Non Invasive Ventilation With NAVA vs ASV for AECOPD

Overview

Non invasive ventilation is the standard of care in managing patients with exacerbation of chronic obstructive pulmonary disease. However no optimal mode of NIV delivery is established; failure rates remain high, attributed to asynchrony and leak associated with NIV. Neurally adjust ventilator assist is a new mode that may improve patient ventilator interactions, improve synchrony and contribute to improved outcomes. Likewise ASV is a mode principled on the closed loop system and is associated with reduction of work associated with breathing and improved outcomes. In this randomised, non-blinded trial, we study these two modes of NIV delivery in patients of AECOPD with hypothesis being that better synchrony with NAVA may translate to better clinical outcomes.

Study hypothesis We hypothesize that NIV-NAVA would be superior to ASV in reducing the NIV failure rates in patients with AECOPD. In this study, we plan to compare the ASV with NAVA during NIV in patients with AECOPD. Methods All consecutive patients meeting the inclusion criteria will be screened and assessed for eligibility. Informed consent will be sought and those enrolled would be randomized to to receive NIV using either the ASV or the NIV-NAVA mode. The NIV will be delivered using a oro-nasal mask with supplemental oxygen as needed. Delivery of NAVA NAVA will be delivered using Servo-i ventilator (Maquet, Getinge Group, Sweden) with software to compensate for air leaks. NAVA initiation would involve calibration of the Edi module, placement of the nava catheter nasogastrically, verification of position and selecting appropriate nava level on the basis of required pressure support. In case a favourable response is not obtained, NAVA level will beincreased by 0.2 cm/µV until favourable response is seen (tidal volume 6-8mL/kg, respiratory rate \< 25/min) Delivery of ASV ASV will be delivered using a Galileo GOLD ventilator (Hamilton Medical, AG, Switzerland).The patients will be ventilated with an initial setting of 100%-minute volume and will be titrated in increments of 10% as per clinical parameters (respiratory rate, tidal volume). Monitoring All the patients will be monitored every 15 minutes for respiratory rate, heart rate, blood pressure, Glasgow coma score, pulse oximetry, and signs of respiratory fatigue (paradox), fit of mask and any peri-mask leak. Arterial blood gas analysis will be done at initiation of NIV and then at 1 hour, 4 hours and 24 hours and then at least once a day till primary end point is met. All the subjects will receive standard of care for acute exacerbation of COPD regardless of their allotted treatment arm. Randomization Randomization will be done by a computer-generated sequence with blocks of 8 to receive non-invasive ventilation using either the ASV or NAVA. The order of randomisation will be sealed in an opaque envelope, and opened by the physician not directly involved in the study or analysis, at the time of recruitment of patient. Statistical analysis Results will be presented in a descriptive fashion as mean ± standard deviation (SD), median (interquartile range) or number and percentage. The differences between means of continuous and categorical variables will be analysed using the Student-t-test and chi-square tests, respectively. For data that is not normally distributed the data will be analysed using non-parametric test (Mann-Whitney U).Trends in clinical (respiratory rate and mean arterial blood pressure), arterial blood gas parameters (pH, PaO2, PaCO2) and NIV parameters (peak inspiratory pressure, PEEP, tidal volume) will be analyzed using mixed model technique for repeated measures analysis of variance; the within-groups factor will be time (baseline, one, four and 24 hours), and the between-groups factor will be NIV success. A P value of \<0.05 will indicate statistical significance.