Active clinical trials for "Hyaline Membrane Disease"

Comparing the cardio-respiratory adaptation and differences to non invasive ventilation techniques, nasal intermittent positive pressure ventilation (NIPPV) non synchronized vs synchronized (SNIPPV) in preterm newborns (gestational age at birth < 32 weeks) at their first approach to non invasive ventilation as first intention (soon after birth) or after extubation.

The purpose of this study is to evaluate the efficacy and impact of intravenous ketamine or sublingual 30% glucose as sedation drugs used in preterm premature babies during the LISA procedure. The second goal is to compare the frequency of complications during LISA with both premedication regimens.

Hyaline membrane disease is one of the leading causes of morbidity and mortality in premature newborns in industrialized countries. For 30 years, the management of the hyaline membranes disease has been transformed by intratracheal administration of exogenous surfactant (Curosurf®) at birth or in the following hours. In order to limit the harmful effects in terms of barotrauma of mechanical ventilation, several methods have been developed over the last decades, aiming at limiting the mechanical ventilation to the profile of non-invasive ventilation: Thus the administration of surfactant has become faster (although invasive) and if possible followed by immediate extubation following the INSURE (INtubation / SURfactant / Extubation) or LISA (Less-Invasive Surfactant Administration) procedure. Given the fragility of the children concerned and their low weight, this invasive gesture has long been carried out without premedication. However, taking into account the pain induced and potential hemodynamic consequences of the gesture, neonatal societies now recommend the use of anesthetic before intubation, with a short duration sedative. Propofol is a general anesthetic that combines these conditions and is widely used in pediatric anesthesia. In that way, since 2016, the invetigators have modified the sedation protocol for intubation in our department and have recommended Propofol as first-line treatment for term and preterm newborn. A lot of study showed its hemodynamic safety in preterms. However, the investigators lack data on the autonomic stress really observed during intubation in this population. The investigators therefore propose to evaluate these physiological data in a non-randomized prospective observational study in premature infants under 33 weeks of gestational amenorrhea (GA), during a sedation protocol for intubation and surfactant administration according the INSURE or LISA technique, with standardized doses of propofol : 1mg/kg for preterm infants with a birthweight less than 1.5kg and 1.5mg/kg for higher birthweight.

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.

The present study will mainly aim at investigating the safety, tolerability and efficacy of different escalating single doses administration of nebulised Curosurf®, in preterm neonates with RDS (Respiratory Distress Syndrome) during nCPAP.

The goal of this clinical trial is to compare dexamethasone in late preterm deliveries. The main questions it aims to answer are: Does antenatal dexamethasone reduce the need for respiratory support in late preterm infants? Does antenatal dexamethasone reduce neonatal morbidities and mortality? Does antenatal dexamethasone reduce admission to Neonatal Intensive Care Unit and length of hospital stay? Participants will be allocated into 2 groups: intervention with dexamethasone IM and placebo. Investigators will compare these two groups to see if antenatal dexamethasone reduces the need for respiratory support in late preterm infants, neonatal morbidities and mortality, admission to NICU and length of hospital stay.

Preterm infants ranging from 29+0 to 36+6 weeks+days are randomly assigned to one of the following treatments as non invasive respiratory support if they develop mild to moderate Respiratory Distress Syndrome within 72 hrs from birth: 1) NCPAP set at 4-6 cmH2O or 2) HHHFNC providing a flow 4-6 l/min. The aim of the study is to assess efficacy and safety of relative "new" form of respiratory support (HHHFNC) versus a more common one (NCPAP).

Treatment with nasal high flow therapy (NHF) is an increasingly popular method of respiratory support in newborns. Safe and effective use of NHF requires selection of an appropriate nasal prong-to-nares ratio because leak can influence the delivered pressure. To the best of our knowledge, this is the first study to investigate the effect of using different NHF cannula size on peripheral oxygen saturation in newborns with respiratory distress.

The primary hypothesis of this study is reduction in need of mechanical ventilation in the first 72 hours of life (excluding the transient tracheal intubation performed for surfactant administration and the mechanical ventilation for lung recruitment) in spontaneously breathing infants born at 24+0-27+6 weeks' gestation and failing nCPAP during the first 24 hours of life who received an HFOV recruitment maneuver (IN-REC-SUR-E) compared to no recruitment maneuver (IN-SUR-E) just prior to surfactant administration followed by prompt extubation.

This short pilot study is to assess the tolerance of preterm infants, born below 32 weeks gestation with respiratory distress syndrome, to flow-cycle ventilation, and see if infants require less overall pressure from the ventilator than the usual conventional settings used, with the aim of providing data to construct a larger trial looking at the longer term outcome of these infants using this type of ventilation in the future. Many preterm infants at these gestations require assistance from a ventilator due to the immaturity of their lungs. The lungs of preterm infants are susceptible to damage, especially if high pressures are needed or prolonged periods of ventilation. There is concern that if the infant's breathing pattern does not synchronise with the ventilator, this causes additional distress, longer duration of ventilation needed and increased risk of complications. Over the past 20 years, a different type of ventilation, known as flow-cycle ventilation, has been trialed, with limited use in preterm infants. This allows the baby to determine the duration of breathing in and out and how many breaths they require per minute. This would help babies to synchronise better with the ventilator, and consequently require less pressure from the ventilator. This pilot study is being conducted at St. Mary's Hospital, Manchester. All babies born under 32 weeks gestation, with a stable respiratory effort, will be eligible for consideration for the study. The study will last no longer than 5 hours and involve the babies receiving different pressures from the ventilator in flow-cycle mode for 1-hour epochs. Blood gases after each epoch and continuous ventilator data will be downloaded to assess their tolerance on the different settings, before being returned to the usual conventional settings used on the unit. The babies will have continuous monitoring throughout as per standard neonatal intensive care.