Gastric Insufflation Clinical Trial
Official title:
Efficacy and Safety of Pressure-controlled Ventilation Compared With Manual Ventilation to Reduce Gastric Insufflation During Induction of Anesthesia in Children: Controlled Trial Randomized, Double-blind
The purpose of this study is to determine whether mechanical ventilation with facial mask during induction anesthesia in the population of 1month to 14years is associated with less risk of gastric insufflations as compared with manual ventilation.
Manual ventilation is the most widely used during induction of anesthesia because of
unsupported theoretical advantages in clinical trials as a test of airway patency and
adequate ventilation and lung expansion. Additionally, in developing countries until
recently lacked sufficient ventilation from supplying controlled fans with different modes
that could be used during induction of anesthesia. However, case reports in pediatric and
adult patients not intubated, note that manual ventilation could be related to increased
frequency of gastric insufflation and predispose to regurgitation and aspiration, impaired
ventilation, respiratory failure, reduced cardiac output and rupture or visceral ischemia.
To date, no controlled clinical trials have to corroborate or not these experiences.
Gastric insufflation may appear as a result of manual ventilation or mechanical. In
connection with the first because it does not allow volume control currents, the time of
insufflation or inspiratory pressures, which determine the maximum peak inspiratory
pressure, which is directly proportional to the incidence of this complication. Meanwhile,
mechanical ventilation is associated with gastric insufflation when pressures exceed certain
limits peak airway. vonGoedecke et al, in a clinical trial of mechanical ventilation
(pressure control) against the manual in healthy adults during induction of anesthesia and
whose outcome was ventilatory variables, they found that mechanical ventilation was
associated with lower peak inspiratory pressures lower airway and peak inspiratory flow
rates and tidal volumes and minute lower. They recommend mechanical ventilation during
induction of anesthesia as the safe technique.
To make ventilation safer in an unprotected airway, can be considered two strategies:
limiting the tidal volume or peak inspiratory pressure limit. Seet and colleagues compared
in healthy adults two mechanical ventilation strategies in addition to the manual technique
during induction considering a composite endpoint of ventilatory variables and gastric
insufflation in a clinical trial. They found that pressure-controlled ventilation was
associated with lower peak inspiratory pressure and gastric insufflation less than the other
two methods, which suggest that this technique is safer and should be the method of choice
for ventilation during apnea patients induction.
Several studies have shown the clinical significance of gastric insufflation during
induction of anesthesia in 2009, Paal and colleagues presented the results of two studies in
animals: one with them in cardiac arrest and another spontaneous circulation, in the first
there was a abdominal compartment syndrome leading to hemodynamic compromise, respiratory,
metabolic, and finally multi-organ, in animals with spontaneous circulation, the effects
were even worse because there was a reduction in survival and in some gastric insufflation
was considered as the cause of heart failure . The authors conclude that gastric
insufflation alone can cause heart failure and multiple organ failure occurs much faster the
more critical is the patient. , In addition to substantial mechanical cardiopulmonary
effects, insufflation of the stomach is a complex problem that can cause regurgitation,
aspiration, pneumonia and death. Increases abdominal pressure, elevates the diaphragm,
restricts lung movement and thus reduce the compliance of the respiratory system. A
reduction in respiratory system compliance may direct further ventilation volume into the
stomach when the airway is not protected, thus inducing a vicious circle with each breath,
increasing the insufflation of the stomach and decreasing lung ventilation. Added to this
the fact that the anesthetic drugs reduce the lower esophageal sphincter pressure and more
than 90% of cases in children suction produced in the induction of anesthesia, needless to
emphasize the importance of controlling this adverse effect. Control of gastric insufflation
by the above would be particularly useful in patients with comorbidities that predispose to
regurgitation or cardiac arrest patients.
Children are at greater risk of gastric insufflation during induction of anesthesia because
of anatomical and physiological characteristics inherent in the conduct of the respiratory
system that promote airway obstruction and the passage of air into the stomach: proportional
size of the head and tongue, short neck, small chin, among others. This is compounded by the
use of a ventilation without control of parameters such tidal volume, inspiratory time and
peak inspiratory pressure, as well as reduction of the lower esophageal sphincter pressure
caused by anesthetics and airway devices. It is likely that this increased risk of gastric
insufflation is the explanation for the increased incidence of aspiration and respiratory
complications found in some studies, particularly during anesthetic induction.
The work of von GoedeckeSeet and are pioneers in this new form of induction of anesthesia
with ventilation for the patient safer and more comfortable for the anesthesiologist, using
more developed fans that bring new anesthesia machines and allow to get the most out of
ventilatory modes that are built. However, lacking adequate methodological designs jobs to
validate these techniques in different populations, and one of them is the pediatric
population, the characteristics mentioned above would suggest that one of the most favored
by this method. Therefore, this paper seeks to establish whether the pressure-controlled
ventilation during induction of anesthesia reduces the incidence of gastric insufflation
compared with manual ventilation of children aged 1 month to 14 years.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Investigator, Outcomes Assessor), Primary Purpose: Treatment
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