Mechanical Ventilation Clinical Trial
Official title:
Evaluation of the Patient-ventilator Asynchrony During Mechanical Ventilation for Pediatric Acute Respiratory Failure
The synchronization between the patient and the ventilator is an essential objective during
mechanical ventilation (MV). Maintaining the patient's respiratory activity during MV
reduces ventilation pressures, improves oxygenation, and decreases sedation. In order to do
this, the inspiratory or expiratory effort of the patient must be detected by the
respirator' sensor systems, so that the assistance delivered by the respirator is
coordinated with the patient's respiratory cycles. The usual systems do not actually detect
the beginning of the effort but its result: variation in flow rate or pressure at the
respirator circuit, which depends on the patient's respiratory mechanics and sensitivity of
the sensor. This detection is currently imperfect, which generates asynchrony between the
patient's needs and the assistance of the respirator. The asynchrony comprises the periods
of delay between the beginning of the inspiration (or expiration) and the response of the
respirator, but also of the unsuitable cycles: inspiratory efforts of the patient not
detected by the respirator, or inversely triggering assistance in the absence of inspiration
by the patient (self-initiation), or delivery of 2 cycles of assistance for a single
inspiration (double triggering).
Asynchrony is a risk factor for prolonged mechanical ventilation in adults. Adult studies
have shown that patient-ventilator asynchrony is common during MV, and is associated with
prolonged MV duration. An association with length of stay in intensive care and in hospital
was also observed. In children, patient-ventilator synchronization is more difficult to
achieve than in adults due to a higher respiratory rate and smaller current volumes. The
impact of patient-ventilator asynchrony on evolution has not been studied in pediatrics.
Patient-ventilator synchronization could be improved by the development of new ventilatory
modes. The new NAVA (neurally adjusted ventilatory assist) ventilation mode detects the
patient's breathing efforts earlier by monitoring the electrical activity of the diaphragm
through the esophagus. This new mode seems to improve synchronization in children. NAVA
ventilation may therefore be a step forward, but its clinical benefits remain to be seen.
The objective of this study is to evaluate the impact of patient-ventilator asynchrony on
the duration of mechanical ventilation in children with acute respiratory failure.
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