MedPath

Evaluation of the Patient-ventilator Asynchrony During Mechanical Ventilation for Pediatric Acute Respiratory Failure

Completed
Conditions
Mechanical Ventilation
Interventions
Other: Routine mechanical ventilation
Registration Number
NCT03138148
Lead Sponsor
St. Justine's Hospital
Brief Summary

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.

Detailed Description

Not available

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
60
Inclusion Criteria
  • Mechanical ventilation planned for more than 24h according to the physician in charge;
  • Presence of a spontaneous respiratory activity (defined by the presence of respiratory cycles activated by the patient);
  • Parental consent obtained with the parents or with the legal representative.
Exclusion Criteria
  • pathologies for which a long and difficult weaning of the mechanical ventilation is expected: chronic respiratory failure with history of ventilation superior to one month, severe neurological or muscular pathology;
  • Patients with a tracheotomy;
  • Patients receiving a treatment by curare;
  • Contraindication of recording of the diaphragmatic activity by oesophageal way, in particular recent oesophageal surgery, oesophageal stenosis, suspicion of diaphragmatic paralysis, severe coagulation disorder;
  • Patients to whom a death seems imminent;
  • Patients for whom a limitation of the care was considered.

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Arm && Interventions
GroupInterventionDescription
Severe patient-ventilator asynchronyRoutine mechanical ventilationPatients in whom the total percentage of time spent in asynchrony is superior to the entire cohort's 75th percentile
less severe patient-ventilator asynchronyRoutine mechanical ventilationPatients in whom the total percentage of time spent in asynchrony is inferior to the entire cohort's 75th percentile
Primary Outcome Measures
NameTimeMethod
Difference in ventilator free days28 days

Difference in ventilator free days at Day 28th between the two patient groups (high versus moderate asynchrony)

Secondary Outcome Measures
NameTimeMethod
The impact of asynchrony on Comfort scaleat inclusion

Comfort Scale between the two patient groups (high versus moderate asynchrony)

Intensive care unit length of stay28 days

between the two patient groups (high versus moderate asynchrony)

Mortality in pediatric intensive care unit28 days

between the two patient groups (high versus moderate asynchrony)

Trial Locations

Locations (1)

St. Justine's Hospital

🇨🇦

Montreal, Quebec, Canada

Related Trials

Ventilator Asynchrony as a Predictor of Weaning Failure

Completed
Reham Mohammed Elmorshedy
Posted 2/3/2021
Updated 2/10/2021

Automated Detection of Patient Ventilator Asynchrony Using Pes Signal

Recruiting
Leiden University Medical Center
Posted 1/2/2024
Updated 3/13/2024

Patient-ventilator Asynchrony in Patients With Brain Injury

Completed
Jian-Xin Zhou
Posted 7/11/2017
Updated 5/29/2020

Patient-ventilator Synchronisation Study for Intensive Care Unit Patients

CompletedNot Applicable
Centre Hospitalier Intercommunal de Toulon La Seyne sur Mer
Posted 12/26/2018
Updated 1/28/2025

Study on the Patient-Ventilator Asynchrony Analysis Function

Not Yet RecruitingNot Applicable
Ming Zhong
Posted 4/30/2024
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy