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Evaluation of Different Methods for Preoxygenation

Not Applicable
Completed
Conditions
Anesthesia
Interventions
Device: Facemask
Device: Humidified high-flow nasal oxygen
Device: Standard nasal cannula
Registration Number
NCT05839665
Lead Sponsor
Malin Jonsson Fagerlund
Brief Summary

The goal of this randomised cross-over study is to compare pre-oxygenation using a standard nasal cannula to pre-oxygenation using humidified high-flow nasal oxygen and a tight-fitting facemask in adult volunteers with a BMI below 30 not suffering from pulmonary or cardiac comorbidity.

The main question it aims to answer is:

- Are there any differences in the effectiveness of pre-oxygenation using a standard nasal cannula compared to using a traditional facemask and pre-oxygenation using humidified high-flow nasal oxygen?

Participants will be pre-oxygenated with 100% oxygen during four minutes intervals. All participants will be pre-oxygenated with various flow rates using a standard nasal cannula, a facemask and humidified high-flow nasal oxygen. End-tidal oxygen concentrations will be measured continuously in order to evaluate the effectiveness of pre-oxygenation.

Each volunteer will be pre-oxygenated repeatedly, with different flow rates, with all three methods of pre-oxygenation and act as its own control.

During facemask pre-oxygenation volunteers will be pre-oxygenated using both tidal volume breathing for four minutes and with eight vital capacity breaths. During pre-oxygenation using the standard nasal cannula flow rates will vary between 15 and 50 l/min. Pre-oxygenation using humidified high-flow nasal oxygen will be performed with flow rates varying between 30 and 50 l/min. Series will be conducted with volunteers breathing with both opened and closed mouth as well as with four minutes of tidal volume breathing and eight vital capacity breaths.

All volunteers will start with facemask pre-oxygenation. They will thereafter be randomised to pre-oxygenation with either a standard nasal cannula or humidified high-flow nasal oxygen. Lastly, they will be pre-oxygenated with the remaining method according to the randomisation.

Detailed Description

Pre-oxygenation before anaesthesia induction is mostly performed using a tight-fitting facemask. Recently, studies have shown that pre-oxygenation using humidified high-flow nasal oxygen is equally effective as pre-oxygenation using a standard tight-fitting facemask. Pre-oxygenation using humidified high-flow nasal oxygen has several potential advantages including improved patient comfort and the possibility of a seamless transition from pre-oxygenation to apnoeic oxygenation. Unfortunately, this technique requires an additional machine which can be expensive and also difficult to use in settings outside a hospital.

In this study, pre-oxygenation using a standard nasal cannula delivering a high flow of oxygen will be compared with standard facemask pre-oxygenation and pre-oxygenation using humidified high-flow nasal oxygen in adult volunteers with a BMI below 30 not suffering from pulmonary or cardiac comorbidity.

The main question it aims to answer is:

- Are there any differences in the effectiveness of pre-oxygenation using a standard nasal cannula compared to using a traditional facemask and pre-oxygenation using humidified high-flow nasal oxygen?

Participants will be pre-oxygenated with 100% oxygen during four minutes intervals. All participants will be pre-oxygenated with various flow rates using a standard nasal cannula, a facemask and humidified high-flow nasal oxygen. End-tidal oxygen concentrations will be measured continuously in order to evaluate the effectiveness of pre-oxygenation.

Each volunteer will be pre-oxygenated repeatedly, with different flow rates, with all three methods of pre-oxygenation and act as its own control.

During facemask pre-oxygenation volunteers will be pre-oxygenated using both tidal volume breathing for four minutes and with eight vital capacity breaths. During pre-oxygenation using the standard nasal cannula flow rates will vary between 15 and 50 l/min. Pre-oxygenation using humidified high-flow nasal oxygen will be performed with flow rates varying between 30 and 50 l/min. Series will be conducted with volunteers breathing with both opened and closed mouth as well as with four minutes of tidal volume breathing and eight vital capacity breaths.

