Active clinical trials for "Respiratory Distress Syndrome, Newborn"

The implementation of this project will improve the effectiveness of surgical treatment and reduce the level of complications and mortality among patients with heart failure and heart failure in the terminal stage. The goal of the study. Improvement of organ-substituting technologies in the treatment of heart and respiratory failure. Objectives of the study. Objective 1. To study the restoration of organ function during implantation of extracorporeal membrane oxygenation (ECMO), as an organ replacement, in cardiac and / or respiratory failure. Objective 2. To study the results of applying organ-substituting technologies in the treatment of sepsis.

Acute respiratory distress syndrome (ARDS) accounts for almost 10% of intensive care units (ICU) admissions. Three ARDS stages have been defined, based on the PaO2/FIO2 ratio measured with positive end-expiratory pressure (PEEP) ≥5 cmH2O: mild (201-300 mmHg), moderate (200-101 mmHg), and severe (≤100mmHg). They represent 30.0%, 46.6%, and 23.4% of ARDS, respectively. Mechanical invasive ventilation (MV), the cornerstone of ARDS patient care, has a primary goal to protect the lung from ventilator-induced lung injury (VILI). Delivering MV in a prone position (PP) has been shown to improve oxygenation, protect the lung through a better homogenization of lung stress/strain, and stabilize hemodynamics. A meta-analysis of four randomized controlled trials showed beneficial effect of PP vs. supine position (SP) in the most hypoxemic patients. A fifth randomized controlled trial further showed a significant reduction in mortality with PP in ARDS patients with PaO2/FIO2 <150 mmHg, when neuromuscular blockade and long prone positioning sessions were used. Therefore, PP has since been strongly recommended for ARDS patients with PaO2/FIO2 <150 mmHg. Yet, there is limited evidence in patients with mild to moderate ARDS. There are, however, strong arguments supporting the need for a new trial in ARDS patients with PaO2/FIO2 in the range 150-300 mmHg: There is no trial that has specifically tested PP in this ARDS subset; PP is safe and has become a standard of care in ICU; Should VILI prevention be a mechanism through which PP improves survival, this should be involved in all ARDS patients; The mortality at hospital discharge in this subset of ARDS remains significant, amounting to 34.9% (95% confidence intervals 31.4-38.5%) in mild and 40.3% (37.4-43.3) in moderate stages; Among 580 patients with mild ARDS at admission to the ICU, in-hospital mortality was 10%, 30%, and 37% for those who improved, persisted, and worsened ARDS, respectively. Finally, PP has been shown to be cost-effective under commonly accepted thresholds. The hypothesis is that in patients within the 150-300mmHg PaO2/FIO2 range at the time of ARDS diagnosis, PP can reduce mortality as compared to a similar group left in the SP.

The purpose of this study is to evaluate the safety, tolerability and preliminary efficacy of EOM613, a peptide nucleic acid with novel immune-modulating properties, in treating patients with severe COVID-19 infections. This proof-of-concept study is the first clinical trial of EOM613 in this patient population.

This is a prospective, randomized, two-arm, controlled 30-day investigational pilot trial using the gammaCore Sapphire S non-invasive vagus nerve stimulation (nVNS) device + standard of care (SOC) in newly-hospitalized patients with mild-to-moderate traumatic brain injury (TBI) to prevent the progression towards immunokine storms, systemic inflammatory response syndrome (SIRS), severe respiratory distress, and requirement for invasive mechanical ventilation, and death, when compared to SOC alone (the control arm).

This is a phase I trial followed by a phase II randomized trial. The purpose of phase I study is the feasibility of treating patients with acute respiratory distress syndrome (ARDS) related to COVID-19 infection (COVID-19) with cord blood-derived mesenchymal stem cells (MSC). The purpose of the phase II trial is to compare the effect of MSC with standard of care in these patients. MSCs are a type of stem cells that can be taken from umbilical cord blood and grown into many different cell types that can be used to treat cancer and other diseases. The MSCs being used for infusion in this trial are collected from healthy, unrelated donors and are stored and grown in a laboratory. Giving MSC infusions may help control the symptoms of COVID-19 related ARDS.

