9 Clinical Trials for Various Conditions
A pilot study on simulated lung scenarios using the standard manual resuscitator bag, flow limiting resuscitator bag, and an FDA approved flow rate limiting device paired with a standard manual resuscitator.
This is a clinical trial to compare the oxygenation and ventilation performance between manual ventilation and mechanical ventilation when transporting cardiac patients to the ICU.
The purpose of this research is to investigate the efficacy of the newly designed ventilation grip device (MVG device).
Excessive minute ventilation for patients who experience cardiac arrest may cause pulmonary injury and decrease the overall effectiveness of cardiopulmonary resuscitation (CPR). Although clinicians are trained with the correct technique for manual ventilation, evidence still shows that clinicians tend to deliver a higher respiratory rate than recommended during CPR. Little is known about tidal volume delivery during CPR; either the amount of volume give or even the impact of tidal volume on the effectiveness of CPR. There are many factors that may influence variations of tidal volumes and RR during CPR. These factors include distractions in the room (noise/cross talk), inability to assess tidal volume delivery, anxiety, and stress of the situation. This study will evaluate tidal volume and respiratory rate (RR) delivery during a simulated CPR situation. Participants will be asked to provide care for an intubated adult patient in cardiac arrest, which will include all components of advanced cardiac life support training.
Complications are common during endotracheal intubation of critically ill adults. Manual ventilation between induction and intubation ("bag-valve-mask" ventilation) has been proposed as a means of preventing hypoxemia, the most common complication of intubation outside the operating room. Safety and efficacy data, however, are lacking. PreVent is a randomized trial comparing manual ventilation between induction and laryngoscopy to no manual ventilation between induction an laryngoscopy during endotracheal intubation of critically ill adults. The primary efficacy endpoint will be the lowest arterial oxygen saturation. The primary safety endpoints will be the lowest oxygen saturation, highest fraction of inspired oxygen, and highest positive end-expiratory pressure in the 24 hours after the procedure.
Effective respiratory ventilation is achieved by moving the right amount of air to and out of the lungs while keeping the pressures at a safe level. A disposable safety device, Adult Sotair®, was created to improve manual ventilation delivery. In this superiority study, the investigators will perform two-group cross over randomized design to test the superiority of the Adult Sotair® device compared to manual ventilation alone.
Effective respiratory ventilation is achieved by moving the right amount of air in and out of the lungs while keeping the pressures at a safe level. A disposable safety device, Adult Sotair®, was created to improve manual ventilation delivery. In this non-inferiority study, we will perform a pre-post study design (single group, within-group comparison) to test the non-inferiority of the Adult Sotair® device compared to mechanical ventilation.
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.
The objective of this study is to gather initial information about the testing of a novel manual communication system for mechanically ventilated Intensive Care Unit (ICU) subjects. This phase of the study is not hypotheses based; the goal is to gather data about which potential form factors and interaction modes of the proposed communication system are most intuitive for subjects and caregivers.