View clinical trials related to Respiratory Distress Syndrome.
Filter by:Experimental and observational studies have shown that vitamin D deficiency may be associated with an increased risk for non-bone diseases and/or abnormal development for the other systems of fetus. The aim of this study is to determine the relationship between cord blood 25-hydroxyvitamin D (25 (OH) D) concentrations and the subsequent risk of morbidities including RDS, PDA, NEC, BPD AND ROP in preterm infants.
non-invasive ventilation in preterms complaining from RDS a randomized, controlled trial to compare between capap, n-bipap and NIPPV
Heliox can lower respiratory resistance, improve the oxygenation, reduce respiratory distress and lung injury caused by mechanical ventilation.
Acute respiratory distress syndrome (ARDS) and mechanical ventilation can lead to right ventricular dysfunction and ultimately right ventricular failure by increasing pulmonary vascular resistances and pressure load. This can be prevented by modifying ventilator settings, using vasopressors or inotropes or even by prone positionning.But to do so, right ventricular dysfonction has to be detected. Echocardiography has emerged as a first line tool to diagnose right heart failure. Recently, strain analysis showed promising results to detect early right ventricle abnormalities in other settings such as pulmonary hypertension or scleroderma. We therefore decided to determine whether 2D strain could help detect early right ventricular dysfunction in ARDS.
The purpose of this study is to determine whether an integrated EmONC package (community mobilization, training of community-based health care providers and a maternal and neonatal health pack) reduce perinatal and neonatal mortality.
Those infants who received the muscle relaxation in combination with the vagolytic (reduce vagus nerve impulses) and pain medication will have reduced time to successful intubation (placement of tube into the lungs), a decrease in the number of attempts, and better intubation conditions reported by the practitioner. The objectives of the study include: 1.) Does the medication protocol outlined in this study provide optimal intubation conditions? (i.e.good jaw relaxation, open and immobile vocal cords and suppression of gag reflex) 2.) Does the addition of a muscle relaxant prior to intubation contribute to less attempts and achieving successful intubation as opposed to neonates who do not receive the muscle relaxant.
The purpose of this study is to see if a medication called Curosurf can reduce the length of time that small premature babies with Respiratory Distress Syndrome (immature lungs) or RDS, stay on the ventilator, as compared to the standard medication called BLES. Curosurf is a medication that is already used in other countries around the world but not yet in Canada. Babies born under 32 weeks of gestation frequently need respiratory support after birth, including being placed on a breathing machine or respirator. The most common reason is Respiratory Distress Syndrome (RDS) whereby immature lungs don't produce enough surfactant, a soapy like substance that helps the air sacs open and close. Our current standard treatment is a surfactant called BLES. Curosurf contains more active ingredient per volume therefore the amount is smaller. The investigators hypothesize that babies who receive Curosurf will be able to be removed from the ventilator sooner. Babies in this study will have a 50/50 chance of receiving either Curosurf or BLES and the investigators will monitor their progress during their Neonatal Intensive Care Unit admission. The study is taking place in Canada. The goal is to enroll 88 babies. There are no extra tests (blood tests or X-Rays) or return visits to the hospital for the purposes of this study.
When babies are born premature, they often need help with their breathing. The equipment used to help them breathe is not very comfortable and they sometimes need to be put on a specialized breathing machine with a tube into their lungs. The breathing machine or ventilator can be damaging to the newborn's lungs and more damage can occur the longer the newborn stays on a ventilator leading to chronic lung disease later in their lives. A new device called neurally adjusted ventilatory assist or NAVA is available that the investigators believe may be more comfortable for the premature newborn and may help the baby come off breathing support sooner. When using this device, babies may not need to be put on a ventilator and can avoid the lung damage associated with the breathing tube and the ventilator. The objective of this pilot study is to compare this new breathing device called NAVA, to the equipment that is currently being used, called SiPAP, to support premature newborn's breathing after birth without a breathing tube. The investigators hope to show that with this new technology, premature newborns that are having a difficult time breathing, will come off breathing support sooner compared to the breathing machines that are currently being used. The hypothesis for this proposed study is that improved synchrony with noninvasive NAVA will decrease time spent on noninvasive ventilation and avoid intubation.
Modification of Minimally Invasive Surfactant Therapy (MIST) to a new technique called ECALMIST (Early CPAP And Large volume Minimal Invasive Surfactant). This modification is needed to adapt the use of large volume surfactant of 4-5 ml/kg. The ECALMIST will be used to deliver the large volume Surfactant that been used in Canada called BLES (about 5 ml for each 100 mg) to the preterm infants bellow 35 weeks gestation suffer from respiratory distress syndrome (RDS) in 1st 24 hours of life while maintained on CPAP.
The investigators hypothesize that ultrasonography of the newborn lung can be used as an effective diagnostic tool in neonates ≥ 28 weeks gestation with early symptoms of respiratory distress.