Active clinical trials for "Respiratory Distress Syndrome, Newborn"

Nosocomial Infections (NI) are a common and dreadful complication for patients suffering from Acute Respiratory Distress Syndrome (ARDS) treated with Extracorporeal Membrane Oxygenation (ECMO). Unfortunately, no study has thoroughly evaluated NI in this fragile patient cohort. Newly developed antibiotics may help manage such infections, but their pharmacokinetics (PK) during ECMO has not been evaluated. Objectives of this prospective observational multicenter pharmacological no-profit study are: 1) describe incidence, microbial etiology, and resistance patterns, and assess risk factors for NIs in a large prospective cohort of ARDS patients undergoing ECMO. 2) provide a PK analysis of ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, and cefiderocol in adult patients undergoing ECMO Incidence, microbial etiology, and antibiotic resistance patterns of confirmed NIs will be prospectively collected and analyzed. In the subgroup of patients treated with ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, or cefiderocol as per clinical practice, blood and bronchoalveolar concentration of the antibiotic will be measured, and PK modeling carried out.

The goal of this clinical trial is to compare flow-controlled ventilation (FCV) and pressure-controlled ventilation (PCV) in patients with moderate to severe acute respiratory distress syndrome on the intensive care unit. The main questions it aims to answer are: Is the mechanical power during flow-controlled ventilation lower than during pressure-controlled ventilation To gain more understanding about other physiological effects and potential benefits of flow-controlled ventilation in comparison to pressure-controlled ventilation (o.a. the end-expiratory lung volume and homogeneity of ventilation). Participants will be randomized between two ventilation mode sequences, being 90 minutes of FCV followed by 90 minutes of PCV or vice versa.

Although new techniques like extracorporeal blood purification have lately emerged, septic patients still have very high hospital mortality rates. Sepsis can be induced by either viremia, bacteriemia or in some cases both. Many studies have reported the effectiveness of different hemadsorbers, but patient sample sizes have been inadequate for definitive conclusions. Secondly, there are still no clear inclusion criteria as well as criteria for when to cease hemadsorption mostly due to immune dysregulation or cascade coagulation disorders. The aim of this observational prospective registry is to evaluate the effectiveness of the Seraph® 100 Microbind® Affinity Blood Filter (Seraph 100) in the treatment of septic ICU patients and to evaluate which cluster of these patients should benefit most with this therapy.

To determine whether a strategy of adding venovenous ECMO to mechanical ventilation, as compared to mechanical ventilation alone, increases the number of intensive care free days at day 60, in patients with moderate to severe acute hypoxic respiratory failure.

ASCEND researchers are partnering with families of children who receive extracorporeal membrane oxygenation (ECMO) after a sudden failure of breathing named pediatric acute respiratory distress syndrome (PARDS). ECMO is a life support technology that uses an artificial lung outside of the body to do the lung's work. ASCEND has two objectives. The first objective is to learn more about children's abilities and quality of life among ECMO-supported children in the year after they leave the pediatric intensive care unit. The second objective is to compare short and long-term patient outcomes in two groups of children: one group managed with a mechanical ventilation protocol that reserves the use of extracorporeal membrane oxygenation (ECMO) until protocol failure to another group supported on ECMO per usual care.

The ongoing COVID-19 pandemic caused high hospitalization and mortality rates especially in critically ill patients. Unfortunately, there is no present study with a large number of patients that would offer us clear answers on the treatment of ICU COVID-19 patients with adsorption filters, extracorporeal methods and the hemoperfusion method. The purpose of this registry study is to investigate the effectiveness and safety of the extracorporeal blood purification and hemoperfusion/hemadsorption filters in treating of critically ill COVID-19 patients.

Generation of a common European database and biobank Continous assessment and implementation of guidelines and treatment protocols Establishment of a large observational cohort of chILD patients Determination the value of outcomes used in child Assess treatment variations used, deliver data from defined protocols and linked outcomes

This is a pilot trial to assess the feasibility of volume Targeted Ventilation in the Delivery Room. Preterm infants will be randomized to pressure guided or volume targeted ventilation during respiratory support in the delivery room

This study is an interventional, non-pharmacological, multicentric, randomized, controlled, superiority, non-profit study. Its primary objective is to evaluate if the administration of surfactant based on FOT assessment will allow a 5-day reduction in the duration of respiratory support as compared to standard practice in preterm infants between 27+0 and 32+6 weeks' gestation. The secondary objectives are: to determine if a lung mechanics-based approach for administering surfactant will change treatment timing; and to assess the impact of the novel approach on other neonatal general outcomes. The study will take place within the neonatal intensive care units. Non-invasive respiratory support will be delivered by nasal CPAP with a starting pressure of 5-8 cmH2O. FiO2 will be titrated in order to achieve the target SpO2 91-95%. Infants matching the clinical criteria for inclusion will be randomized in two arms following the current data protection and confidentiality regulations. Central, computer-generated randomization (allocation 1:1) with variable block sizes according to gestational age will be used. Infants will be stratified according to gestational age (27+0 -28+6 weeks; 29+0 -30+6 weeks; 31+0 -32+6 weeks) and center. Study Arms: A) Surfactant administration following oxygenation-based criteria (clinical assessment) (control) B) Surfactant administration following both lung mechanics assessment OR oxygenation-based criteria (clinical assessment) (intervention).

The pandemic caused by SARS-CoV-2 infection has resulted, in addition to the well-known acute symptoms, in the emergence of persistent, diffuse and heterogeneous symptoms referred to as persistent COVID. Common symptoms include fatigue, shortness of breath, and cognitive dysfunction, among others, and result in an impact on daily functioning. Symptoms may be new onset, appear after initial recovery from an acute episode of COVID-19, or persist after the initial illness. Cardiac variability (HRV) was initially used in COVID-19 to predict mortality in the acute setting. Dysautonomia which partly evaluates HRV is frequent in patients with persistent COVID. Several groups have used voice or other respiratory noise analysis for the diagnosis of acute COVID. Patients in the persistent COVID cohort will be able to be differentiated from an age, sex and vaccination status matched cohort of recovered COVID patients without sequelae by means of a model created by Machine Learning that will be trained using cardiac variability (HRV), skin conductance and acoustic analysis data. The primary objetive will be to obtain a classification algorithm by Machine Learning to differentiate the group of patients with persistent COVID diagnosis from the paired group of recovered COVID patients without sequelae.