Acute Respiratory Distress Syndrome (ARDS) causes the lungs to fail due to the collection of fluid in the lungs (pulmonary oedema). ARDS is common in severely ill patients in Intensive Care Units and is associated with a high mortality and a high morbidity in those who survive. ARDS occurs in approximately 20% case of COVID-19 and respiratory failure is the leading cause of mortality. There is a large economic burden with direct healthcare costs, but also indirectly due to the impact on the carer and patient through the patients inability to return to full time employment. There is little evidence for effective drug (pharmacological) treatment for ARDS. There is increasing information that mesenchymal stem cells (MSCs) might be important in treating ARDS. REALIST will investigate if a single infusion of MSCs will help in the treatment of ARDS. The first step will be to first of all determine what dose of MSCs is safe and then divide patients suffering from ARDS into two groups, one of which will get MSCs and the other a harmless dummy (or placebo) infusion, who will then be followed up to determine if lung function improves. If effective this may lead to further research to determine if MSCs are effective in patients with ARDS.

Despite significant improvement in preterm infant survival, the incidence of bronchopulmonary dysplasia (BPD) in infants born < 28 weeks gestational age (GA) has been relatively stable at ~40%, with 10,000-15,000 new cases estimated annually. Delivery room (DR) management of preterm infants during the initial resuscitation has a significant impact on future development of BPD. Current DR practice as recommended by the Neonatal Resuscitation Program (NRP), focuses on providing positive pressure ventilation (PPV) for intubated infants based on pressure limited ventilation (PLV). But with rapidly changing pulmonary compliance during the early newborn period, PLV may lead to under or over inflation of the lungs and induce significant volutrauma, barotrauma and/or atelectotrauma, all of which are associated in the pathogenesis of BPD. No studies have specifically reported tidal volume (TV) provided in the DR in intubated infants with current PLV practices. Similarly, no study has evaluated the safety and efficacy of volume targeted ventilation (VTV) in the DR and its impact on BPD. With the proposed study, in Phase I, the investigators aim to demonstrate that measuring TV in intubated infants receiving PPV via PLV is feasible. The investigators also seek to demonstrate that with PLV, TV is highly variable in the first few hours of life, even with the same peak inspiratory pressures (PiP) due to rapidly changing pulmonary compliance. A successful Phase I will demonstrate that measuring TV is feasible in the DR, and with information on real time actual TV achieved during PPV, it is possible to target the TV for a goal TV by adjusting the PiP provided. Phase II will be a pilot randomized control trial to demonstrate feasibility of VTV compared to PLV. The investigators will also aim to understand the pulmonary mechanics and physiology during VTV. A successful Phase II will demonstrate VTV is feasible, is associated with stable TV, decreased peak inspiratory pressure and oxygen needs compared to PLV, and not associated with increased complications compared to PLV. It will thereby justify a larger randomized control trial with enough power to evaluate the efficacy of VTV in reducing BPD and other long term pulmonary morbidities for preterm infants.

The investigators compared advantages and disadvantages of two forms of noninvasive respiratory support -noninvasive high-frequency oscillatory ventilation (nHFOV) or nasal continuous positive airway pressure (nCPAP) -as a primary mode of ventilation in preterm twins infants with respiratory distress syndrome

Acute respiratory distress syndrome (ARDS) in neonates has been defined, the role of surfactant is not clear. This study aimed to determine whether ARDS neonate would benefit from surfactant when oxygenation deteriorated on mechanical ventilation and to identify any potential risk factors related to mortality.

Early respiratory management of preterm infants immediately after birth should be as gentle as possible. With this so-called developmental approach, unnecessary invasive methods can be avoided or at least postponed. This kind of "soft landing" allows cardiorespiratory transition with fewer adverse outcomes. Less invasive surfactant administration (LISA) is a technique that involves delivery of surfactant to a spontaneously breathing infant through a thin catheter. This technique minimizes the risk for neonatal lung injury caused by positive pressure ventilation. LISA is nowadays widely used in neonatal intensive care units (NICU). Although less invasive, newborns exposed to this procedure need premedication prior the procedure. There is no consensus, which drug would be the optimal premedication for LISA and the research on this topic is lacking. An ideal premedication would treat the procedural pain without suppressing the infant's own breathing. The sedation and analgesia should start fast but the effect should be short-acting with as few adverse effects as possible. The aim of this randomized, controlled trial (RCT) is to evaluate the feasibility, efficacy and safety of LISA protocol with the premedication of either ketamine or fentanyl by investigating whether one or the other is associated with lower rate of adverse events, hence would be preferred choice for premedication protocol.