Respiratory Distress Syndrome, Newborn Clinical Trial
Official title:
Comparison of Efficacy of Noninvasive Ventilation With RAM Cannula Versus Short Bi-nasal Cannula in Respiratory Distress Syndrome of Preterm Infants
Noninvasive ventilation defines methods of providing ventilation support with constant or
variable pressure using nasal or nasopharyngeal interfaces without endotracheal intubation or
tracheostomy. Today, short binasal prongs and different types of nasal masks are the most
commonly used nasal interfaces in the NICU with the aim of providing NIV.
RAM cannula (Neotech ™, Valencia, CA), a new nasal interface, is increasingly used in NID
applications in newborn infants. The RAM cannula is available in the inspiration and
expiration arms of the stroke while reducing the dead space in the respiratory tract due to
the low nasal prong diameter. There are not enough studies comparing the effectiveness of the
RAM cannula with other short binasal prongs or nasal masks.
Investigators compared the effectiveness and nasal injury rates of RAM cannula and short
binasal prong as NIV interfaces in preterm infants.
In the past years endotracheal intubation and mechanical ventilation with surfactant therapy
was the standard treatment of moderate to severe respiratory distress syndrome (RDS).
Especially in the last 10 years, prolonged intubation and positive pressure ventilation have
been shown to increase the frequency of bronchopulmonary dysplasia, a kind of chronic
pulmonary disease. Intubation and positive pressure ventilation cause volu-trauma,
baro-trauma, and alveolar secondary to bio-trauma, leading to excessive distension and
inflammation, disrupting alveolar formation, resulting in fibrosis and bronchopulmonary
dysplasia. Intubation and mechanical ventilation also involve ventilator-associated
pneumonia. For this reason, strategies for lung protective ventilation have become
increasingly widespread in recent years and noninvasive ventilation (NNV) applications
without endotracheal intubation have become the first choice in neonatal ventilation.
Noninvasive ventilation defines methods of providing ventilation support with constant or
variable pressure using nasal or nasopharyngeal interfaces without endotracheal intubation or
tracheostomy. Noninvasive ventilation can be performed in a variety of forms such as
continuous positive airway pressure (NCPAP) nasal intermittent positive-pressure ventilation
(NIPPV) and high-flow nasal cannulae.
Different nasal interfaces are used to provide noninvasive ventilation support. For this
purpose, there is no standard apparatus used in neonatal intensive care units (NICU).
Nasopharyngeal cannulae are not currently recommended for use with NIV because they cause
extensive resistance during spontaneous breathing, nasopharyngeal area damage and
colonization, although they have been widely used in previous years. Today, short binasal
prongs and different types of nasal masks are the most commonly used nasal interfaces in the
NICU with the aim of providing NIV. Nasal interfaces are recommended to be placed on the
surface without causing pressure loss. For this purpose, hoods and fixing apparatus are
frequently used. For this reason, babies often become restless and agitated during NIV
applications. In addition, necrosis and deformities may develop in septum due to pressure of
nasal septum.
RAM cannula (Neotech ™, Valencia, CA), a new nasal interface, is increasingly used in NID
applications in newborn infants. RAM seems ideal to allow effective and cranium development
in the prevention of pressure damage to the face due to the design of the cannula and the
need for head or face access to detect it. The RAM cannula is available in the inspiration
and expiration arms of the stroke while reducing the dead space in the respiratory tract due
to the low nasal prong diameter. Although the use of RAM cannula as a NIV interface in
newborn intensive care units is becoming increasingly widespread, the number of studies
related to RAM cannula is limited. Most of the studies investigating the effectiveness of
this interface were made on artificial lung models. In the study of "Mukerji" and colleagues,
the short binasal prong and RAM cannula were compared as interfaces in NIPPV application in
the artificial lung model and it was found that carbon dioxide excretion in short binasal
prongs was better than RAM cannula with an increase in peak inspiratory pressure. Studies
conducted by Iyer and colleagues in the artificial lung model show that RAM leakage rates
below 30% lead to adequate pressure transfer to the cannulae, while leakage rates above 50%
reduce pressure transfer to the lungs. Similar results have also been found in the work of
"Gerdes" et al. A number of studies have been conducted on the clinical use of RAM as a
noninvasive ventilation interface and in these studies it has been shown that the use of RAM
cannula as an interface in NCPAP, NIPPV or even nasal high frequency ventilation applications
to provide NIV is not well tolerated and does not cause gastric perforation or nasal septum
damage. In the study of "Nzegwu" et al. It has been shown that in two-thirds of the patients
who were treated with RAM cannula and NIV support, the respiratory support was successfully
cut off. Nevertheless, none of these studies compared the RAM cannula activity with the other
binasal prongs or nasal masks. Investigators compared the effectiveness (rates of surfactant
therapy application, rates of intubation, total NIV duration) and nasal injury rates of RAM
cannula and short binasal prong as NIV interfaces in preterm infants at neonatal intensive
care unit.
Considering the studies made in the artificial lung models of RAM cannulas, which are
becoming increasingly widespread in the NICUs, because of their simple and simple design and
easy connection to the standard circuits of the ventilators without any intervention,
investigators think that the effectiveness of NIV application is insufficient compared to the
short binasal cannula.
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