Evaluating peak inspiratory pressures and tidal volume in premature neonates on NAVA ventilation.

Neurally adjusted ventilatory assist (NAVA) ventilation allows patients to determine their peak inspiratory pressure and tidal volume on a breath-by-breath basis. Apprehension exists about premature neonates' ability to self-regulate breath size. This study describes peak pressure and tidal volume distribution of neonates on NAVA and non-invasive NAVA.

Effects of Changes in Apnea Time on the Clinical Status of Neonates on NIV-NAVA.

Background: Apnea time allows the clinician to set a minimum spontaneous respiratory frequency when using noninvasive neurally-adjusted ventilatory assist (NIV-NAVA). Short apnea times may provide backup ventilation during periods of physiologic variability causing overventilation and suppression of spontaneous respiratory drive. Longer apnea times may allow more spontaneous ventilation but can result in insufficient respiratory support.

Electrical activity of the diaphragm in a small cohort of term neonates.

Background: Electrical activity of the diaphragm (E(di)) has been proposed as a parameter to evaluate respiratory function. Normative values of electrical activity of the diaphragm in full-term neonates are not known. This is a small case series to establish preliminary values of E(di) in term neonates and to determine how these values vary while awake and asleep and during feeding states.