The use of non-invasive methods of respiratory support to reduce complications of prolonged invasive mechanical ventilation in preterm infants has increased. The most common mode is nasal intermittent mandatory ventilation (NIMV). In NIMV, the interval between mechanical breaths is fixed and is determined by the frequency dialed by the clinician. Asynchrony between the infant's spontaneous breathing may exist since mechanical breaths delivered at fixed intervals can occur at different times over the inspiratory or expiratory phases of the infant's spontaneous breathing. Synchronized-NIMV is a mode similar to NIMV where the ventilator cycle is delivered in synchrony with the infant's spontaneous inspiration. This has been achieved by using techniques to detect the infant's spontaneous inspiration. The advantages or disadvantages of synchronized compared to non-synchronized NIMV remain to be determined. This study seeks to evaluate the effect of synchronized NIMV versus non-synchronized NIMV on ventilation and gas exchange in premature infants who require supplemental oxygen. The hypothesis is that the use of flow synchronized nasal intermittent mandatory ventilation (S-NIMV) in comparison to non-synchronized NIMV will improve ventilation and gas exchange and reduce breathing effort. The objective of the study is to compare the effect of flow synchronized-NIMV to non-synchronized-NIMV on tidal volume (VT), minute ventilation (VE), gas exchange, breathing effort, apnea and chest wall distortion in preterm neonates with lung disease.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
11
During the study each infant will undergo a 2-hour period of NIMV at a frequency of 30 cycles per minute. NIMV will be provided by a time cycled, pressure limited neonatal ventilator (Puritan Bennett 840, Covidien, Boulder, CO).
During the study each infant will undergo a 2-hour period of S-NIMV at a frequency of 30 cycles per minute. S-NIMV will be provided by a time cycled, pressure limited neonatal ventilator, with leak compensation capacity and nasal flow triggered ventilation (Puritan Bennett 840, Covidien, Boulder, CO). Synchronization will be achieved by the leak compensation software and the internal sensor of the ventilator.
Holtz Childrens Hospital-Jackson Health System-University of Miami
Miami, Florida, United States
Minute Ventilation
Measurements of minute ventilation (VE in ml-units/min/Kg) by respiratory inductance plethysmography during flow synchronized-NIMV will be compared to measurements during non-synchronized-NIMV
Time frame: 4 hours
Ttidal volume (VT)
Measurements of tidal volume (VT in ml-units/Kg) by respiratory inductance plethysmography during flow synchronized-NIMV will be compared to measurements during non-synchronized-NIMV
Time frame: 4 hours
Arterial oxygen saturation
Measurements of arterial oxygen saturation (%) by pulse oximetry obtained during flow synchronized-NIMV will be compared to measurements obtained during non-synchronized-NIMV
Time frame: 4 hours
fraction of inspired oxygen
Required fraction of inspired oxygen during flow synchronized-NIMV will be compared to measurements obtained during non-synchronized-NIMV
Time frame: 4 hours
transcutaneous carbon dioxide tension
Measurements of transcutaneous carbon dioxide tension (mmHg) obtained during flow synchronized-NIMV will be compared to measurements obtained during non-synchronized-NIMV
Time frame: 4 hours
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