Apneic Oxygenation Via Nasal Cannulae: 15 L/Min vs High-Flow
Overview
- Phase
- Phase 4
- Intervention
- 0 L/min oxygen via conventional nasal cannulae
- Conditions
- Apneic Oxygenation
- Sponsor
- Nova Scotia Health Authority
- Enrollment
- 45
- Locations
- 1
- Primary Endpoint
- PaO2: repeated measures every 90 seconds after induction
- Status
- Completed
- Last Updated
- 7 years ago
Overview
Brief Summary
This is a randomized clinical trial investigating the utility of apneic oxygenation via nasal cannulae in the post-induction setting for the purpose of prolonging the safe apneic time. Three groups will be compared, a control group at 0 L/min, a 15 L/min and a 60 L/min group. The primary outcome will be the difference in the partial pressure of oxygen in arterial blood (PaO2) between groups throughout the nine-minute apneic period.
Detailed Description
Airway management can be a life saving therapy. One major complication that may occur during airway management is a lack of oxygen in the blood. If severe or prolonged, this lack of oxygen can result in permanent brain damage, damage to other vital organs or even death. Strategies already exist to help prevent a lack of oxygen in the blood (hypoxemia), however research involving new ways to oxygenate patients may help to minimize the chance of hypoxemia during airway management. Apneic oxygenation is a novel method of delivering oxygen to a patient despite a lack of active respiration (i.e. the patient is not breathing on their own and the investigators are not providing the patient an artificial breath). The simplest and least invasive method to provide apneic oxygenation is the application of oxygen through nasal cannulae during airway management. Several different techniques to provide apneic oxygenation via nasal cannulae have been previously described(1-3), however randomized trials comparing these methods do not exist. This study will examine the change over time of the amount of oxygen dissolved in the blood (PaO2) in each of the three treatment groups: a control group (no apneic oxygenation), a 15 L/min group and a 60 L/min group. This data will help to determine the extent of benefit apneic oxygenation provides in this setting.
Investigators
Tim Mullen
Staff Anesthesiologist
Nova Scotia Health Authority
Eligibility Criteria
Inclusion Criteria
- •American Society of Anesthesiologists Physical Status Classification 1 to 3
- •Body Mass Index 28 to 35
- •Elective surgery under general anesthesia
Exclusion Criteria
- •Evidence of difficult airway management (from patient history or clinical examination)
- •Features suggestive of difficult bag mask ventilation
- •Significant uncontrolled gastroesophageal reflux disease
- •Significant respiratory disease (including severe asthma or chronic obstructive pulmonary disease, oxygen dependency, pulmonary hypertension, identified by pulmonary function tests or inability to climb one flight of stairs)
- •Significant cardiac disease (ischemic heart disease, severe valvular disease, severe arrhythmia, congestive heart failure, ejection fraction \< 50%, inability to climb one flight of stairs)
- •Inability to lie flat (skeletal deformities, orthopnea)
- •Hemoglobin \< 100 g/L
- •Pregnancy
- •Neuromuscular disorder
- •Known or suspected cervical spine instability
Arms & Interventions
0 L/min
These participants will receive 0 L/min oxygen via conventional nasal cannulae during the apneic period.
Intervention: 0 L/min oxygen via conventional nasal cannulae
15 L/min
These participants will receive 15 L/min oxygen via conventional nasal cannulae during the apneic period.
Intervention: 15 L/min oxygen via conventional nasal cannulae
60 L/min
These participants will receive 60 L/min oxygen via high-flow nasal cannulae during the apneic period.
Intervention: 60 L/min oxygen via high-flow nasal cannulae
Outcomes
Primary Outcomes
PaO2: repeated measures every 90 seconds after induction
Time Frame: 0-9 minutes after induction
data collected from serial arterial blood gas measurements
Secondary Outcomes
- Lowest oxygen saturation by pulse oximetry (SpO2) encountered during study(0-9 minutes after induction)
- Time to desaturation below 95% SpO2(0-9 minutes after induction)
- Partial pressure of carbon dioxide in arterial blood (PaCO2): repeated measures every 90 seconds after induction(0-9 minutes after induction)
- Number of participants with SpO2 below 95%(0-9 minutes after induction)