Randomized Control Trial: Synchronized Non-invasive Positive Pressure Ventilation Versus Non Synchronized Non Invasive Positive Pressure Ventilation in Extremely Low Birth Weight Infants

Hypothesis:

The hypothesis is that sNIPPV will decrease the need for MVET and reduce BPD in ELBW infants as compared to NIPPV.

Specific Aims:

The specific aims are to determine whether:

1. sNIPPV results in a decreased need for MVET at 7days of life and 28 days of life in ELBW infants compared to NIPPV.
2. sNIPPV reduces BPD in ELBW infants compared to NIPPV. Research design and methods: ELBW infants will be enrolled in this study at the RNICU at MFCH of WMC following informed written parental consent.

Randomization:

ELBW infants will be randomized to either sNIPPV group or NIPPV group using a computer-generated scheme.

Extubation criteria:

1. Infant is receiving caffeine.

2. Infants can be extubated at any point, but must be extubated following a 12-hour period of clinical stability when the ventilator settings have met all the following criteria:

   • mean airway pressure (MAP) < 8cmH20,
   • FiO2 < 0.4,
   • pH > 7.2, and
   • pCO2 < 70.

Intubation criteria:

Infants must be intubated if any of the following criteria occur:

1. One apneic event requiring positive pressure ventilation (PPV).

2. More than 6 apneic events requiring stimulation within a 6-hour period.

3. A deterioration in respiratory status as noted by any of the following criteria:

   • pH < 7.2,
   • pCO2 > 70,
   • FiO2 > 0.6,

4. Or, if in the opinion of the attending neonatologist, the baby is failing either non-invasive strategy.

Data Collection:

Demographic and outcome data will be collected from source data, and then the patient will be given a unique identifier, without reference to MRN or birthdate.

Tracheal aspirates will be collected per routine nursing care to look for inflammatory cytokine markers (IL8, IL6 and TNF alpha). This may help to determine if certain infants remained intubated due to a pro-inflammatory mechanism (if their TA cytokines were elevated early compared to those who may have been more successfully extubated because of low levels of cytokines).

During hospital stay, DNA and RNA samples will be extracted from buccal swabs, as certain babies are more susceptible to BPD based on their genetic foundations.

Charts will be reviewed to determine the duration of oxygen therapy as well as the duration of MVET.

MVET will be assessed at 7 days of life and 28 days of life as primary outcome. BPD, as defined as oxygen requirement at 36 weeks PMA, is a secondary outcome. Initial statistical analysis will be performed using chi square for categorical data; and t-test or Mann Whitney for continuous data that is normally or non-normally distributed (respectively), with statistical significance when P < 0.05.

Power analysis:

Based on the investigators' NICU data that NIPPV has MVET rate at 7 days of life of 84% for ELBWs, it was hypothesized that sNIPPV will decrease the need for MVET at 7 days of life by 40%. For a power of 80%, and an alpha value of 0.05, the sample size is 27 infants in each group. Anticipating a 10% dropout rate, this gives 30 as the sample size for each group.

Anticipated timeline:

With 80-100 ELBW infants admitted each year, enrollment is anticipated to be completed in 1 year.

The clinical implications of this study will determine if synchronized NIPPV in ELBW infants will reduce the need for mechanical ventilation and ultimately BPD.

There are no procedures, situations, or materials that will be hazardous to personnel. There are no courses planned which support the research training experience. This research will not include the use of experimental drugs or treatments.