All volunteers will start with facemask pre-oxygenation. They will thereafter be randomised to pre-oxygenation with either a standard nasal cannula or humidified high-flow nasal oxygen. Lastly, they will be pre-oxygenated with the remaining method according to the randomisation.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
20
Inclusion Criteria
  • Ability to understand and sign informed consent
  • Age 25-65 years
  • Body mass index <30
Exclusion Criteria
  • Heart disease
  • Respiratory disease
  • Pregnancy
  • Smoker

Study & Design

Study Type
INTERVENTIONAL
Study Design
CROSSOVER
Arm && Interventions
GroupInterventionDescription
FacemaskFacemaskTight-fitting facemask. Two series will be done where pre-oxygenation will be performed with four minutes of tidal volume breathing and eight vital capacity breaths. This arm is not randomised. All study subjects will start with facemask pre-oxygenation and are thereafter randomised to standard nasal cannula or humidified high-flow nasal cannula.
Humidified high-flow oxygenHumidified high-flow nasal oxygenHumidified high-flow nasal oxygen delivered via the Optiflow device. Repeated series with 100% oxygen with flows varying between 30 to 50 l/min. Volunteers will also be pre-oxygenated with both opened and closed mouth.
Standard nasal cannulaStandard nasal cannulaStandard nasal cannula connected to an oxygen rotameter Repeated series with 100% oxygen with flows varying between 15 to 50 l/min. Volunteers will also be pre-oxygenated with both opened and closed mouth.
Primary Outcome Measures
NameTimeMethod
Comparison of the effectiveness of pre-oxygenationAfter 3 minutes of preoxygenation

Compare end-tidal oxygen levels after three minutes of pre-oxygenation using a standard facemask, high-flow nasal oxygen and a standard nasal cannula.

Secondary Outcome Measures
NameTimeMethod
Duration of pre-oxygenation until end-tidal oxygen levels above 85%After 3 minutes of preoxygenation

Evaluation of end-tidal oxygen levels will be done each minute during all series of pre-oxygenation in order to investigate the time taken until reaching end-tidal levels above 85%. A comparison between the time taken to achieve end-tidal levels above 80% will be done between the different methods of pre-oxygenation as well as the different flow rates.

Continuous comparison of end-tidal oxygen levelsAfter 3 minutes of preoxygenation

Evaluation of end-tidal oxygen levels will be done after one, two, three and four minutes of pre-oxygenation. Comparison between the different methods and flow rates of pre-oxygenation will be done in order to evaluate which method and flow rate generates adequate end-tidal oxygen levels most quickly.

Pre-oxygenation with open and closed mouthAfter 3 minutes of preoxygenation

All volunteers will be pre-oxygenated with both open and closed mouths in order to evaluate if there are any differences in end-tidal oxygen levels when breathing with open or closed mouth.

Duration of pre-oxygenation until end-tidal oxygen levels above 80%After 3 minutes of preoxygenation

Evaluation of end-tidal oxygen levels will be done each minute during all series of pre-oxygenation in order to investigate the time taken until reaching end-tidal levels above 80%. A comparison between the time taken to achieve end-tidal levels above 80% will be done between the different methods of pre-oxygenation as well as the different flow rates.

Vital capacity breathing vs tidal volume breathingAfter 3 minutes of preoxygenation

End-tidal oxygen levels during pre-oxygenation will be evaluated and compared between tidal volume breathing for three minutes and eight vital capacity breaths.

Differences in end-tidal oxygen levels after pre-oxygenation due to age, body mass index or sex.After 3 minutes of preoxygenation

Subgroup analysis will be performed in order to investigate any differences in the effect of pre-oxygenation depending on volunteer age, body mass index or sex.

DiscomfortAfter 3 minutes of preoxygenation

Level of discomfort, on a scale between one and ten, where ten is the worst discomfort and 0 is the best comfort) will be compared between the three different methods of pre-oxygenation and the different flow rates.

Trial Locations

Locations (2)

Karolinska University Hospital, Solna

🇸🇪

Stockholm, Sweden

Perioperative Medicine and Intensive Care Medicine

🇸🇪

Stockholm, Sweden

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