Neurally Adjusted Ventilatory Assist (NAVA) Study in Adults With Acute Respiratory Failure

A Comparative, Multicenter, Randomized, Controlled Study of Neurally Adjusted Ventilatory Assist (NAVA) vs. Conventional Lung Protective Ventilation in Patients With Acute Respiratory Failure

Status

Completed

Phases

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT01730794

Enrollment

306

Registered

2012-11-21

Start date

2014-03-28

Completion date

2020-01-22

Last updated

2020-01-27

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Acute Respiratory Failure

Keywords

Acute Respiratory Failure, Mechanical Ventilation, NAVA, Lung protective ventilation, invasive ventilation, noninvasive ventilation

Brief summary

The purpose of this study is to compare a specific mode of artificial ventilation (help from a breathing machine) with other modes. This specific mode is called Neurally Adjusted Ventilatory Assist (NAVA) and is different from other modes as it uses direct signals from the diaphragm (breathing muscle) to help patients breathe. The investigators believe that using these signals, NAVA can determine the exact timing for patients' spontaneous breathing effort and delivers the artificial breath at the same time (in synchrony) with their own breath. Other modes (breathing methods) may cause asynchrony between the patient and the ventilator while delivering artificial breaths because of the way they operate. Asyncrony between patient and ventilator is a risk factor for increasing the length of artificial ventilation and number of related complications. The investigators would like to find out if NAVA performs better in establishing synchrony between patient and ventilator and as a result decreasing time for artificial ventilation and increasing better outcomes.

Detailed description

Study Goal To compare the ability of NAVA vs. conventional lung protective ventilation in a multicenter, unblinded, randomized, controlled fashion to provide invasive ventilatory support during acute respiratory failure in adults who are expected to require ventilatory support for greater than 72 hours. Hypothesis It is hypothesized that the use of NAVA compared to conventional lung protective ventilation will result in a decrease in the number of days of mechanical ventilation. It is further hypothesized that NAVA compared to conventional lung protective ventilation will result in a decrease in the length of weaning, the length of ICU and hospital stay, and mortality. Primary Outcome • Number of invasive ventilator free days. Secondary Outcome * Mortality * Length of Invasive Ventilation in survivors * Length of ICU and hospital stay * Incidence of barotrauma (defined as the presence of any extra-pulmonary air that was not present at study enrollment). * Ventilator associated pneumonia (development of a pneumonia 48 hrs after entry into the study). * Development of ARDS (after enrollment into the study; defined as a rapid onset, a P/F\<200 mmHg, and bilateral pulmonary infiltrates that are not of cardiac origin).

Interventions

OTHERNAVA ventilation

Neurally adjusted ventilatory assist

OTHERConventional Lung Protective Ventilation

conventional protective mechanical ventilation

Study design

Allocation

RANDOMIZED

Intervention model

PARALLEL

Primary purpose

TREATMENT

Masking

NONE

Eligibility

Sex/Gender

ALL

Age

18 Years to No maximum

Healthy volunteers

Inclusion criteria

* Age greater than or equal to 18 years * Hypoxemic or hypercapnic acute respiratory failure * Intubation and mechanical ventilation * Anticipated mechanical ventilation equal or longer than 72 hrs * Mechanically ventilated less or equal to 5 days * Able to spontaneously trigger the ventilator

Exclusion criteria

* moderate-to-severe acute respiratory distress syndrome * Post-operative patient's normally requiring a short course of mechanical ventilation (for example most cardiac surgical patients) * Unable to spontaneously breathe * Need to provide controlled ventilation * Poor short term prognosis (defined as a high risk of death in the next 3 months) * Neuromuscular or neurologic disease * Age \< 18 years * Patients with major esophageal, gastric and oral surgery * Acute brain injury or elevated intracranial pressure (\> 18 mmHg) * Severe cardiac disease: New York Heart Association class 3 or 4 or acute coronary syndrome or persistent ventricular tachyarrhythmias. * Pregnancy, must be confirmed by laboratory analysis.

Design outcomes

Primary

Measure	Time frame	Description
Number of invasive ventilator free days.	28 days	Number of days without mechanical ventilation, within the first 28 days of the study.

Secondary

Measure	Time frame	Description
ICU and hospital Mortality	90 days	Mortality during patient stay in the ICU and after being discharged from ICU
Incidence of barotrauma	60 Days	Number of diagnosed pneumothorax
Ventilator associated pneumonia	60 Days	Number of diagnosed Ventilator Associated Pneumonia
Total length of mechanical ventilation in survivors (invasive plus noninvasive)	90 days	Total number of days of mechanical ventilation in ICU survivors.
Length of ICU stay	90 Days	Total number of days of ICU stay.
Length of hospital stay	90 Days	Total number of days of Hospital stay.
Development of Acute respiratory distress syndrome (ARDS)	60 Days	Number of patients developing ARDS

Countries

China, Spain

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Mar 1, 2026