6 Clinical Trials for Various Conditions
We propose a preliminary trial to evaluate the safety and efficacy of using more restricted oxygen during resuscitation for VLBW infants than is utilized currently in an effort to reduce the oxidant stress of such treatment, and to possibly reduce associated multi-system organ related dysfunction. In attempting to design a trial comparing higher versus lower oxygen during neonatal resuscitation with the potential for benefit to the enrolled infants, and a minimal level of risk, and acknowledging that the use of Room Air may be considered premature in view of the lack of any safety data in this population, we are proposing to utilize an oxygen blender and a pulse oximeter in the delivery room in the treated group. The treated group will have their fraction of inspired oxygen increased from 21%, as necessary, to achieve a target oxygen saturation of 85 to 90% at 5 minutes of life, compared with the standard of care group who will receive 100% oxygen without the use of a blender, which is the current approach in most centers in this country. The targeted saturation of 85% will provide enough oxygen to treat any ventilation/perfusion mismatch, while exposing the infants to significantly less inspired oxygen. Hypothesis: We hypothesize that the use of restricted inspired oxygen during resuscitation will result in a significant reduction in oxidant stress without any harmful clinical effects.
This is a trial evaluating the use of an end tidal CO2 monitor during ventilation in the delivery room. The use of the monitor is compared with clinical assessment of ventilation. The hypothesis is that using the monitor would results in a decrease in the incidence of hypo- or hypercapnia on admission to the NICU.
The American Academy of Pediatrics (AAP) convened the multi-center Delivery Room Intervention and Evaluation (DRIVE) Network to establish essential infrastructure to collect, coordinate, and analyze core demographic, resuscitative, and outcome data for an inclusive and diverse population of infants who receive delivery room resuscitation at participating centers. The DRIVE Network consists of delivery hospitals across the United States, covering a range of geographic, urban/rural, racial/ethnic diversity across the country. Together, DRIVE seeks to compare practice-level delivery system characteristics, identify best practices, evaluate outcomes from various interventions, and promote professional development through dissemination via the wide reach of the Neonatal Resuscitation Program.
The goal of this study is to determine if using a Pedi-Cap (a type of colorimetric carbon dioxide detector) during face mask ventilation (PPV) for newborn infants in the delivery room will lower the time of PPV needed. A group of nurses, doctors, and respiratory therapists, called the neonatal resuscitation team, will either use or not use the Pedi-Cap during face mask PPV for infants born at ≥30 weeks' gestation. A randomization generator will assign each month to either use the Pedi-Cap or not use the Pedi-Cap. The researchers will collect information from the medical chart to find the infant and mother's information, medical interventions done in the delivery room, and lab values. In addition, resuscitation team members will fill out a survey of their experiences of using or not using the Pedi-Cap during delivery room facemask PPV.
A multicenter cross-over cluster randomized controlled trial protocol study in newborn infants ≥ 26 weeks gestational age requiring assisted ventilation (positive pressure ventilation \[PPV\]) for resuscitation in the delivery room comparing a T-piece resuscitator device versus resuscitation bag.
This study is a 2-arm randomized, controlled, multi-center clinical trial to determine which of two strategies at birth are best to optimally aerate the lung of preterm infants. Specifically we will determine in 600 infants of 23-26 weeks gestational age (GA) requiring respiratory support at birth which of two lung opening strategies - either a standard PEEP/CPAP of 5-7 cm H2O in the delivery room (DR), as compared to early lung recruitment using Sustained Inflation (SI) in the DR, will result in a lower rate of the combined endpoint of death or bronchopulmonary dysplasia (BPD) at 36 weeks gestational age. Hypotheses: 1. Early lung recruitment with SI superimposed upon standard PEEP/CPAP in the DR will reduce the need for mechanical ventilation in the first seven days of life, and reduce need for surfactant use; and 2. A policy of DR SI on standard PEEP/CPAP recruitment will confer better outcomes at 36 weeks post-menstrual age (PMA) than standard PEEP/CPAP