open-label study investigating the effect of selective digestive decontamination on the rates of ventilator-associated pneumonia in critically ill patients admitted to the ICU with high prevalence of drug-resistant bacteria. Secondary outcomes include rates of bloodstream infections, mortality, duration of mechanical ventilation, duration of ICU stay, resistance selection and overall antibiotic consumption.
The aim of this study is to evaluate the efficacy of dexamethasone in hospitalized adults with COVID-19 pneumonia who do not require supplementary oxygen on admission, but have high risk of developing acute respiratory distress syndrome (ARDS). This is a prospective, multicenter, phase 4, parallel-group, randomized and controlled trial that is open-label to investigators, participants and clinical outcome assessors. Eligible participants include adults (age 18 years or older), diagnosed with SARS-CoV-2 infection, evidence of infiltrates on chest radiography or computerized tomography, peripheral capillary oxygen saturation ≥94% and 22 breaths per minute breathing room air, and high risk of developing ARDS defined by a lactate dehydrogenase higher than 245 U/L, C-Reactive Protein higher than 100 mg/L, and absolute lymphocytes lower than 800 cells/µL. Eligible participants will meet two of the three before analytical criteria associated with severe COVID-19. Patients will provide written informed consent. Exclusion criteria include patients with a history of allergy to dexamethasone, pregnant or lactating women, oral or inhaled corticosteroids treatment within 15 days before randomization, immunosuppressive agent or cytotoxic drug therapy within 30 days before randomization, neutropenia <1000 cells/µL, human immunodeficiency virus infection with CD4 cell counts <500 cells within 90 days after randomization, dementia, chronic liver disease defined by ALT or AST ≥5 times the upper limit of normal, chronic kidney injury defined by a glomerular filtration rate ≤30 ml/min, hemodialysis or peritoneal dialysis, uncontrolled infection, and patients who are already enrolled in another clinical trial. Study participants will be randomized in a 1:1 ratio to receive dexamethasone base 6 mg once daily for seven days or standard of care. The primary endpoint is to prevent of development of moderate ARDS. Based on the Berlin criteria, moderate ARDS is defined by a PaO2/FiO2 ratio >100 mmHg and ≤200 mmHg. Study participants will be randomized in a 1:1 ratio to receive dexamethasone versus standard of care using a randomization platform. Included participants will be hospitalized at the time of randomization. The study will be undertaken at Infanta Leonor-Virgen de la Torre University Hospital, Enfermera Isabel Zendal Emergency Hospital, and Infanta Cristina Hospital, Madrid, Spain.
The primary object of this clinical study is to investigate the efficacy and the safety of NOA-001 in patients with ARDS (ARDS caused by Non-COVID-19 or COVID-19).
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.
Treatment of patients with Hypoxemic respiratory failure (HRF) and Acute Respiratory Distress Syndrome (ARDS) is complex. Therapies that have been shown to save the lives of patients with HRF and ARDS are available but they are not always provided. To reduce practice variation and improve adherence to evidence-informed therapies, the investigators developed the Treatment of Hypoxemic Respiratory Failure and ARDS with Protection, Paralysis, and Proning (TheraPPP) Pathway. The overall objective of TheraPPP Pathway is to improve the quality of care for patients with HRF. Implementation of the pathway across Alberta will test the effectiveness and implementation of the TheraPPP Pathway.
The purpose of this study is to evaluate the effect of LISA used in the delivery room (DR) in decreasing the intubation rates in preterm infants at 22-25 weeks gestational age (GA), during first 72 hours compared to the standard approach of stabilization on nasal CPAP in the DR and administering surfactant in the NICU. Infants in both groups will be resuscitated per NRP algorithm. Infants who maintain a stable HR and respiratory effort on CPAP will qualify for the intervention. Infants in Group 1 (Intervention arm) will receive LISA in DR. CPAP will be titrated between 5-8 cm H20 after LISA. Infants in Group 2 (Control arm) will be transferred to NICU on CPAP. The CPAP level will be increased stepwise every 30 minutes to 7 cm H2O if FiO2 ≥0.3. Infants requiring CPAP 7 at FiO2 ≥0.3 will receive LISA. CPAP will be titrated between 5-8 cm H20 after LISA. Infants in both arms requiring CPAP 7 and FiO2 >0.8 at 20 MOL in the delivery room will be intubated in DR. Any infant with a heart rate not responding with appropriate PPV will be intubated in the DR. CXR will be obtain on admission and umbilical lines will be placed. Infants in both arm who require FiO2 ≥0.6 for ≥1 hour, apnea requiring stimulation 3 times within one hour or ≥6 over 6 hour period, any apnea requiring PPV, or CO2 >0.65 in two consecutive blood gases drawn over two hours will be considered as reasons for intubation after LISA. Primary outcome is the need for MV within 72 hours of life, secondary outcome includes need for MV during first week of life and during hospital stay, bronchopulmonary dysplasia (BPD), intraventricular hemorrhage (IVH), necrotizing enterocolitis (NEC), spontaneous intestinal perforation (SIP), need for treatment of patent ductus arteriosus (PDA), composite death or BPD and mortality. This is a feasibility trial with the intention to enroll 30 infants in each arm of the study over three years.
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