Non Invasive Positive Pressure Ventilation to Minimize Aerosolization for COVID 19

Terminated

• Conditions: COVID-19
• Interventions: Device: Aerosol-reducing Mask; Device: Standard Mask

• Registration Number: NCT04344925
• Lead Sponsor: Lawson Health Research Institute

Brief Summary

Patients presenting to the emergency department, or needing hospitalization, for a variety of medical conditions often require non-invasive ventilation (breathing support). For example, for a person with shortness of breath as a complication of COPD (Chronic obstructive pulmonary disease) the gold standard of care requires application of a BiPAP machine. However, in the current environment of COVID-19, the aerosols produced by this machine in a COVID-19 positive patient pose serious potential harms to healthcare providers and other patients. All patients with similar symptoms to COVID-19 need to be treated as positive until definite testing determines otherwise. The best test available for COVID-19 takes up to 4 hours to determine the patients status, which is too long to delay application of a BiPAP. This could lead to either a delay in care or the need for invasive breathing measures (intubation), which requires intense resource utilization, may not be in line with a patient's goals of care, and could cause serious harms (i.e. infection, medication reactions, etc.) in patients who do not need it. The use of a closed-loop BiPAP machine in which no expired air is released into the environment would solve these problems. Building off the failures of a similar approach that was trialed in Italy in response to the COVID-19 crisis, this project will develop and test a novel closed-loop BiPAP system.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2020-04-03
• Study First Submitted QC: 2020-04-09
• Study First Posted: 2020-04-14
• Study Start: 2020-04-18
• Status Verified: 2020-06
• Primary Completion: 2020-11-27
• Study Completion: 2020-11-27
• Last Update Submitted: 2021-02-25
• Last Update Posted: 2021-03-01

Recruitment & Eligibility

• Status: TERMINATED
• Sex: All
• Target Recruitment: 21

Inclusion Criteria

• Patient with respiratory failure due to primary pulmonary pathology.
• Patient who is selected for BiPAP or CPAP by the health care provider

Exclusion Criteria

• Age <18 years.
• Respiratory failure due to non-pulmonary pathology.
• Impaired consciousness (Glasgow coma scale <10).
• Patients with contraindications of NIV.
• Severe upper gastrointestinal bleeding.
• Chest trauma.
• Agitated or violent patient.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Aerosol-reducing Mask	Aerosol-reducing Mask	The participant will be placed on BIPAP using the aerosol-reducing mask. In the case where the patient is located in a care area where BIPAP is prohibited with a standard mask, they will assigned the aerosol-reducing mask.
Standard Mask	Standard Mask	The patient will be placed on BIPAP using the standard mask. In the case where the patient is located in a care area where BIPAP is prohibited with a standard mask, they will assigned the aerosol-reducing mask.

Primary Outcome Measures

Name	Time	Method
Total Leak Volume of Non Invasive Ventilation Mask	Baseline to 24 hours	The primary objective of this study is to assess if the mask device leaks when attached to a patient's face in real-world use.; This outcome will be measured by having a researcher assess the physical seal on the patient four times throughout the device's use. The researcher will also screen the non-invasive ventilator machine for indications that the leak alarm has been triggered throughout the participant's engagement in the study. This outcome will be measured by total leak volume litres/minute.

Secondary Outcome Measures

Name	Time	Method
Glasgow Coma Scale(GCS)	Baseline to 24 hours	Metabolic data will include measuring the patients level of consciousness through the 15 point Glasgow coma scale (3-15 points, 3 points= lowest level of consciousness (no response, decompensation of patient), 15= awake, oriented, responding appropriately).
Metabolic Data: Bicarbonate (HC03)	Baseline to 24 hours	The patients HC03 level will be measured in mmol/L to monitor patients condition throughout the study.
Respiratory Rate	Baseline to 24 hours	Respiratory status will be measured in part by the patients respiratory rate by respirations per minute. Normal respiratory rate is 12-20 respirations per minute.
Heart Rate	Baseline to 24 hours	Patient's condition will be measured by vital signs including heart rate in beats per minute. Normal heart rate is 60-100 beats per minute.
Metabolic Data: Blood Gas Measurements	Baseline to 24 hours	The patients pH will be measured to monitor patient condition throughout the study. Normal pH 7.35-7.45. Increasing acidosis indicative of worsening hypercapnia.
Metabolic Data: Partial Pressure of Carbon Dioxide (PaC02)	Baseline to 24 hours	The patients PaC02 level will be measured in mmHg to monitor patients condition. throughout the study. Increase in PaC02 levels indicative of worsening hypercapnia.
Metabolic Data: Partial Pressure of Oxygen (Pa02)	Baseline to 24 hours	The patients Pa02 level will be measured in mmHg to monitor patients condition throughout the study.

Trial Locations

Locations (1)

London Health Science Centre; 🇨🇦 London, Ontario, Canada