7 Clinical Trials for Various Conditions
The purpose of this study is to determine the effectiveness of a non-invasive communication aid for BPAP/CPAP masks. This study also looks to determine the potential impact of the device on patients with obstructive sleep apnea (OSA) and the individuals that interact with the device.
The primary objective of the prospective study is to compare the incidence, duration, and severity of oxygen desaturation in high-risk patients randomized to nasal mask with nasal positive airway pressure (PAP) or standard care (nasal cannula) receiving propofol sedation during colonoscopy in an ambulatory surgical center (ASC). Patients will be randomized in groups of ten to one of two groups using a random number table. Group A: standard care with a nasal cannula. Group B: SuperNO2VA™EtCO2. Following the procedure subjects will be asked to complete satisfaction surveys before leaving the ASC and 48 +/- hours following their procedure. Researchers will compare levels of satisfaction and levels of oxygen saturation.
This is a randomized trial to determine if a visible respiratory function monitor (RFM) displaying realtime measurements of delivered inflations improves clinical providers ability to perform positive pressure ventilation (PPV) within a pre-defined target tidal volume in preterm infants after birth.
The purpose of this study is to collect physiologic data from patients with severe brain injury who require mechanical ventilation in order to describe the impact of ventilation, specifically positive end expiratory pressure (PEEP), on intracranial pressure (ICP).
This study compared the use of continuous positive airway pressure initiated at birth with the early administration of surfactant administered through a tube in the windpipe within 1 hour of birth for premature infants born at 24 to 27 weeks gestation. In addition, these infants within 2 hours of birth, had a special pulse oximeter placed to continuously monitor their oxygen saturation in two different target ranges (85-89% or 91-95%). This study helped determine whether or not these two management strategies affect chronic lung disease and survival of premature infants.
Many extremely premature infants, born before 28 weeks' gestation age, require immediate help with breathing after birth. Positive pressure ventilation (PPV) using a device called a T-piece resuscitator is a common method. PPV is needed to establish proper lung function, improve gas exchange, and encourage the infant to breathe spontaneously. However, T-piece resuscitators have limitations, like a lack of visual feedback and variable settings, which may result in reduced effectiveness of PPV. Improving PPV effectiveness may reduce the need for more invasive procedures, such as intubation, which pose an increased risk of complications and death for these fragile infants. A novel approach, that may overcome the above limitations and deliver PPV with precise settings through a nasal mask, is to use a ventilator to deliver PPV (V-PPV) using a respiratory mode called nasal intermittent positive pressure ventilation (NIPPV). While NIPPV is commonly used in neonatal intensive care units to support breathing in premature infants, the impact of V-PPV use during immediate post-birth stabilization needs to be studied. Preliminary data from our recent single-center study confirmed the feasibility of using V-PPV for resuscitation of extremely premature babies and indicated its potential superiority with a 28% decrease in the need for intubation compared to historical use of T-piece. This promising innovation may enhance outcomes for these vulnerable infants by refining the way we provide respiratory support in their critical first moments. The research objective is to compare the clinical outcomes of extremely premature infants receiving manual T-piece versus V-PPV during immediate post-birth stabilization. The primary aim is to evaluate the impact of V-PPV on major health complications or death. This study seeks to provide insights into improving the care and outcomes of these infants during a critical stage of transition from fetus to newborn.
Very premature infants often cannot breathe on their own and require assistance with a respirator. Conventional respirators deliver air or oxygen via a breathing tube placed through the mouth to the airway (endotracheal tube). A prolonged use of an endotracheal tube is associated with injury to the lungs. Currently, a premature baby has to be ventilated through an endotracheal tube until he/she can fully breathe independently. In the current study, in order to shorten the time with an endotracheal tube, we utilized an alternative, less invasive ventilation procedure, nasal intermittent positive pressure ventilation (NIPPV). This procedure provides help with breathing, but requires only nasal, not endotracheal tubes. We hypothesized that NIPPV might help babies breathe, at an early stage in their recovery, when they could not breathe independently yet. Thus, by switching babies at this early stage from a regular respirator to NIPPV, we should be able to shorten the use of an injurious endotracheal tube.