Entrainment-Based Mechanical Ventilation

Summary

BACKGROUND AND SIGNIFICANCE Entrainment-based ventilation is a new mode of mechanical ventilation based on the classical physics theory of mutual entrainment between coupled oscillators. Typically, the entrained inspiratory activity may precede or lag behind machine inflation depending on whether spontaneous respiratory frequency is higher or lower than the ventilator frequency.

HYPOTHESIS The investigators anticipate that the results of the study will help to improve the interaction of patients with the mechanical ventilator thereby minimizing the risks of mechanical ventilation in future. The investigators believe the potential benefits significantly outweigh the potential risks.

RESEARCH STUDY DESIGN AND METHODS This is a prospective study and single site. Twenty mechanically ventilated patients, stable on their current vent settings and are capable of triggering the ventilator in the SICU, MICU, CCU and Cardiac and Neuro Surgery ICUs at BWH will be recruited.

After obtaining informed consent a respiratory real-time data monitor will be placed between the artificial airway and the Y piece of the ventilator circuit. Baseline mechanical ventilation data with conventional pressure-limited assist/control ventilation mode will then be collected for a 4-hour period. The patients will then be transitioned to pressure-limited entrainment-based ventilation for a 4-hour period. Baseline ventilation monitoring will be carried out either immediately preceding or immediately following EMV in the same patient. The sequence of the control/baseline phase and the experimental phase of the study will be randomized.

DATA COLLECTION Demographic data, weight, height, and past and current medical history will be recorded. Also hospital admission information, reasons of mechanical ventilation, mode of mechanical ventilation and settings, arterial blood gas, clinical laboratory (hematology/chemistry) values, and hemodynamic values will be recorded.

STATISTICAL ANALYSIS Baseline demographic and procedural variables will be analyzed statistically by plotting the 95% confidence intervals of each variable. For feasibility evaluation, the total number of each type of asynchronous breaths/hour during entrainment-based ventilation will be averaged over the 4-hour experimental period and compared with those in the 4-hour baseline ventilation period.

Conditions

• Respiratory Insufficiency
• Respiratory Failure
• Mechanical Ventilation Complication

Interventions

DEVICE

Patients given EMV Ventilation

Baseline mechanical ventilation data with conventional pressure-limited assist/control ventilation mode will then be collected for a 4-hour period. The patients will then be transitioned to pressure-limited entrainment-based ventilation for a 4-hour period. Baseline ventilation monitoring will be carried out either immediately preceding or immediately following EMV in the same patient. The sequence of the control/baseline phase and the experimental phase of the study will be randomized.

Sponsors & Collaborators

• Massachusetts Institute of Technology

  collaborator OTHER

• National Heart, Lung, and Blood Institute (NHLBI)

  collaborator NIH

• Brigham and Women's Hospital

  lead OTHER

Principal Investigators

• Chi-Sang Poon, PhD · Massachusetts Institute of Technology

• Gyorgy Frendl, MD, PhD · Brigham and Women's Hospital

Study Design

Allocation

NA

Purpose

TREATMENT

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2018-08-01

Primary Completion

2018-09-02

Completion

2018-09-02

FDA Device

Yes

Countries

• United States

Study Locations