Neonatal Respiratory Failure Clinical Trial
Official title:
Use of Orotracheal CPAP ( Gregory System) for Treatment of Respiratory Failure in Newborns
Nasal CPAP is a excellent ventilation modality for newborns, but the incidence of pneumothorax is high (65.% - 9%) our hypothesis is when the baby open the mouth or crie the pressure in the airway is variable, the investigators evaluate a closed system with a intubated baby with a orotracheal system but with a elastic reservoir , the reservoir distend and the pressure in the airway is constant ,with this system the investigators protect the lungs for damage . The investigators want compare the use of nasal CPAP, mechanical ventilation and orotracheal CPAP with a compensation bag (gregory system) in newborns with respiratory failure .
Recent advances in the intensive care of the newborns are closely related to the evolution
in the management of the respiratory distress syndrome (RDS) frequently associated with lung
immaturity specially in the premature infant as well as with various pathological conditions
in the mature lung of the full- term baby. The methods of ventilatory assistance to treat
these conditions vary from continuous positive airway pressure (CPAP) to conventional
mechanical ventilation and/or high frequency ventilation. It is reasonable to assume that
the type of ventilatory assistance provided to these infants should be graded in accordance
to the severity of the respiratory problem (1) therefore the mode of respiratory support
should be one which while providing adequate ventilatory assistance will result in minimal
volu or barotrauma.
Currently the investigators know that the best ventilatory technique is one that stabilizes
Po2, Pco2 and Ph and avoids volu and barotrauma, diminishes the possibility of pulmonary
injury and shortens the time spent in the hospital.
It has been demonstrated that with the use of CPAP the need for mechanical ventilation is
less and that the possibility of pulmonary injury and the length of hospital stay are
shortened (1 ) ( 2). The need to use mechanical ventilation increases when gestational age
is marginal or in the presence of severe pulmonary pathology that causes increased
respiratory problems which in turn enhances the possibility of increase the alveolar oxygen
tension gradient (A-a DO2) to more then 180mmHg and to cause the presence of a more severe
hyaline membrane syndrome as evidenced by sequential chest X rays (8). This also will limit
the need for early nasal continuous airway pressure (ENCPAP). Other limiting factors could
be pressure changes due to physiological events such as cry, mouth open or close, cough or
hippus. In the past use CPAP generated by the ventilator administered via an endotracheal
cannula ; however this method of ventilation has been abandoned due to the high risk of
barotrauma due to the surges of pression in a closed, rigid, system that could eventually
generate an increased resistance due to the disparity between the caliber of the
endotracheal tube and that of the trachea (9). This increased resistance was for a long time
considered to be a great limiting risk for the use of orotracheal CPAP particularly in
premature infants.
According with the severity of the disease, the best results have been obtained with the use
of low pressure, high pulmonary volumes such as those provided by high frequency oscillatory
ventilation (HFOV) or conventional ventilation with a high positive end expiration pressure
(PEEP) (1).
The investigators want determinate the rate of pneumothorax , use of oxygen at 36 weeks of
gestational age , failure to treatment, mortality , infection rate an other complications
with the 3 methods for assisted ventilation.
The concept of The Compensation Bag (accessory lung):
This concept is based on the gregory original work in 1972 (3) , the investigators postulate
that the air pressure in a closed airway circuit always tries to find a way to escape, in
this situation, the weakest point in this close circuit is the alveolus, therefore any
variation in pressure will be directly reflected in the intrinsic alveolar pressure, that
is, if there is a fall in the circuit pressure the intra-alveolar pressure will fall,
causing in turn a decrease in the alveolar oxygen tension gradient which will cause a
collapse of the alveolar sac. On the other hand an increase in the pressure of the airway
circuit will augment the intra-alveolar pressure, distending the sac, causing inflammatory
changes on its wall and eventually rupturing it occasioning air leakage and on the long run
giving raise to pathological sequels such as bronchopulmonary dysplasia.
The compensation bag is fitted with a distensible mechanical valve which is interposed in
the closed circuit, so that in case of an increase in pressure the distention point will be
the bag and not the alveolus. Also in case of a decreased in pressure the point of collapse
is the bag therefore preventing a collapse of the alveolar sac, this allows to maintain an
optimally expanded alveolus without the risk of over distention or collapse. At the same
time the pulmonary resistance occasioned by the endotracheal tube is regulated within the
circuit thus improving the performance of the mechanical ventilation through a better
alveolar expansion and a more adequate alveolar oxygen tension, avoiding sudden pressure
variations but maintaining the benefit of conventional CPAP keeping a constant alveolar
volume regardless of any physiological event.
In 1972 the Gregory work report excellent evolution with the use of a anesthestic bag for
ventilation in newborns, in 2009 , the investigators reported a small study with a modified
gregory system with excellent evolution . (4) in this work the investigators want report the
use of this system in more babies .
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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