9 Clinical Trials for Various Conditions
Study Question: In infants who are born at gestational ages of 23 0/7 to 27 6/7 weeks, does lowering the concentration of supplemental oxygen to target an arterial oxygen saturation by pulse oximetry (SpO2)of 85-89% compared with 91-95%, from the day of birth until the baby's first discharge home, increase the probability of survival without severe neurosensory disability to a corrected age of 18 months?
The machines and oxygen used to help very premature babies breathe can have side-effects, such as bronchopulmonary dysplasia (BPD). Infants with BPD get more complications (a higher death rate, a longer time in intensive care and on assisted ventilation, more hospital readmissions in the first year of life, and more learning problems) than infants who do not develop BPD. Doctors try to remove the tube in the wind-pipe that links the baby to the breathing machine as soon as possible. However, small babies get tired, and still require help to breathe. One of the standard and common techniques to help them breathe without a tube in the wind-pipe is to use simple pressure support, nasal continuous positive airway pressure or nCPAP. This supports breathing a little, but it is often not enough to prevent the need to go back on the breathing machine. Nasal intermittent positive pressure ventilation (NIPPV) is similar to nCPAP, but also gives some breaths, or extra support, to babies through a small tube in the nose. NIPPV is safe and effective, and already in use as an alternate "standard" therapy. The main research question: After being weaned from the breathing machine, is NIPPV better than nCPAP in preventing BPD in premature babies weighing 999 grams or less at birth?
This is a randomized controlled trial (RCT) on the use of Inhaled prostaglandin E1 (IPGE1) in Neonatal Hypoxemic Respiratory Failure (NHRF). Fifty patients recruited at 10 high volume sites within the NICHD Neonatal Research Network will constitute a pilot sample to evaluate the feasibility and safety of prolonged IPGE1 administration and determination of optimal dose. In this Pilot RCT, two doses of IPGE1 (300 and 150 ng/kg/min) will be administered over a maximum duration of 72 hours and compared with placebo. Once feasibility and safety of IPGE1 administered over 72 hours has been demonstrated in the pilot trial, a full scale randomized controlled trial will be planned.
This multicenter trial tested whether inhaled nitric oxide would reduce death or the need for oxygen in preterm infants (less than 34 weeks gestational age) with severe lung disease.
Most premature infants require mechanical ventilation for prolonged periods of time and a significant proportion of them develop Bronchopulmonary Dysplasia (BPD). Caffeine is a stimulant of the respiratory center and has been used for the treatment of Apnea of Prematurity in infants not requiring mechanical ventilation or to facilitate weaning from mechanical ventilation by starting therapy shortly before extubation. Recently the use of Caffeine in ventilated infants has been initiated earlier because of the reported reduction in BPD. However there is paucity of data supporting this practice. Because protracted mechanical ventilation and supplemental oxygen increase the risk of developing BPD, a therapy that would facilitate the reduction of the respiratory support and shorten its duration is desirable. Therefore, it is of importance to evaluate the effects of early Caffeine initiation and administration during the course of mechanical ventilation in preterm infants by means of a randomized placebo-controlled trial. Hypothesis: The primary hypothesis of this study is that early use of caffeine in mechanically ventilated preterm infants will reduce the time to first elective extubation and secondarily, that this will reduce the total duration of mechanical ventilation and oxygen supplementation, and reduce the incidence and severity of BPD. Objective: The objective of this trial is to evaluate the effects of early caffeine use during mechanical ventilation on the time to first elective extubation, total duration of mechanical ventilation and oxygen supplementation, and the incidence of BPD. Study Design: This will be a single-center prospective, randomized, double-blind, placebo controlled clinical trial. Population: Premature neonates born between 23 and 30 completed weeks of gestation, who require mechanical ventilation within the first 5 days of life will be enrolled. Infants with major congenital anomalies or small for gestational age will be excluded. Methods: Infants will be randomized within the first 5 days to receive a study drug consisting of either blinded Caffeine citrate or blinded Placebo (equivalent volume of normal saline). Infants will continue to receive the study drug until the first elective extubation.
This study is being conducted to compare the incidence of preterm infants (up to 28+6 weeks GA) who achieve a peripheral oxygen saturation of 80 percent by 5 minutes of life (MOL) given mask CPAP/PPV with an FiO2 of 1.0 during DCC for 90 seconds (HI Group) to infants given mask CPAP/PPV with an FiO2 of .30 during DCC for 90 seconds (LO Group).
The purpose of this study is to test whether application of high frequency ventilation through a nasal tube can lower blood carbon dioxide levels in stable preterm infants.
Infants who are on breathing support are often treated with steroids (dexamethasone); however, the best timing of therapy is not known. This trial looked at the benefits and hazards of starting dexamethasone therapy at two weeks of age and four weeks of age in premature infants.
This multicenter clinical trial tested whether minimal ventilation decreases death or BPD. Infants with birth weight 501g to 1000g and mechanically ventilated before 12 hours were randomly assigned to minimal ventilation (partial pressure of carbon dioxide \[PCO(2)\] target \>52 mm Hg) or routine ventilation (PCO(2) target \<48 mm Hg) and a tapered dexamethasone course or saline placebo for 10 days, using a 2 x 2 factorial design. The primary outcome was death or BPD at 36 weeks' postmenstrual age. Blood gases, ventilator settings, and FiO2 were recorded for 10 days; complications and outcomes were monitored to discharge. The infants' neurodevelopment was evaluated at 18-22 months corrected age.